factibilidad de implementación de reconexión …...definitiva del elemento fallado en tiempo...

1

ESTUDIO ESPECÍFICO:

PARÁMETROS MÍNIMOS PARA LA RECONEXION TRIPOLAR Y MONOPOLAR

TIEMPOS DE RECONEXIÓN AUTOMÁTICA Y ESTABILIDAD TRANSITORIA

Informe Preliminar

Diciembre de 2013

FV: Parámetros para reconexión monopolar y tripolar, tiempos de reconexión y estabilidad transitoria 2

A-DO

ESTUDIO ESPECÍFICO DE:

PARÁMETROS MÍNIMOS PARA LA RECONEXION TRIPOLAR Y MONOPOLAR

TIEMPOS DE RECONEXIÓN AUTOMÁTICA Y ESTABILIDAD TRANSITORIA

1 OBJETIVO........................................................................................................................................................... 4

2 ANTECEDENTES ............................................................................................................................................... 4

3 HIPÓTESIS .......................................................................................................................................................... 5

3.1 CORRIENTE DE ARCO SECUNDARIO ................................................................................................................ 5 3.2 NÚMERO DE RECONEXIONES .......................................................................................................................... 6 3.3 TIEMPO DE DESPEJE DE FALLAS ..................................................................................................................... 6 3.4 TIEMPOS MÍNIMOS DE EXTINCIÓN DEL ARCO SECUNDARIO ............................................................................ 6 3.5 TIEMPOS MÍNIMOS ADMISIBLES POR ESTABILIDAD TRANSITORIA DEL SISTEMA ............................................. 7 3.6 SEVERIDADES ASOCIADAS A LAS FALLAS....................................................................................................... 7 3.7 TIPOS DE FALLAS CONSIDERADAS .................................................................................................................. 7 3.8 ESCENARIOS .................................................................................................................................................. 8 3.9 MODELOS DE REGULADORES DE TENSIÓN DE CENTRALES DIESEL .................................................................. 8 3.10 MODELOS DE GENERADORES EÓLICOS ........................................................................................................... 8 3.11 MAIS (AUTOMATISMOS DE CONEXIÓN Y DESCONEXIÓN AUTOMÁTICA DE REACTORES) ................................ 8

4 METODOLOGÍA ................................................................................................................................................ 8

4.1 PRESELECCIÓN DE LÍNEAS A ANALIZAR ......................................................................................................... 8 4.2 DETERMINACIÓN DE LÍNEAS CANDIDATAS A EFECTUAR RECONEXIÓN TRIPOLAR RÁPIDA .............................. 9 4.3 DETERMINACIÓN DE TIEMPOS MÁXIMOS ADMISIBLES PARA LA RECONEXIÓN TRIPOLAR RÁPIDA POR

PROBLEMAS DE ESTABILIDAD TRANSITORIA ................................................................................................................ 9 4.4 DETERMINACIÓN DE LÍNEAS CANDIDATAS A EFECTUAR RECONEXIÓN MONOPOLAR RÁPIDA.......................... 9 4.5 ANÁLISIS DE ESTABILIDAD TRANSITORIA ...................................................................................................... 9

4.5.1 Utilización de la técnica de equivalentes máquina – barra infinita ......................................................... 9 4.5.2 Construcción de equivalentes máquina – barra infinita ......................................................................... 10 4.5.3 Aplicación del método ............................................................................................................................ 14

5 RESULTADOS .................................................................................................................................................. 14

5.1 ESTIMACIÓN DE LA CORRIENTE DE ARCO SECUNDARIA MÁXIMA EN EL SISTEMA ANALIZADO ...................... 14 5.2 LÍNEAS CANDIDATAS PARA EFECTUAR RECONEXIÓN TRIPOLAR RÁPIDA. ..................................................... 16 5.3 CÁLCULO DEL TIEMPO MUERTO DE RECONEXIÓN TRIPOLAR. ....................................................................... 17 5.4 LÍNEAS CANDIDATAS PARA EFECTUAR RECONEXIÓN MONOPOLAR RÁPIDA. ................................................. 19

6 CONCLUSIONES ............................................................................................................................................. 19

7 REFERENCIAS ................................................................................................................................................. 20


Anexos

I Escenario de demanda máxima de Junio de 2013 II Escenario de demanda mínima de Junio de 2013 III Escenario de demanda máxima de Diciembre de 2012 IV Escenario de demanda mínima de Diciembre de 2012 V Resultados del cálculo de los tiempos críticos de despeje de fallas trifásicas. Escenario de

demanda alta, Junio de 2013. VI Resultados del cálculo de los tiempos críticos de despeje de fallas trifásicas. Escenario de

demanda baja, Junio de 2013. VII Resultados del cálculo de los tiempos críticos de despeje de fallas trifásicas. Escenario de

demanda alta, Diciembre de 2012. VIII Resultados del cálculo de los tiempos críticos de despeje de fallas trifásicas. Escenario de

demanda baja, Diciembre de 2012. IX Resumen de resultados del cálculo de los tiempos críticos de reconexión para fallas monofásicas

Parámetros para reconexión monopolar y tripolar, tiempos de reconexión y estabilidad transitoria 4

1 Objetivo

El objetivo de este informe técnico es dar respuesta a los requerimientos fijados en los Artículos. 5 - 50 y 5 - 51 de la Norma Técnica de Seguridad y Calidad de Servicio (en adelante NT), que exige la determinación de la compatibilidad entre los tiempos de actuación de la reconexión automática con los requerimientos de estabilidad transitoria del SIC y con los tiempos mínimos de extinción de la corriente de arco secundario.

2 Antecedentes

Según señala la NT en su Artículo 5-50, las líneas del sistema de transporte que cuenten con interruptores de polos separados deberán equiparse con los automatismos que posibiliten la operación de la reconexión automática ante fallas monofásicas. Este mismo Artículo señala que se deberán realizar Estudios Específicos a fin de determinar la compatibilidad entre los tiempos de actuación de los mecanismos de reconexión con los tiempos mínimos de extinción del arco secundario, verificando los requerimientos de estabilidad transitoria del sistema.

Esta exigencia también está definida en el Artículo 1-9, ya que aquí se establece en forma explícita que la DO debe realizar los Estudios Específicos numerales 5 y 6: Parámetros mínimos de la reconexión monopolar y tripolar, y Tiempos de reconexión automática y estabilidad transitoria del SI respectivamente.

Complementando lo anterior, el Artículo 5-51 establece que la DO deberá realizar Estudios Específicos para definir los parámetros mínimos de la reconexión monopolar y tripolar.

En cuanto a las contingencias a considerar, el mismo Art. 5-51 establece que se deberán considerar las contingencias especificadas en los Artículos 5-41 y 5-42.

El Art. 5-41 se refiere a las contingencias simples, que respecto a las líneas de transmisión, corresponde a las siguientes severidades:

Severidad 1: desconexión de un condensador serie.

Severidad 2: falla monofásica sólida sobre un circuito de una doble terna o sobre una línea de simple circuito con o sin redundancia de vínculo, admitiendo recierre de la fase fallada.

Severidad 3: falla bifásica sólida con contacto a tierra sobre una línea de simple circuito y desconexión definitiva.

Severidad 4: falla bifásica sólida con contacto a tierra sobre una línea de doble circuito o línea de simple circuito con redundancia de vínculo, y desconexión definitiva.

El Art. 5-42 se refiere a las siguientes contingencias severas:

Severidad 6: falla bifásica sólida a tierra sobre una línea de doble circuito con salida definitiva del elemento fallado en tiempo normal y salida del circuito sano por actuación fallida del sistema de protección.


Severidad 7: falla bifásica sólida a tierra sobre una línea de simple circuito con redundancia de vínculo con salida definitiva del elemento fallado en tiempo prolongado (protección de respaldo).

3 Hipótesis

3.1 Corriente de arco secundario

A continuación de una falla a tierra en una fase de una línea de transmisión, la apertura del interruptor de la fase fallada despeja el cortocircuito en el cero de corriente o en un punto muy cercano a él. En el instante en que el último polo de interruptor abre, el camino del arco ingresa en una transición desde una relativamente alta corriente de arco primario a una baja corriente de arco secundario que es mantenida a través de acoplamiento mutuo con las fases sanas, debido a que el aire se ha calentado e ionizado por acción del arco primario. En estas condiciones, la corriente de arco secundario alcanza valores comúnmente menores a 20 A r.m.s., y la resistencia

del arco secundario resultante es del orden de 1 k o mayor. Sin embargo, el arco secundario es extremadamente no lineal, con una longitud que a menudo varía considerablemente durante el tiempo muerto de reconexión.

La corriente de arco secundario es, en general, inherentemente inestable, y se extinguirá a sí misma. Sin embargo, esta extinción debe ser rápida a fin de permitir reconexiones rápidas y exitosas, a fin de asegurar la estabilidad transitoria del sistema. El tiempo de extinción depende de la corriente y de factores aleatorios, incluyendo el viento. Varios ensayos realizados sobre líneas no compensadas han mostrado que, si la corriente de arco secundario no excede los 20 A r.m.s., la extinción es tan rápida que un recierre de 500ms es casi siempre exitoso. Si, por el contrario, la corriente excede los 30 A r.m.s., el tiempo de extinción es demasiado grande como para permitir una reconexión rápida.

Si la corriente de arco secundario excede los 20 A, la solución comúnmente utilizada en las redes de alta tensión es considerar el agregado de reactores de neutro en los reactores de compensación shunt.

Varios autores recomendaron la necesidad de arribar a un método para simular realísticamente la respuesta del arco secundario en sistemas de muy alta tensión. Sin embargo, para efectos de un estudio de factibilidad como el que propone el presente informe, se ha estimado conveniente en primer término utilizar expresiones aproximadas que permitan inferir un tiempo muerto de reconexión teniendo en cuenta que la línea en cuestión esté perfectamente simetrizada, despreciando los acoplamientos inductivos y teniendo en cuenta solamente los acoplamientos capacitivos y, de existir, los reactores de compensación shunt y reactancias de neutro.

Si, luego del análisis de factibilidad, se demostrara la necesidad de compatibilizar el tiempo muerto de reconexión monofásica con el tiempo muerto crítico por estabilidad transitoria, corresponderá efectuar un estudio detallado utilizando un modelo de transitorios electromagnéticos que tenga en cuenta todas las particularidades constructivas de la línea (simetrizaciones, variaciones constructivas en su geometría, etc.) a fin de optimizar el cálculo del tiempo de extinción de arco, y por tanto, aumentar las posibilidades de una reconexión exitosa.


3.2 Número de reconexiones

La experiencia práctica recogida demuestra que existe una alta probabilidad de éxito en la primera reconexión de los circuitos de sistemas de transmisión y subtransmisión. La probabilidad de éxito de las reconexiones posteriores es sensiblemente menor. Un mayor número de reconexiones se justifica normalmente en sistemas de distribución (expuestos, por ejemplo, a fallas por contacto de los conductores con árboles cercanos), pero aún así la probabilidad de éxito de las reconexiones sucesivas es considerablemente inferior a la de la primera conexión. Además, en estos casos, los tiempos de reconexión asociados son del orden de decenas de segundos, por lo que quedan excluidos todos los problemas relacionados a la estabilidad transitoria.

Se propone entonces, considerar la utilización de un único recierre, en los casos que éste sea factible.

3.3 Tiempo de despeje de fallas

El tiempo durante el cual se establece la corriente de arco primario determina el grado de calentamiento del canal de aire ionizado. A mayor calentamiento, menor será la probabilidad que el arco secundario se extinga. En consecuencia, la velocidad con la cual se despeje el cortocircuito es un factor clave para el éxito de la reconexión.

Cuanto más rápido sea despejada la falla por los interruptores, menor será el impacto sobre el sistema y el grado de ionización del arco, y por tanto mayor será la probabilidad de éxito en la reconexión. La probabilidad de éxito en la reconexión, por tanto, será mejorada si sobre la línea protegida se encuentra un canal de comunicación de alta velocidad (hilo piloto) que permita operar rápidamente los interruptores de ambos extremos. Con este recaudo, es posible despejar las fallas en sistemas de 220 kV y 500 kV en tiempos entre 80 y 100 ms. No obstante lo anterior, se ha adoptado, con criterio conservador, un tiempo de despeje de fallas de 120 ms (6 ciclos), de acuerdo a lo establecido en el Art. 5-49 de la NT.

3.4 Tiempos mínimos de extinción del arco secundario

El mínimo tiempo muerto de reconexión (TMR) requerido para neutralizar el arco secundario previo a una reconexión tripolar puede ser aproximado mediante la siguiente ecuación [9]:

20*5.34

5.10

kVmsTMR

Donde kV es la tensión compuesta nominal de la línea.

De acuerdo a esta expresión, los tiempos muertos de reconexión tripolar para 500 kV y 220 kV serán de 500 ms y 340 ms respectivamente.

La reconexión monopolar requiere de tiempos muertos mayores, debido al acoplamiento inductivo y capacitivo entre la fase fallada y las fases sanas que mantienen energizado el arco secundario. Los tiempos muertos son aún mayores en las líneas de doble circuito, debido a los acoplamientos adicionales entre la fase fallada y las fases de la línea sana.


Según una encuesta realizada en diferentes países europeos ([3]), los tiempos muertos de reconexión monopolar resultaron en promedio cercanos a los 900 ms, con valores extremos entre 0.5 s y 1.5 s.

3.5 Tiempos mínimos admisibles por estabilidad transitoria del sistema

Una vez despejada la falla, las fases comprometidas deberán permanecer abiertas durante un intervalo de tiempo mayor al necesario para extinguir el arco secundario, pero menor al tiempo admisible para el mantenimiento de la estabilidad transitoria. Estos últimos deben calcularse para cada una de las líneas bajo estudio, mediante simulaciones de estabilidad transitoria.

3.6 Severidades asociadas a las fallas

Se ha considerado que los Estudios Específicos a que se refiere la NT en los numerales 5) y 6) en realidad pueden ser abordados a través de un único estudio, en el cual se documente la compatibilidad de los tiempos muertos de actuación de los automatismos de reconexión con los tiempos mínimos para la extinción del arco secundario, asegurando que no se produzca riesgo de inestabilidad transitoria, a partir del tratamiento de las fallas testigo que establece la NT

En cuanto a éstas últimas, en lo referido a las fallas con severidad 6 y 7, que llevan al sistema prácticamente a la pérdida de vínculo, el recierre tripolar que debería tener lugar en tiempo normal o en tiempo prolongado sería llevado a cabo en condiciones angulares muy críticas, por lo que podrían esperarse importantes cambios en los torques mecánicos de las unidades generadoras adyacentes, y por tanto cabría esperar elevadas solicitaciones mecánicas en sus ejes.

La contingencia denominada severidad 1 (bypass de banco de compensación serie) no se considera factible de recierre, ya que cuando se produce este tipo de situación podría estar asociada a una falla interna al banco de capacitores. Por tanto, se entiende que proceder a su reconexión ante una falla interna, podría resultar riesgoso para su integridad.

Debido a lo comentado, no se ha considerado factible la utilización de reconexión para fallas de severidad 1, 6 y 7, por lo que el estudio realizado contempla solamente las contingencias simples de severidades 2 a 4 inclusive.

3.7 Tipos de fallas consideradas

En este estudio, se consideró la aplicación de fallas monofásicas y trifásicas, aplicadas en los extremos de mayor potencia de cortocircuito de cada una de las líneas bajo estudio.

Se ha decidido utilizar fallas trifásicas en lugar de las bifásicas con contacto a tierra que exige la NT (severidades 3 y 4) por las siguientes razones:

En sistemas rígidamente puestos a tierra, la corriente de cortocircuito para fallas bifásicas con contacto a tierra es mayor que la correspondiente a las fallas trifásicas. Si éstas dan lugar a un resultado inestable, el mismo lo será aún más para la falla bifásica con contacto a tierra, por lo que los tiempos muertos de reconexión asociados serán menores aún. Si los tiempos muertos de reconexión admisibles por estabilidad transitoria para fallas trifásicas son menores a los necesarios para poder extinguir el arco secundario, la reconexión no será factible ni para fallas trifásicas ni para bifásicas con contacto a tierra.


La simulación de las fallas trifásicas implica la utilización exclusiva de la red de secuencia positiva, mientras que la simulación de las fallas bifásicas con contacto a tierra requiere el uso de las tres redes de secuencia. Por esta razón, la simulación de las fallas desbalanceadas implica mayores tiempos de simulación.

Por este motivo, se decidió utilizar fallas trifásicas en lugar de bifásicas con contacto a tierra, como un primer criterio de selección para eliminar del conjunto de líneas a analizar aquellas cuyo tiempo de reconexión fuera más pequeño que el mínimo necesario para asegurar la extinción del arco secundario, ya que se asume que una falla bifásica con contacto a tierra daría un tiempo de reconexión aún menor y por tanto sería infructuoso recurrir a reconectar la línea.

3.8 Escenarios

Se han utilizado escenarios de demandas máximas y mínimas correspondientes a los meses de Junio de 2013 y Diciembre de 2012, característicos de períodos de alta y baja generación hidráulica respectivamente.

Los despachos de generación en los escenarios de demanda máxima fueron modificados posteriormente, a fin de obtener aún más elevados niveles de transmisión en los corredores de transmisión más exigidos, esto es, el corredor norte para el mes de Diciembre y el sistema de 500 kV para el escenario de Junio.

En los Anexos I a IV se pueden observar detalles de los mismos.

3.9 Modelos de reguladores de tensión de centrales diesel

Debido a la influencia que en general tienen en la estabilidad transitoria los reguladores de tensión, y en los casos de información incompleta, se decidió representarlos utilizando la mejor información disponible a la fecha en el CDEC-SIC.

3.10 Modelos de generadores eólicos

Debido a la influencia que podrían tener los generadores eólicos en la estabilidad transitoria del norte del SIC, se decidió modelarlos utilizando la mejor información disponible.

3.11 MAIS (automatismos de conexión y desconexión automática de reactores)

Debido a que las temporizaciones mínimas asociadas a estos equipos superan los 1.6 segundos, y que los tiempos máximos de simulación observados fueron menores a 1.3 segundos, no se ha considerado su activación en estos estudios.

4 Metodología

4.1 Preselección de líneas a analizar

Las referencias normativas que se han citado permiten asegurar que los parámetros para la reconexión que se deben determinar corresponderán solamente a aquellas líneas sobre las cuales se apliquen fallas que representen un compromiso para la estabilidad transitoria del sistema.

Por este motivo, y debido a la gran cantidad de líneas de transmisión del SIC, se decidió en primer lugar preseleccionar para el estudio aquellas cuya salida de servicio pudiera repercutir en la estabilidad transitoria del sistema.


Por esta razón se decidió circunscribir el estudio solamente a las líneas de transmisión de tensiones nominales iguales o mayores a 220 kV, ya que se entiende que contingencias en líneas de tensiones nominales de menor valor no producirían efectos sobre la estabilidad transitoria del sistema.

Debido a que los problemas de estabilidad transitoria aparecen en líneas de longitudes medias y largas, y fuertemente cargadas, se decidió además eliminar de este primer subconjunto a todas aquellas cuyas longitudes fueran menores a los 20 km, o que estuvieran poco cargadas (flujos menores a los 10 MW).

4.2 Determinación de líneas candidatas a efectuar reconexión tripolar rápida

Para el análisis de las contingencias trifásicas, en primer término se procedió a realizar un análisis del tiempo crítico de despeje de falla, sin considerar reconexión. De esta forma, fueron preseleccionadas como candidatas a la implementación de reconexión tripolar a aquellas líneas sobre las cuales el tiempo crítico de despeje de fallas resultara inferior a 120 ms.

4.3 Determinación de tiempos máximos admisibles para la reconexión tripolar rápida por problemas de estabilidad transitoria

Sobre el grupo de líneas preseleccionadas según se ha indicado en el punto anterior, se procedió a calcular el tiempo máximo admisible de reconexión tripolar asumiendo que el tiempo de aplicación de la falla fuera de 120 ms.

En aquellos casos en los cuales no fuera posible estabilizar el caso con ningún tiempo muerto de reconexión, o en su defecto el mismo resultara menor al tiempo mínimo requerido para la extinción del arco secundario según lo expresado en 3.4, se establece la imposibilidad de implementar reconexión tripolar en la línea bajo estudio.

4.4 Determinación de líneas candidatas a efectuar reconexión monopolar rápida

Teniendo en cuenta lo expuesto en 3.4, y con criterio simplificador, se decidió conformar el grupo de líneas candidatas a implementar reconexión monofásica con aquellas en las que luego de la aplicación de una falla monofásica despejada en 120 ms, y apertura monofásica de la fase fallada durante un tiempo indefinido, se perdiera estabilidad transitoria.

4.5 Análisis de estabilidad transitoria

4.5.1 Utilización de la técnica de equivalentes máquina – barra infinita

Para estudiar la estabilidad transitoria del sistema en forma masiva fue utilizada la técnica de análisis “máquina – barra infinita”.

Esta técnica, denominada también “OMIB” (“One Machine, Infinite Bus”) es ampliamente utilizada en el ámbito docente para explicar la naturaleza del problema de la estabilidad transitoria.

Como es sabido, esta técnica aplicada a una máquina vinculada a través de una única reactancia con una barra infinita, permite a través del denominado “criterio de la igualdad de áreas” determinar si un caso (ante fallas o grandes perturbaciones) es estable o no, y en ambos casos, establecer “cuan estable o inestable el caso es” a través del cómputo de las áreas acelerante y desacelerante y de sus diferencias relativas. Asimismo, es posible a través de esta técnica evaluar cualitativa y cuantitativamente el efecto de posibles recursos estabilizantes, como por


ejemplo la desconexión automática de generación, los resistores de frenado, la disminución de tiempos de apertura de interruptores, etc. De esta manera, el análisis de la estabilidad transitoria se establece a través de una evaluación directa y físicamente razonable del problema.

Esta técnica no es utilizada en general en la industria eléctrica debido a que el sistema real en realidad está constituído por gran cantidad de máquinas, y que en la práctica no existen “barras de potencia infinita”. En estos casos, la estabilidad transitoria se evalúa a través de simulaciones, en las cuales se observa la coherencia entre las evoluciones de los ángulos del rotor de la totalidad de las máquinas que componen el sistema. A partir de esta observación, se declara que un caso es inestable cuando al menos el ángulo de una máquina se aparta aperiódicamente de los ángulos del resto de las máquinas del sistema. Las simulaciones en sí mismas constituyen un análisis indirecto de la estabilidad, ya que no aportan información de, por ejemplo, cuan estable o inestable es un caso. Esto último se evalúa de manera cualitativa a partir de la observación de alguna variable particularmente crítica que el analista, en función de su conocimiento del sistema, selecciona (por ejemplo, comparando entre simulaciones sucesivas el ángulo del rotor de alguna máquina remota localizada en el área “que exporta potencia”).

De esta forma, las evaluaciones se realizan a partir de la construcción de un “equivalente OMIB” utilizando simulaciones del sistema multimáquina completo. A través de esta técnica, se reduce el sistema multimáquina a un equivalente de dos máquinas, que a su vez puede reducirse a otro sistema de una máquina conectada a una barra infinita.

4.5.2 Construcción de equivalentes máquina – barra infinita

En el análisis convencional de estabilidad transitoria que se realiza a partir de simulaciones, se declara que un caso es inestable ante la aplicación de una determinada falla “si alguna máquina o grupo de máquinas pierde sincronismo”, es decir, si su o sus ángulos de rotor se apartan aperiódicamente del conjunto de los ángulos restantes. De esta forma, ante un caso inestable quedan determinados dos conjuntos de máquinas: uno que “pierde sincronismo”, y otro “que no lo pierde”.

El método de construcción del equivalente OMIB se basa en este mismo hecho: la identificación de dos grupos o “clusters” de máquinas. Cada grupo presenta evoluciones coherentes de sus ángulos de rotor y de sus frecuencias. De esta forma, la técnica se basa en encontrar un único ángulo, una única frecuencia, y únicas potencias mecánicas y eléctricas representativas de cada grupo de máquinas en su conjunto.

Para cada paso de cálculo del programa de estabilidad transitoria se realizan las siguientes evaluaciones:

C

ii

C

C HH

1

N

ii

N

N HH

1

Donde C

iC HH y N

iN HH es la suma de las energías cinéticas de cada grupo, i es el ángulo

del rotor de cada máquina y los subíndices C y N identifican a los grupos “que pierden sincronismo” y “que no lo pierden” respectivamente. Como puede advertirse a partir de las


Figuras 1 y 2, los grupos de máquinas quedan determinados principalmente a partir de los apartamientos relativos al final de la simulación, en que los ángulos representativos de cada grupo se apartan más de 180 grados.

Fig. 1: Ángulos de rotor, caso inestable

Fig. 2: Ángulos característicos de cada grupo de máquinas, caso inestable

Para los casos estables se aplican los mismos conceptos. Como puede observarse de la Figura 3, la coherencia entre los dos grupos de máquinas se observa claramente en el instante de máxima excursión angular. En la Figura 4 se aprecian los ángulos característicos de cada grupo así como el ángulo resultante del equivalente OMIB.

Fig. 3: Ángulos de rotor, caso estable

Fig. 4: Ángulos característicos de cada grupo de máquinas, caso estable

El mismo razonamiento se aplica para determinar la frecuencia de cada grupo de máquinas.

Para las potencias se definen las siguientes relaciones:


C

iC PmecPmec , C

iC PelecPelec

y

N

iN PmecPmec , N

iN PelecPelec

Una vez determinados los parámetros de cada grupo, es posible reducir el sistema de dos máquinas a un sistema de una máquina equivalente conectada a una barra infinita utilizando los conceptos básicos ilustrados en la Ref. [3].

De esta manera, los parámetros de la máquina equivalente respecto a una barra infinita se definen como:

NC

NC

NC

NC

HH

HHH

y:

)H

Pmec

H

Pmec(HPmec

N

N

C

C , )H

Pelec

H

Pelec(HPelec

N

N

C

C

De esta forma, graficando en abscisas el ángulo y en ordenadas las potencias eléctrica y mecánica del equivalente OMIB, se pueden obtener curvas como la mostrada en la Figura 5, que posee la misma apariencia que las utilizadas en el clásico análisis del equivalente “máquina – barra infinita”.

Como es sabido, la estabilidad transitoria puede analizarse a partir del “criterio de la igualdad de áreas”:

final

inicial

2

d)PelecPmec(H

1

dt

d

La integral anterior puede evaluarse gráficamente si se calcula el área bajo la curva de la potencia acelerante versus el ángulo de rotor. Físicamente las áreas representan a las energías acelerante y desacelerante. Si la integral anterior es nula, (“área acelerante igual al área desacelerante”) la velocidad angular relativa entre las máquinas equivalentes será nula al cabo de la primera oscilación (determinada por los límites de integración), por lo que se deduce que el caso será estable. Si el caso es inestable, es decir, si el área desacelerante no logra compensar al área acelerante, el ángulo de la máquina equivalente comenzará a apartarse aperiódicamente del ángulo de la “barra infinita”, perdiéndose paso cuando el apartamiento supere los 180º eléctricos.


Fig. 5: Características “Potencia – ángulo”, caso inestable

Fig. 6: Características “Potencia – ángulo”, caso estable, con extrapolación cuadrática de la potencia eléctrica.

De esta manera, se declara la inestabilidad del caso cuando supera los 180º.

Puede calcularse un índice de inestabilidad , calculado como la diferencia entre las áreas acelerante y desacelerante. De esta manera:

2

INEST )(0H

Donde INEST es la variación de frecuencia en p.u. correspondiente al instante en que máx (ángulo a partir del cual el área acelerante vuelve a aumentar aperiódicamente, que corresponde a la intersección entre las curvas de potencia mecánica y de potencia eléctrica cuando esta última posee derivada negativa).

Este índice será tanto mayor cuanto mayor sea la diferencia entre las áreas acelerante y desacelerante.

De manera similar se puede calcular un índice de estabilidad relativa para casos estables, definido como la diferencia entre las áreas desacelerante y acelerante. En este caso será necesario inferir la totalidad del área desacelerante a partir de extrapolación de las características “potencia vs. ángulo”, de acuerdo a lo ilustrado en la Figura 6. Para este caso, la extrapolación se realiza desde el instante en que la característica de potencia eléctrica alcanza el ángulo máximo, hasta alcanzar la intersección con la curva de potencia mecánica. De esta manera se puede cuantificar el grado de estabilidad relativa del caso.

A partir de los resultados inestables, pueden inferirse valores de Desconexión Automática de Generación (DAG). Estos valores pueden determinarse a través de la siguiente expresión aproximada:

H

H

1DAG C

MAX

Donde 1 es el valor de ángulo correspondiente al instante en que comienza a existir área

desacelerante. Por ejemplo, si se observa la Figura 5, 1 y MAX corresponden a las intersecciones entre las curvas de potencias mecánica y eléctrica, cuando la derivada de ésta última es positiva y negativa respectivamente.


Si bien no forma parte de los objetivos de este estudio, se considera que éste último es un índice de desempeño interesante, ya que permite tener una idea aproximada del monto de generación a desconectar a fin de estabilizar el sistema, en caso que la reconexión por sí sola no lo permita.

4.5.3 Aplicación del método

Sobre las líneas preseleccionadas según se indicó en el punto anterior, y utilizando las técnicas de análisis descriptas en 4.1, se calcularon en primer término los tiempos críticos de despeje de fallas trifásicas. Para ello se empleó un método iterativo, consistente en calcular para dos iteraciones iniciales los índices de estabilidad correspondientes, y a partir de su extrapolación inferir el valor de tiempo de aplicación de falla que implicara un índice de estabilidad nulo. Debido a la naturaleza no lineal del problema, esta aproximación será más exacta a medida que el sistema se aproxima a la condición de estabilidad límite, por lo que el punto inicial elegido condiciona la calidad de la convergencia. Por este motivo, se trata de partir de casos inestables (tiempos de despeje de falla de 300 y 200 ms para las dos primeras iteraciones) a fin de obtener la mejor calidad de representación posible para la curva potencia – ángulo.

Si, para la iteración inicial (tiempo de aplicación de falla de 300 ms) el caso resultara estable, se decide que la contingencia no representa un riesgo para la estabilidad transitoria, y por tanto, no se considera necesaria la implementación de una reconexión rápida.

5 Resultados

5.1 Estimación de la corriente de arco secundaria máxima en el sistema analizado

Según las hipótesis expuestas en el punto 3, en primer lugar se procedió a calcular los valores r.m.s. de la corriente de arco secundario y de la tensión de restablecimiento del arco, para tres tipos constructivos típicos de 220 kV y 500 kV (simple y doble terna de 220 kV con dos subconductores por fase, y simple terna de 500 kV con cuatro subconductores por fase).

Se supuso, además, que para cada geometría correspondían las mayores longitudes de línea encontradas hasta la fecha en el sistema, para cada nivel de tensión.

Los resultados se exponen en la Tabla I, y demuestran lo siguiente:

La corriente de arco secundario para la simple terna de 220 kV más larga es ligeramente superior a 20 A, por lo que se espera una muy alta probabilidad de éxito en la reconexión monopolar sin necesidad de tomar medidas especiales.

La corriente de arco secundario para la simple terna de 500 kV más larga, con o sin compensación shunt y sin reactores de neutro es superior a los 40 A, por lo que no tiene sentido implementar reconexión monopolar debido a la alta probabilidad de que la misma no sea exitosa.

Mediante la utilización de reactores de neutro instalados en los bancos de compensación shunt, es posible para la simple terna de 500 kV atenuar la corriente de arco secundario a valores prácticamente despreciables, que asegurarán una alta probabilidad de éxito en la reconexión.

Tal como se anticipó en el punto 3, para la doble terna de 220 kV y la mayor longitud de línea los valores de corriente de arco secundario resultan algo superiores a los correspondientes a la simple terna. Sin embargo, se estima que aún sería posible


asegurar una alta probabilidad de éxito en la reconexión sin la utilización de bancos de compensación.

Tabla I: Resultados del cálculo de la corriente de arco secundario y la tensión de restablecimiento para tres geometrías y longitudes máximas de línea.

Doble terna

Sin reactores Sin reactores Sólo reactor

de línea

Reactores de

línea y de neutro

Sin reactores

Unom [kV] 220 500 500 500 220

raiz(3) 1.73 1.73 1.73 1.73 1.73

Efase [kV] 127.02 288.68 288.68 288.68 127.02

Sbase [MVA] 100 100 100 100 100

Zbase [ohm] 484 2500 2500 2500 484

Ybase [uS] 2066.116 400.000 400.000 400.000 2066.116

líneas

Bc1 [uS/km] 3.87 4.02 4.02 4.02 4.12

Bc0 [uS/km] 1.73 2.24 2.24 2.24 1.13

Bc3 [uS/km] 3.11

long max [km] 230.00 258.00 258.00 258.00 269.00

reactores (c/u)

Q [MVAr] 0.00 0.00 75.00 75.00 0.00

Zneutro [ohm] 0.00 0.00 0.00 3598.32 0.00

Br1 [uS] 0.00 0.00 300.00 300.00 0.00

Br0 [uS] 0.00 0.00 300.00 70.78 0.00

total

Bt1 [uS] 890.90 1036.13 436.13 436.13 1107.92

Bt0 [uS] 398.01 577.70 -22.30 436.14 304.54

Bt3 [uS] 837.02

Vf [kV] 28.72 49.94 155.70 0.00 31.98

If [A] 20.87 44.11 44.11 0.00 26.89

Simple terna

Nota: Zneutro para 500 kV se dimensiona teniendo en cuenta solamente la eliminación de la corriente de arco secundario.

Debido a que las hipótesis de cálculo de la corriente de arco secundario consideran las máximas longitudes existentes de líneas del sistema, a continuación y a título indicativo se calcularon las máximas longitudes que permiten obtener corrientes de arco secundario de 20 A.

Los resultados se exponen en la Tabla II.


Tabla II: Resultados del cálculo de las longitudes máximas de línea a fin de obtener una corriente de arco secundario de 20 A.

Doble terna

Sin

reactores

Sin

reactores

Sólo reactor

de línea

Reactores

de línea y de

neutro

Sin

reactores

Unom [kV] 220 500 500 500 220

raiz(3) 1.73 1.73 1.73 1.73 1.73

Efase [kV] 127.02 288.68 288.68 288.68 127.02

Sbase [MVA] 100 100 100 100 100

Zbase [ohm] 484 2500 2500 2500 484

Ybase [uS] 2066.116 400.000 400.000 400.000 2066.116

líneas

Bc1 [uS/km] 3.87 4.02 4.02 4.02 4.12

Bc0 [uS/km] 1.73 2.24 2.24 2.24 1.13

Bc3 [uS/km]

long max [km] 220.43 116.97 116.97 258.00 200.10

reactores (c/u)

Q [MVAr] 0.00 0.00 75.00 75.00 0.00

Zneutro [ohm] 0.00 0.00 0.00 3598.32 0.00

Br1 [uS] 0.00 0.00 300.00 300.00 0.00

Br0 [uS] 0.00 0.00 300.00 70.78 0.00

total

Bt1 [uS] 853.83 469.76 -130.24 436.13 824.12

Bt0 [uS] 381.45 261.92 -338.08 436.14 226.53

Bt3 [uS] 837.02

Vf [kV] 28.72 49.94 100.24 0.00 31.98

If [A] 20.00 20.00 20.00 0.00 20.00

Simple terna

Puede observarse que para 220 kV, no sería necesario instalar medios de compensación de la corriente de arco secundario, ya que la gran mayoría de las líneas del sistema en este nivel de tensión poseen longitudes inferiores a los 200 km.

Sin embargo, se observa también que sería necesario instalar reactores de neutro en 500 kV ya que la longitud de la mayoría de las líneas en este nivel de tensión supera los 120 km.

5.2 Líneas candidatas para efectuar reconexión tripolar rápida.

A partir de la metodología expuesta en los puntos anteriores, se procedió a calcular el tiempo crítico de despeje de fallas trifásicas.

Los resultados se documentan en los Anexos V a VIII.


Puede observarse que para los cuatro escenarios considerados, solamente las contingencias aplicadas sobre las líneas siguientes resultan con tiempos críticos de despeje de fallas inferiores a 120 ms:

Guacolda - Maitencillo 220 kV C1, C2, C3 y C4

Maitencillo - Cardones 220kV L1, L2 y L3

Punta Colorada - Maitencillo 220kV C1 y C2

Por lo tanto, se preseleccionan estas líneas como candidatas para la implementación de reconexión tripolar rápida, considerando un tiempo de despeje de fallas de 120 ms y un tiempo muerto de reconexión a determinar según se comenta en el punto siguiente.

En el resto de las líneas preseleccionadas para realizar reconexión tripolar (que resultaron con tiempos críticos de despeje de falla superiores a 120 ms en todos los escenarios), en principio cabría recurrir a reconexión tripolar en tiempos largos, no sujetos a restricciones por estabilidad transitoria, y por tanto su determinación queda fuera del alcance de este informe. Sin embargo, en caso de decidirse su implementación, se deberá tener en cuenta lo comentado en 3.6 respecto a los efectos de estos automatismos sobre generadores cercanos, y como mecanismo generador de sobretensiones.

5.3 Cálculo del tiempo muerto de reconexión tripolar.

En las mismas tablas expuestas en los Anexos V a VIII se observan los detalles del cálculo iterativo de los tiempos muertos de reconexión tripolar, a continuación del cálculo del tiempo crítico de despeje de fallas, asociados a cada una de las líneas preseleccionadas en el punto anterior.

Teniendo en cuenta los tiempos mínimos supuestos para la extinción del arco secundario según las hipótesis del punto 3.4, y los tiempos muertos de reconexión críticos, se obtienen los resultados que documenta la Tabla III.

Los resultados expuestos demuestran que en todos los casos los tiempos mínimos de extinción de arco secundario y los tiempos críticos de reconexión son incompatibles, por lo que no es factible la implementación de reconexión tripolar en ningún caso.

A fin de obtener resultados estables, el recurso de reconexión automática debería complementarse o ser reemplazado por desconexión automática de generación, o en su defecto proceder a determinar el límite de transmisión correspondiente.


Tabla III Resumen de resultados del cálculo del tiempo muerto crítico de reconexión tripolar

Duración de la falla = 120 ms

Diciembre_2012

Dda. Alta Dda. Baja

Lïnea TMRcr

[s] margen

[s] TMRcr

[s] margen

[s]

Guacolda - Maitencillo 220 kV C2 0.010 -0.328 0.010 -0.328

Maitencillo - Cardones 220kV L2 0.010 -0.328 0.010 -0.328

Punta Colorada - Maitencillo 220kV C2 0.010 -0.328 0.010 -0.328

Nota 1: TMRcr = 0.010 s indica que no fue posible converger a un caso estable utilizando un TMR superior al tiempo de despeje de falla

Nota 2: Tiempo mínimo de neutralización del arco secundario para 220 kV = 0.340 s

Nota 3: Tiempo mínimo de neutralización del arco secundario para 500 kV = 0.500 s


5.4 Líneas candidatas para efectuar reconexión monopolar rápida.

Siguiendo la metodología expuesta en el punto 4.4, y fijando el tiempo de despeje de falla en 120ms, se procedió a determinar el tiempo muerto crítico de reconexión monopolar.

Todos los casos simulados resultaron estables antes de efectuar la reconexión, lo cual indica que no existe compromiso entre el tiempo muerto de reconexión y el tiempo mínimo para el apagado del arco secundario.

De esta manera, se demuestra que es factible en todos los casos efectuar la reconexión monopolar, y que el tiempo muerto de reconexión no estará condicionado por problemas de estabilidad transitoria.

Es importante mencionar que este tiempo muerto de reconexión no podrá ser arbitrariamente grande, ya que durante su transcurso el sistema estará desbalanceado y sujeto a la circulación de corrientes de secuencia que pueden sobrecalentar los equipos y desencadenar salidas de servicio descontroladas.

Según lo expuesto en 3.4, un valor razonable para este parámetro estará comprendido entre 1 s y 1.5s.

6 Conclusiones

Los resultados documentados por este informe demuestran que, para los escenarios estudiados y para un tiempo de despeje de falla de 120 ms, no es factible la implementación de reconexión tripolar rápida, debido a que aún en aquellas líneas donde existe un compromiso de estabilidad transitoria, los tiempos mínimos de extinción del arco secundario son incompatibles con los tiempos muertos de reconexión correspondientes.

No obstante lo anterior, y teniendo presente que el tiempo de despeje de falla considerado es el máximo permitido por la NT, cabe realizar un análisis detallado basado en el funcionamiento real de los equipos para corroborar estos resultados.

Con respecto a la reconexión monopolar, los resultados de este estudio demuestran que con respecto a la compatibilidad con los tiempos muertos de reconexión, es factible su implementación en todos los casos. La determinación de los tiempos muertos de reconexión quedará entonces sujeta a las condiciones particulares del problema a resolver, así como al análisis de otros factores relacionados con la tolerancia del sistema a su funcionamiento transitorio desequilibrado, con el objeto de evitar sobrecargas o riesgo de salidas de servicio de otros equipos. Se podrían emplear en forma referencial valores en torno a 1 s.

Para la habilitación de la reconexión monopolar en las líneas de 500 kV, se ha demostrado la necesidad de contar con reactores de neutro a fin de atenuar la magnitud de la corriente de arco secundario, para longitudes superiores a 120 km aproximadamente. Para la mayor longitud de línea, se ha demostrado que un reactor de neutro con una reactancia del orden de 3600 ohm permite reducir tanto la corriente de arco secundario como la tensión de restablecimiento a valores despreciables.


7 Referencias

[1]. Application of an improved technique for assessing the performance of single-pole reclosing schemes. A.T. Johns, W.M. Ritchie. IEEE Transactions on PAS, 1984.

[2]. Suppression of ground-fault arcs on single-pole-switched EHV lines by shunt reactors. E. W. Kimbark. IEEE Transactions on PAS, 1964.

[3]. Single-pole switching for stability and reliability. Panel report. Transactions on Power Systems, 1986.

[4]. “Quantitative Search of Transient Stability Limits Using EEAC”. L. Wang, X. Wang, K.Morison, P. Kundur, F.Xue, C.Ding, Y.Luo, Y.Xue. IEEE PES Summer Meeting, Berlin, 1997.

[5]. “An Approach to Real-Time Transient Stability Assesment and Control”. M.Pavella, L. Wehenkel, A. Bettiol, D.Ernst. IEEE PES Summer Meeting Panel Session on Transient Stability Limit Search, Berlin, 1997.

[6]. “Power System Stability, Vol. I: Elements of Stability Calculations”. E.W.Kimbark. IEEE Press Power Systems Engineering Series. 1995 (reimpresión de la edición de 1948).

[7]. “Generalized One-Machine Equivalents in Transient Stability Studies”. M. Pavella. IEEE Power Engineering Review, January 1998.

[8]. Aplicaciones de la técnica del equivalente máquina – barra infinita sobre la red de alta tensión argentina. F.Viollaz et al., X ERLAC, CIGRE, 2003.

[9]. Protective Relaying Theory and Applications. W. A. Elmore. 1994.

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar

ANEXO I

ESCENARIO DE DEMANDA MÁXIMA, JUNIO 2013.

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo I. Página N° 2

PowerFactory 14.1.2

CDEC-SIC

Sistema Atacama Diagrama de Flujos de Carga

Project:

Graphic: _01-Atacama

Date: 9/9/2013

Annex:

Tap Castilla111 .7221 .016

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-66.555

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CER12.1460 .920

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C13.0280 .944

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El Salvador 110 kV

107 .3630 .976

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-44.965

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109 .1890 .993

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CER equivalente SVC PLUS

CER filter(1)

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0 .001 .421 .421 .420 .06

0.00-5.015.01

0.03

1

0.00-4.994.99

0.03

2

14.181 .9714.310 .000 .07

4

0

R.

Co

pia

po

11

0 K

V

19.121 .8819.21

0 .10

0 .050 .010 .05

0 .00

5.5

40

.83

5.6

07

1.8

00

.03

-5.5

0-0

.43

5.5

27

1.8

00

.24

5

R. Vallenar 13.8 KV

10

.50

0.8

51

0.5

4

0.4

6

1.8

6-3

.21

3.7

16

.40

0.0

2

20

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G~

G~

0 .00-0 .010 .010 .020 .00

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

0

1 .740 .181 .753 .120 .01

-1.7

4-0

.31

1.7

73

.12

0.0

1

I. Kozan 110 kV

1.7

40

.31

1.7

7

0.0

1

R. Caldera 110 KV

4 .290 .424 .31

0 .02

I. Plantas 110 kV0 .00-0 .000 .00

0 .00

R. Plantas 110 kV

8 .781 .588 .92

0 .05

R. Hernán Fuentes 110 kV

7 .090 .707 .12

0 .04

I. T

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mari

lla 1

10 k

V

8 .391 .518 .53

0 .04

R.

Tie

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10

kV

5 .851 .055 .95

0 .03

0.0

5-0

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0.1

00

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0.0

0

-0 .05-0 .010 .050 .170 .00

11.49-1 .2111.5520.320 .06

-11.461 .0511.5120.320 .06

8 .80-3 .679 .5316.790 .05

-8 .783 .419 .4216.790 .05

R. Los Loros 110 kV

4 .410 .794 .48

0 .02

4 .43-0 .244 .437 .920 .02

25

.03

-1.1

02

5.0

54

3.7

40

.13

-24.790 .9324.8043.740 .13

-1.8

51

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2.5

46

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-0 .00-0 .000 .000 .000 .00

0 .00-0 .000 .000 .000 .00

3

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illos

11

0 k

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0 .00-0 .000 .00

0 .00

R.

Ce

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os

11

0 k

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11.632 .0911.81

0 .06

30.92-4 .2231.2154.470 .16

1 .620 .221 .63

0 .01

41.93-5 .5842.3048.500 .11

-42.198 .0542.9548.500 .22

6

0

40.91-5 .4541.2746.610 .10

-40.547 .7241.2746.610 .21

6

0

13.390 .2713.3911.490 .07

R. Castilla 110kV

0 .00-0 .000 .00

0 .00

I. Castilla+SSAA Castilla 110kV

0 .000 .000 .00

0 .00

1

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G~

G~

0 .000 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

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0 .000 .000 .000 .000 .00

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3

-0 .00-9 .319 .31

0 .44

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CER Maite..

0 .0020.1420.14

0 .96

I. El Salvador 110 KV

58.2618.9461.26

0 .33

21.642 .6021.8030.940 .11

-21.09-3 .6321.4130.940 .12

30.194 .1230.47

0 .16

-115 .26-0 .90

115 .2757.840 .30

118 .83-3 .78

118 .8957.840 .30

-108 .32-2 .52

108 .3532.310 .28

111 .49-2 .26

111 .5132.310 .28

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-0 .00-0 .000 .000 .000 .00

0 .000 .000 .000 .000 .00

1

-15.79-2 .1915.9533.840 .08

16.001 .2516.0533.840 .08

-16.01-2 .1616.1620.060 .08

16.221 .2216.2720.060 .08

I. Los Colorados 110 KV

4 .552 .515 .20

0 .03

4.5

62

.09

5.0

21

0.7

20

.03

-4 .55-2 .515 .2010.720 .03

1

0 .0111.1411.1429.420 .03

-0 .00-10.8310.8329.420 .51

9

6 .34-1 .796 .5816.220 .03

-6 .321 .836 .5816.220 .03

I. Planta de Óxidos 110 kV

2.4

60

.63

2.5

4

0.0

1

I. Las Luces 110 kV

4.8

01

.22

4.9

5

0.0

3

R. Termop

0 .160 .030 .16

0 .00

G~

149 .004 .14

149 .0683.356 .43

SS/AA T. Amarilla

-140 .2115.53141 .0684.260 .35

140 .703 .77

140 .7584.266 .07

1

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0

1 36 .28-11.63136 .7840.470 .34

-135 .5911.25136 .0640.470 .34

136 .28-11.63136 .7840.470 .34

-135 .5911.25136 .0640.470 .34

0.2

10

.16

0.2

70

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0.0

0

-0.2

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0.2

10

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0.0

1

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0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

0

0

0.2

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70

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0.2

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-0 .000 .000 .000 .000 .00

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0

0 .00-0 .040 .040 .020 .00

-0 .000 .000 .000 .020 .00

I. Centenario 110 kV

6 .58-0 .576 .60

0 .03

G~

G~

G~

G~

0000

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

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G~

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0 .070 .340 .350 .540 .00

G~

0 .000 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

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G~

149 .0019.24150 .2484.016 .72

-140 .210 .67

140 .2182.120 .35

140 .7018.41141 .9082.126 .35

1

-108 .32-2 .52

108 .3532.310 .28

111 .49-2 .26

111 .5132.310 .28

0 .420 .300 .510 .260 .00

-0.4

2-0

.33

0.5

30

.26

0.0

0

I. Agrosuper

0.4

20

.09

0.4

3

0.0

1

1 5.85-1 .1115.8933.880 .08

I. Magnetita 110 kV

15.67-0 .7815.69

0 .08

88.8517.1490.4846.190 .23

-88.66-18.0090.4746.190 .24

5.0

40

.79

5.1

06

5.3

40

.03

-5.0

0-0

.42

5.0

26

5.3

40

.22

5

R. Alto del Carmen 110 KV

1.8

5-1

.74

2.5

4

0.0

1

0.2

10

.04

0.2

10

.00

0.0

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1 2.55-2 .0112.7134.130 .06

-12

.44

1.6

01

2.5

43

4.1

30

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0.0

0-0

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0.0

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0

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0.0

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.00

0.0

0

-0.0

00

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0.0

00

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0.0

0

2

R. El Salado + Chañaral 110 KV

6 .32-1 .836 .58

0 .03

R. Inca de Oro + D.Amagro 110 KV

0 .940 .240 .97

0 .03

G~

G~

0 .00-0 .000 .000 .000 .00

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3

0 .00-0 .000 .000 .000 .00

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-140 .2115.53141 .0684.260 .35

140 .703 .77

140 .7584.266 .07

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G~

149.003.88

149.0584.456.43

-140 .2115.53141 .0684.260 .35

140 .703 .77

140 .7584.266 .07

1

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149.003.88

149.0584.456.43

108 .7414.35109 .6855.590 .29

I. S

S/A

A S

an

Lore

nz

o

54

.37

6.3

15

4.7

44

7.1

50

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54

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6.3

15

4.7

44

7.1

50

.14

1 3

0

I. Refugio 110 kV

13.164 .0613.77

0 .07

I. SS/AA Maitencillo

0 .050 .010 .05

0 .00

I. SS/AA C. Pinto

0 .000 .000 .00

0 .00

I. SS/AA D. Almagro

0 .060 .000 .06

0 .00

111

0 .940 .250 .9710.090 .01

-0 .94-0 .240 .9710.090 .03

55.4010.2956.3577.570 .15

-55.26-9 .9356.1577.570 .29

3

0

I. S

S/A

A C

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one

s

0 .03-0 .050 .06

0 .00

-19.02-7 .6720.5027.570 .11

19

.27

7.2

82

0.6

02

7.5

70

.11

I. Potrerillos 110 KV

3 .260 .443 .29

0 .02

1

I. M

an

to V

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lma

gro

110

KV

21.346 .8622.42

0 .12

144 .14-12.00144 .6342.800 .36

-143 .4112.20143 .9242.800 .36

144 .14-12.00144 .6342.800 .36

-143 .4112.20143 .9242.800 .36

R. Taltal (Elecda) 110 KV

2 .950 .302 .97

0 .02

41.883 .7442.050 .000 .22

59.86-8 .5660.470 .000 .16

17

.74

-2.1

01

7.8

60

.00

0.0

5

1

0.0

20

.00

0.0

20

.00

0.0

0

-108 .9514.97109 .9756.470 .29

110 .77-17.71112 .1856.470 .29

-0.0

02

3.9

82

3.9

8

0.0

6

1

-18.15-7 .6419.6926.470 .11

18

.39

7.2

21

9.7

52

6.4

70

.10

8 8.6618.0090.47

0 .24

I. L

a C

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a 2

20

KV

18.503 .2418.78

0 .05

1

18.55-7 .0619.858 .630 .05

-18

.50

-3.2

41

8.7

88

.63

0.0

5

I. Paipote 110 KV

26.115 .4026.66

0 .14

55.409 .4656.2176.560 .15

-0.0

00

.00

0.0

07

6.5

60

.00

3

0

R.

Pa

pos

o 2

20

kV

0.0

50

.01

0.0

5

0.0

0

0 .007 .437 .430 .000 .02

-0 .009 .689 .6848.530 .41

54

.36

8.0

45

4.9

54

8.5

30

.14

-54.27-13.8256.0048.530 .29

13 0

-129 .3224.77131 .6867.250 .34

132 .02-24.38134 .2567.250 .35

70.1017.3272.210 .000 .38

16.77-4 .9917.500 .000 .09

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC

Sistema Coquimbo Diagrama de Flujos de Carga

Project:

Graphic: _02-Coquimbo

Date: 9/9/2013

Annex:

Tap Romeral110 .5681 .005

-37.752

S/E Incahuasi

111 .7231 .016

-37.340

S/E Pajonales

112 .1621 .020

-37.106

S/E Dos Amigos

112 .4591 .022

-36.912

S/E Algarrobo

112 .8261 .026

-36.383

Vicuña

63

.96

80

.96

9-4

9.4

22

63

.93

70

.96

9-4

9.2

99

3 5.1381 .0186 .127

224 .0651 .018

-23.873

San Juan 66 kV

67

.46

21

.02

2-4

0.0

31

1 07 .1390 .974

-15.295

21

5.4

66

0.9

79

-39

.46

2

J2223 .2101 .015-6 .503

C113.2331 .002

-60.790

Z0 .6961 .009

129 .679

E223.2271 .010

-80.338

E123.2361 .010

-80.337

B266.7551 .011

-50.328

B166.7771 .012

-50.335

J222 .8411 .013

-20.324

E2

3.3

97

1.0

17

7.7

42

J222 .8411 .013

-20.324

J225 .0551 .023-4 .830

J1223 .210

M114.1981 .029

-68.425

M214.3031 .036

-68.717

Marquesa 66 kV

66

.73

91

.01

1-4

2.0

30

Mang. Atacama 66 kV

67

.23

71

.01

9-4

0.1

82

Guayacán 66 kV

67

.23

61

.01

9-4

0.1

82

J209 .9070 .954

-12.769

67

.81

01

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7-3

9.7

07

6 6.8331 .013

-47.842

13

.20

91

.00

1-8

4.9

94

Q

11.3621 .033

-63.051

H

111 .3821 .013

-38.705

E23.2891 .013

-38.705

E23.1561 .007

-44.620

J

221 .5001 .007

-14.609

E

23

.51

01

.02

2-1

8.3

16

B0.1227 .214

222 .8411 .013

-20.324

J2222 .8411 .013

-20.324

B0.0227 .2141 .033

-33.051

221 .4951 .007

-14.608

J2221 .4951 .007

-14.608

H113 .0111 .027

-37.241

H110 .3441 .003

-47.471

22.4890 .978

-48.662

H

11

2.4

40

1.0

22

-18

.31

6

Reg 1111 .4241 .013

-37.196

Reg 2109 .6250 .997

-45.444

H111 .3821 .013

-38.705

H108 .2310 .984

-42.447

H109 .9160 .999

-19.874

R112 .2861 .021

-11.538

H

10

9.2

77

0.9

93

-13

.64

8

H

110 .8411 .008

-37.529

C2

24.2591 .055

-71.965

C0 .0000 .0000 .000

C2

13

.40

00

.97

1-4

1.6

65

H

112 .3971 .022

-11.034

C1

13

.39

90

.97

1-4

1.7

39

CER 2

12.8380 .973

-61.676

CER 1

12.8380 .973

-61.676

B

66.8141 .012

-47.306

C13.5930 .985

-42.787

B68.0121 .030

-47.128

J2221 .6411 .007-6 .563

H1108 .4420 .986

-14.332

J2229 .1001 .041

-32.449

H2113 .1461 .029

-35.666

J1

227 .687

13.2011 .000

-50.103

65

.96

30

.99

9-2

0.0

84

J2

227 .6871 .035

-31.595

J1229 .100

13.5820 .984

-69.941

113 .8101 .035

-36.878

113 .1461 .029

-35.666

H2113 .8101 .035

-36.878

110 .1621 .001

-19.258

J1221 .641

-7.230.417.249.130.047.25-0.957.319.130.04

4.570.254.586.550.02-4.53-2.615.236.550.03

6.370.296.387.980.03-6.35-1.096.447.980.03

8.97-3.419.6011.780.05-8.912.489.2511.780.05

9.19-4.2810.1421.210.05-9.123.339.7121.210.05

6.75-0.246.758.320.03-6.73-0.346.748.320.03

0.0

2-4

.91

4.9

16

.96

0.0

3

-0.000.000.006.960.00

10.4

1-6

.65

12.3

52

3.6

50

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04

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11.2

62

3.6

50

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1.2

0-0

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1.2

66

.91

0.0

1

-0.110.180.213.600.00

-0.0

0-0

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0.0

01

.54

0.0

0

9.9

4-0

.54

9.9

65

2.4

60

.09

-9.5

00

.47

9.5

15

2.4

60

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12

.45

-7.8

21

4.7

04

9.8

10

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-11.6

78

.17

14.2

44

9.8

10

.12

18.3

4-7

.01

19.6

36

5.8

10

.17

-17.8

57

.42

19.3

36

5.8

10

.17

-19.6

30

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19.6

34

0.5

20

.10

22.810.02

22.8145.870.12

I. L

a M

esa

22

0 k

V

100

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32.8

71

05

.26

0

.28

V

V

0.00-0.000.000.000.00

-0.000.000.000.000.00

0.00-0.000.000.000.00

-0.000.000.000.000.00

0.00-0.000.000.000.00

-0.000.000.000.000.00

0

0.00-80.3380.33

0.20

1

-0.0

0-2

.61

2.6

1

0.0

2

1

R. San Juan 66 kV

4.6

91

.36

4.8

8

0.0

4

10.0

92

.84

10.4

83

2.1

90

.09

-10.0

6-2

.85

10.4

63

2.1

90

.09

0.00-4.744.74

0.03

2

Totoral

0.0

0-5

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5.1

1

0.0

4

2

1

-100

.00

-32.8

71

05

.26

141

.03

0.2

8

101.8828.60105.82141.030.27

I. S

S/A

A L

as P

alm

as

0 .02-0 .040 .04

0 .00

66.38-40.5377.770 .000 .20

41

.13

-14

.08

43

.47

0.0

00

.11

1 5.8712.3720.120 .000 .05

45.071.52

45.1019.650.11

0.00-0.030.030.080.00

-0.000.030.030.080.00

0

0

0

0.090.450.460.910.00

-0.09-0.450.460.910.00

0

0.090.430.440.200.00

0.09-0.470.482.080.00

0

0.15-0.130.200.090.00

164.6025.08166.5023.990.43

-163.99-26.00166.0423.990.43

54.606.0054.9373.150.14

-0.000.000.00

73.150.00

3

0

I. MCDA

44.814.45

45.03

1.84

-12.32-31.4733.7915.000.09

12.3727.9430.5515.000.08

-0.00-0.000.008.750.00

0.02-4.544.548.750.02

R. Cabildo 110 kV

16.744.8317.42

0.09

-112.01-3.73

112.0768.010.57

112.5413.97113.4149.000.29

57.918.01

58.4764.880.15

-57.80-2.7657.8764.880.29

3

0

-14.82-1.3514.8918.590.08

14.900.9714.9318.590.08

75.989.1276.5241.700.20

R. Guayacan 66 kV

10.0

62

.92

10.4

8

0.0

9

0.0

0-0

.07

0.0

70

.22

0.0

0

-0.0

0-0

.00

0.0

00

.22

0.0

0

14.8

41

.62

14.9

34

5.5

90

.13

-14.7

8-1

.59

14.8

64

5.5

90

.13

0.00-24.5824.58

0.07

3

75.989.12

76.5241.700.20

I. Los Piuquenes 220 kV

147.4471.21163.74

0.45

-1.7

1-2

.44

2.9

71

0.2

80

.03

1.731.562.33

10.280.02

-0.000.000.0076.840.0057.31

6.8657.7276.840.15

0

3

G~

G~

G~

9.3

90

.03

9.3

95

3.4

40

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-9.3

60

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9.4

15

3.4

40

.41

154.68-41.58160.1771.130.42

-151.2046.62158.2371.130.41

0.0

0-1

6.6

91

6.6

9

0.4

02

154.68-41.58160.1771.130.42

-151.2046.62158.2371.130.41

G~

176.88-28.38179.1478.940.46

-170.7439.26175.2078.940.46

176.88-28.38179.1478.940.46

-170.7439.26175.2078.940.46

-14.40-14.3620.349.980.05

14.45-1.5814.549.980.04

-14.40-14.3620.349.980.05

14.45-1.5814.549.980.04

G~

0

0.00-0.000.000.000.00

-0.000.000.000.000.00

R. El Espino 66 kV

0.010.000.01

0.00

I. SS/AA Los Espinos

0.130.040.14

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I. SS/AA El Peñón

0.00-0.000.00

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0 .00-0 .030 .030 .000 .00

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164.6025.08166.5023.990.43

-163.99-26.00166.0423.990.43

135 .75-14.30136 .500 .000 .35

41

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0.110.030.11

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53.5013.8655.260 .000 .14

135 .75-14.30136 .500 .000 .35

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15.002 .0815.150 .000 .04

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20

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0.0

00

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5 0.9414.3052.910 .000 .13

9.813.7210.49

0.05

R. San Joaquin 110 kV

31.376.9332.12

0.16

-31.37-6.9332.1264.360.16

31.556.9032.2964.360.16

0.00-0.000.00

0.00

14.901.0614.9430.700.08

11

10.44-4.5211.3835.400.06

-8

R. Quereo 110 kV

3.6

50

.80

3.7

4

0.0

2

-12.32-31.4733.7915.000.09

12.3727.9430.5515.000.08

-36.540.08

36.5418.950.09

36.77-12.1038.7118.950.10

-36.540.0836.5418.950.09

36.77-12.1038.7118.950.10

R.

El

Pe

ño

n

11

0 k

V

9.191.559.32

0.05

151.07-46.38158.0369.750.41

-144.3254.09154.1268.830.39

-144.3154.05154.1068.820.39

151.16-46.69158.2169.830.41

30.82-7.0831.6264.280.16

-29.506.8130.2864.280.16

50.35-1.8650.3899.840.26

-49.202.6449.2799.840.26

-22.81-0.0222.8146.560.12

22.840.22

22.8446.560.12 1

2

99

0.130.010.13

0.00

19.086.2620.08

0.10

R.

Sa

lam

an

ca

110

kV

9.700.879.74

0.05

I. SSAA Quillota

0.020.000.02

0.00

R. Las Compañias 110 kV

7.582.307.92

0.04

0.00-2.612.61

0.01

2

29.48-2.2729.5779.100.16

-29.3

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9

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Los Molles U2

-0.00-11.3511.35

0.51

1

R. Vicuña 110 kV

10.190.14

10.19

0.05

I. Punitaqui

4.8

90

.46

4.9

1

0.2

1

R. Punitaqui

4.4

71

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4.6

0

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rba

la 6

6 k

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1.180.281.21

0.01

1.20-0.391.268.420.01

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68

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10

9.4

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.55

9.7

73

2.8

70

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-9.1

82

.36

9.4

83

2.8

70

.08

R. Marquesa 66 kV

9.1

82

.75

9.5

9

0.0

8

42.71-2.5842.7873.510.22

-42.6

17

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43.3

47

3.5

10

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9.192.899.63

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11

0 k

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1.060.251.09

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16.95-0.6416.9632.360.09

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0.51

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0.09

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0.09

0.02-12.9812.986.450.03

0.02-12.9812.986.450.03

SS/AA Los..

0.160.000.16

0.01

7.650.927.70

0.07

-6.84-3.597.7239.180.07

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7.004.288.2182.060.35

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0

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I. Ovalle 66 kV

3.8

60

.91

3.9

7

0.0

3

R.

Marb

ella

110

kV

2.591.032.79

0.01

I. Andacollo 66 kV

3.150.233.16

0.03

I. Algarrobo 110 kV

0.150.080.17

0.00

I. Dos Amigos 110 kV

2.170.372.20

0.01

R. Incahuasi 110 kV

1.780.831.96

0.01

I. Incahuasi 110 kV

0.000.000.00

0.00

17

.74

-2.1

01

7.8

60

.00

0.0

5

16

.77

-4.9

91

7.5

00

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0.0

9

R. Ovalle 66 kV

26.3

26

.23

27.0

5

0.2

3

R.

Illa

pe

l 66

kV

6.001.406.16

0.03

0.000.000.000.000.00

0.0

00

.00

0.0

00

.00

0.0

0-2

30.945.33

31.3943.460.08

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7-3

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31.0

34

3.4

60

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7

9.9

61

.75

10.1

22

1.4

70

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-3.7210.4921.470.05

R. Casas Viejas 110 kV

2.5

41

.01

2.7

4

0.0

1

-16.950.64

16.9635.340.09

17.0

9-1

.10

17.1

23

5.3

40

.09

R. Andacollo 66 kV

2.240.172.25

0.02

17.2

50

.61

17.2

73

5.3

10

.09

-16.90-1.8817.0135.310.09

70.031 .3470.040 .000 .36

I. Pajonales (ESO) 110 kV

0.360.050.36

0.00

80.5658.3699.4865.830.26

-80.44-48.9694.1765.830.48

8

3

0 .230 .360 .430 .000 .00

0.0

0-0

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0.0

00

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0.0

0

80.0857.6498.6665.290.26

-79.91-48.2393.3365.290.48

8

3

I. El Romeral (CMP) 110 kV

11.762.21

11.96

0.06

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC

Sistema Colbún Diagrama de Flujos de Carga

Project:

Graphic: _05-Colbun

Date: 9/9/2013

Annex:

J1

223 .549

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223 .5491 .01616.158

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13

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6 .4810 .98213.217

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64.7430 .98110.446

13.8001 .000-0 .063

114 .2571 .039-1 .762

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223 .5831 .016-1 .492

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223 .5831 .016-1 .492

226 .6861 .030-2 .714

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14.1451 .02514.156

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229 .6356.34236 .440 .000 .61

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222 .6455.72229 .50

1 .20

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20.002 .6220.1730.750 .84

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20.002 .6220.1730.750 .84

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19.942 .0120.0436.280 .10

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2 .00-0 .002 .0031.750 .18

-1 .920 .481 .9829.250 .02

2 .00-0 .002 .0029.250 .18

0

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1 .92-0 .481 .986 .940 .02

R. Colbun 220 kV

0 .820 .130 .83

0 .00

-9 .851 .229 .9340.520 .03

9 .88-0 .589 .9040.520 .09

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0 .060 .370 .370 .240 .00

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-93.92-55.75109 .2215.600 .2893.9255.70109 .2015.600 .28

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1 11

74.2122.7077.6147.800 .20

-74.21-17.9176.3447.800 .40

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115 .23-38.35121 .4417.450 .31

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115 .23-38.35121 .4417.450 .31

R. E.E. Pirque 110 kV

3 .380 .553 .43

0 .02

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0 .600 .010 .60

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0 .600 .010 .60

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37

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45.005 .9545.3985.181 .84

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45.005 .9545.3985.321 .84

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218 .7191.770 .55

219 .4019.96220 .3191.778 .99

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220 .0019.97220 .9088.369 .02

1 .90-20.0020.090 .000 .05

111 .6733.51116 .5933.400 .30

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111 .6733.51116 .5933.400 .30

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148 .4337.80153 .160 .000 .80

37.1111.3538.800 .000 .10

20.82101 .87103 .980 .000 .26

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45.005 .9645.3985.331 .84

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89.652 .7389.690 .000 .23

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC

Sistema Troncal Centro Diagrama de Flujos de Carga

Project:

Graphic: _06-Troncal Qui-

Date: 9/9/2013

Annex:

incluye 3er.trafo

1 x 76 MVA

Ver Equiv. de t rafos de 4 enrrollados

en Grid: 06-Troncal-Rapel

Lo Aguirre221 .1971 .005-3 .041

Tap Lo Aguirre

491 .4520 .9831 .753

228 .3871 .0387 .081

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EN

T


PowerFactory 14.1.2

CDEC-SIC

Sistema Charrúa Diagrama de Flujos de Carga

Project:

Graphic: _08-Charrúa

Date: 9/9/2013

Annex:

incluye 3er.trafo

221 .7901 .00827.540

6 .1231 .021-1 .194

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70.0025.9874.6660.953 .13

184 .6324.40186 .240 .000 .48

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1 .340 .411 .40

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I. Cholguán 66 kV

12.692 .6412.96

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25.00-4 .9725.4977.241 .09

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170 .0027.83172 .2642.857 .28

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200 .0029.21202 .1250.288 .54

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0 .000 .000 .00

0 .00

1

2 .350 .582 .422 .470 .01

-2 .35-0 .572 .412 .470 .10

0

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Pacífico 3

G~

Pacífico 2

G~

Pacífico 1

0 .000 .000 .00

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48

1 .410 .211 .421 .930 .00-1 .41-0 .211 .421 .930 .06

0

1 .350 .491 .442 .580 .00-1 .35-0 .481 .432 .580 .06

0

2 .76-5 .936 .543 .270 .02

-2 .76-0 .702 .853 .270 .01

G~

Santa María

370 .0094.59381 .9081.6012.25

-5 .995 .107 .873 .460 .02

59

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15

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61

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27

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0.1

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5 .99-0 .015 .9926.960 .14

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2

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Renaico

6 .000 .356 .0185.860 .53

G~

1 .00-0 .001 .0010.670 .04

-0 .980 .020 .9838.230 .02

1 .00-0 .001 .0038.230 .04

0

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0 .98-0 .020 .988 .310 .02

3

237 .0634.80239 .600 .000 .63

12

.01

3.4

31

2.4

90

.00

0.0

3

R. Cabrero 66 kV

14.422 .1714.58

0 .12

R. Charrúa 66 kV

3 .840 .863 .94

0 .03

G~

-0 .00-2 .512 .51

0 .02

12

-369 .27-48.81372 .4877.940 .96

370 .0094.59381 .9077.9412.25

3

-183 .37-24.23184 .9735.620 .48

184 .6324.40186 .2435.620 .48

-183 .37-24.23184 .9735.620 .48

184 .6324.40186 .2435.620 .48

8 .511 .968 .7321.010 .08

-8 .47-2 .018 .7121.010 .08

I. Duqueco 66 kV

4 .211 .004 .33

0 .04

0 .36-1 .221 .283 .700 .01

-0 .36-0 .010 .363 .700 .00

I. El Avellano

5 .682 .196 .09

0 .05

R. El Avellano

5 .542 .145 .94

0 .05

11.254 .3412.0630.250 .11

-11.22-4 .3412.0330.250 .11

29.008 .8330.3268.890 .26

-28.85-8 .6230.1168.890 .26

16.412 .9216.67

0 .72

G~

8 .00-0 .008 .0059.260 .34

8 .423 .108 .9729.170 .08

-8 .41-2 .928 .9029.170 .38

0

8 .423 .108 .9722.650 .08

22.155 .6322.8683.540 .19

-21.87-5 .3522.5283.540 .19

I. Fibranova

0 .000 .000 .00

0 .00

0 .00-0 .160 .160 .320 .00

-0 .000 .000 .000 .320 .00

-3 .41-0 .043 .416 .820 .03

3 .41-0 .153 .426 .820 .03

0 .00-0 .050 .050 .190 .00

-0 .00-0 .000 .000 .190 .00

4 .320 .334 .3415.180 .04

-4 .22-0 .834 .3015.180 .04

R. Laja 66 kV

4 .220 .894 .31

0 .04

0 .00-0 .140 .140 .500 .00

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0 .000 .000 .000 .000 .00

0 .000 .000 .000 .000 .00

2

10

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3

0 .090 .520 .530 .710 .00

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3

0 .020 .020 .030 .030 .00

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0 .020 .140 .140 .100 .00

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2

G~

0 .070 .400 .410 .280 .00

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2

0 .07-1 .311 .310 .250 .00

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G~

4

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0

6

43.38-4 .5743.6257.960 .16

-43.27-2 .4043.3457.960 .36

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0.9

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60

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2

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17.554 .4518.1043.600 .16

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9 .172 .019 .3923.120 .08

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9 .112 .059 .3323.250 .08

-8 .99-2 .119 .2423.250 .08

R.

Ch

arr

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15

4 k

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0 .650 .030 .65

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R. Cholguán 220 kV

7 .460 .357 .47

0 .02

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80.0027.4584.5890.943 .44

G~

80.0027.3184.5390.893 .43

0 .330 .000 .33

0 .00

-79.84-18.5481.9766.760 .21

80.0027.4584.5866.763 .44

1

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80.0027.3184.5366.723 .43

1

140 .6338.46145 .7939.820 .37

-139 .70-37.44144 .6339.820 .38

-122 .94-32.67127 .2035.020 .33

123 .9732.06128 .0535.020 .33

23.78-0 .0523.7821.970 .09

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8 .992 .119 .2419.080 .08

-8 .98-1 .979 .1919.080 .08

10

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G~

44

0 .090 .290 .300 .290 .00

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-24.916 .9025.8574.310 .23

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0

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80.9224.4584.5322.890 .22

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30.009 .0231.3382.441 .31

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30.009 .0231.3382.441 .31

-29.90-6 .4630.5973.080 .08

30.009 .0231.3373.081 .31

0

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30.009 .0231.3373.091 .31

0

R. Rucue 220 kV0 .420 .030 .43

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1 .080 .091 .08

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os

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3 .28-0 .003 .2884.544 .69

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8 .98-0 .569 .0077.900 .22

3

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0 .160 .010 .16

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-686 .95-16.70687 .1596.690 .78

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170 .0027.83172 .2641.437 .28

3

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200 .0029.21202 .1248.618 .54

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6 k

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2 .570 .222 .58

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3 .410 .203 .426 .830 .03

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12.00-0 .0012.0055.810 .51

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12.001 .4012.0856.190 .52

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I. Cholguan 220 kV

1 .500 .281 .52

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15

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0 .000 .000 .00

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0 .360 .010 .36

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2 .18-0 .062 .18

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0 .000 .000 .00

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6 .000 .346 .0160.090 .25

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0 .000 .000 .00

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29.466 .1630.0941.070 .12

-29.37-4 .4229.7041.070 .26

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66 k

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1 .940 .752 .08

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15.656 .0516.78

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13.782 .9214.09

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53.6721.3357.76

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0 .000 .000 .00

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8 .092 .158 .37

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0 .000 .000 .000 .000 .00

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Los

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1

23.215 .5023.85

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8 .00-0 .478 .0120.680 .34

6 .02-1 .306 .1630.390 .05

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83.2526.9187.4975.530 .32

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-29.89-10.1831.5771.260 .08

30.0013.0332.7171.261 .34

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30.0013.0332.7174.341 .34

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G~

17.006 .3618.1562.590 .75

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29.8910.1831.579 .580 .08

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17.006 .3618.1559.910 .75

5

45.7316.5148.6214.940 .12

-45.63-19.6649.6914.940 .13

88

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51.5719.7455.22100 .940 .21

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121 .7521.23123 .5823.370 .32

175 .5114.54176 .1133.240 .44

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291 .6456.170 .76

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200 .0046.72205 .3885.588 .86

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200 .0046.60205 .3685.578 .86

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200 .0046.72205 .3873.018 .86

2

236 .1928.76237 .9344.920 .61

-233 .06-9 .88

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236 .1928.76237 .9344.920 .61

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147 .8727.11150 .3328.220 .38

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150 .0036.29154 .3392.346 .76

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150 .0036.29154 .3396.456 .76

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150 .0036.29154 .3396.456 .76

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99.0028.60103 .0597.904 .35

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99.0028.60103 .0597.904 .35

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99.0028.60103 .0597.904 .35

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99.0028.60103 .0586.024 .35

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99.0028.60103 .0586.024 .35

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99.0028.60103 .0586.024 .35

3

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EN

T


PowerFactory 14.1.2

CDEC-SIC

Sistema Araucanía Diagrama de Flujos de Carga

Project:

Graphic: _10-Araucanía

Date: 9/9/2013

Annex:

227

.36

81

.03

32

9.1

00J

22

24

.37

9

J1

224

.37

91

.02

02

6.4

99

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223.9861.01818.959

J2223 .986

221.4921.00724.985

H

112.1341.01913.238

H

111.8161.01713.020

X3.2050.9711.532

X0.4111.028

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0.4

36

1.0

50

8.3

50

R

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22.2

89

0.9

69

6.9

99

H

111.1691.01112.392

H

105.5370.9592.140

E

22.9

99

0.9

58

-28.7

24

22.3370.971

-28.468

B1

23.1

84

1.0

08

-19.8

68

HR111.7901.0166.101

H

105

.58

90

.96

02

.48

2H108.1900.98410.199

B1

66.4151.006

10.528

13.8001.00026.479

228.3911.03821.687

J2223.986

1.01818.959

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23.3261.014

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23.7

46

1.0

32

14.5

46

B1

18.0761.08248.816

B266.0811.00116.175

G2

13.8001.00027.718

G1

13.8001.00027.718

HI

114.1661.03815.536

225.2091.02420.780

J1

225.2091.02420.780

J1223.986

13.2

24

0.9

58

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87

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93

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0.4101.02416.629

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0.4101.02416.629

E23.5511.024

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H

113

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91

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21

4.5

46

226

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01

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82

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226

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01

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67.7361.02616.630

J1

224

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8

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224

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81

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22

2.6

18

B466.3181.00516.727

66.7611.01217.857

B165.3620.99017.352

220

.75

71

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32

5.2

49

220

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71

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32

5.2

49

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220

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71

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32

5.2

49

Central Valdivia

226.5861.03021.178

B1

11.8221.028-9.795

Gen Valdivia15.3001.02025.040

B2

11.8221.028-9.795

B

68.2421.03415.615

J

224

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01

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8.4

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224

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31

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12

2.5

73

66.7801.01217.905

B1

66.7801.01217.905

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37

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41

6.9

90

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5.5

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30

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9.773.5610.405.300.03

-9.7

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97

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78.6015.8480.1820.360.21

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R. Colaco 66 kV

8.430.768.46

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R.

Em

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10

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10.930.58

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R. Calbuc..

5.620.305.63

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R. Quellon 23 kV

10.311.5310.42

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2.9

96

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1.93-0.331.95

13.300.01

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13.300.05

-1

R. Castro 110 kV

7.161.027.23

0.04

R. Pid Pid 110 kV

9.802.0410.01

0.05

R. Chonchi 24 kV

8.1

71

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8.2

5

0.2

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R. Ancud 110 kV

8.0

70

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8.0

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20.7

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29.660.22

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49.535.430.13

49.58-2.8749.675.430.13

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22.6

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G~

G~

0.020.120.120.850.00-0.00-0.000.000.850.00

0

0.010.030.030.840.00-0.000.000.000.840.00

0

G~

0.010.030.030.840.00-0.000.000.000.840.00

0

-0.01-0.030.030.610.00

13 -0.01-0.030.030.610.00

13 -0.02-0.120.121.180.00

0

55.892.5055.9546.100.28

-55.6

4-2

.01

55.6

84

6.1

00

.28

-67.5

1-4

0.5

67

8.7

61

5.7

20

.21

-50.9

3-5

.64

51.2

42

6.0

20

.13

CCEE CER Puerto Montt

-0.00-82.0182.01

2.62

1SVS

CER Puerto Montt

-0.0038.6038.60

1.23

0.10-40.8440.8457.300.11

-0.0043.4243.4257.301.39

0

35.79-7.4636.5618.490.09

-35.51-7.8136.3618.490.09

R. Puerto Montt 23 kV

78.2317.9480.27

1.99

-35.11-18.3439.6242.130.98

7

22.635.5523.3039.810.06

-22.5

6-4

.13

22.9

33

9.8

10

.19

-2

78.6015.8480.1820.360.21

SS/AA Can..

0.220.000.22

0.01

SS/AA Can..

0.220.000.22

0.01

-22.57-0.8222.5839.300.20

10

-64.607.6665.0685.180.17

64.780.2064.7885.182.71

1

-64.607.6665.0685.180.17

64.780.2064.7885.182.71

1

G~

65.000.2065.0092.862.72

G~

65.000.2065.0092.862.72

-64.111.1964.1332.960.17

64.60-7.6665.0632.960.17

-64.111.1964.1332.960.17

64.60-7.6665.0632.960.17

I. C. Valdivia

0.000.000.00

0.00

G~

G~

0.000.000.000.000.00

-0.00-0.000.000.000.00

3

0.00-0.000.000.000.00

-0.00-0.000.000.000.00

3

0.020.110.110.370.00

-0.00-0.000.000.370.00

0

V

43.6

76

.03

44.0

86

0.1

70

.11

-43.55-2.2143.6060.170.38

9

39.2

45

.66

39.6

55

4.1

10

.10

-39.20-2.4239.2854.110.34

0

0

I. T

rap

én 1

10

kV

0.0

00

.00

0.0

0

0.0

0

G~

Trapen N4

G~

Trapen N3

G~

Trapen N2

G~

Trapen N1

0.0

00

.00

0.0

00

.00

0.0

0

-0.0

0-0

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0.0

00

.00

0.0

0

30

.00

0.0

00

.00

0.0

00

.00

-0.0

0-0

.00

0.0

00

.00

0.0

0

30

.00

-0.0

00

.00

0.0

00

.00

-0.0

0-0

.00

0.0

00

.00

0.0

0

30

.00

-0.0

00

.00

0.0

00

.00

-0.0

0-0

.00

0.0

00

.00

0.0

0

3

-52.5

91

1.2

65

3.7

82

7.7

30

.14

52.9

0-1

5.2

95

5.0

72

7.7

30

.14

0.0

0-0

.00

0.0

00

.00

0.0

0

-0.0

00

.00

0.0

00

.00

0.0

0

0

-67.5

1-4

0.5

67

8.7

61

5.7

20

.21

-29.08-2.7529.2150.650.25

1

0

-50.9

3-5

.64

51.2

42

6.0

20

.13

4.5

2-0

.09

4.5

20

.00

0.0

1

0 .000 .000 .000 .000 .00

237 .0634.80239 .600 .000 .63

742 .6366.05745 .560 .001 .95

42

.35

8.7

84

3.2

50

.00

0.1

1

-26.6

12

.88

26.7

61

4.4

30

.07

-34.966.47

35.5610.550.09

34.97-6.7135.6110.550.09

0.0

30

.00

0.0

3

0.0

0

G~

-0.000.000.000.000.00

0

14.8

6-2

.43

15.0

67

.65

0.0

4

-14.843.8415.3361.920.14

2

G~

Valdivia

35.00-4.3035.2640.301.33

G~

35.00-4.3035.2638.411.33

0

0.00-0.000.000.000.00

-0.000.000.000.000.00

0

-27.95-1.2527.9748.300.14

-2

10

30.67-0.8530.6852.990.08

-30.593.36

30.7752.990.27

10

43.685 .8744.070 .000 .38

29.990.41

29.9950.840.08

-29.911.4629.9450.840.26

0

DIg

SIL

EN

T


-----------------------------------------------------------------------------------------------------------------------------------

| Total System Summary | Study Case: Base SIC | Annex: / 1 |

-----------------------------------------------------------------------------------------------------------------------------------

| |

| No. of Substations 389 No. of Busbars 1810 No. of Terminals 10595 No. of Lines 1067 |

| No. of 2-w Trfs. 504 No. of 3-w Trfs. 123 No. of syn. Machines 146 No. of asyn.Machines 0 |

| No. of Loads 597 No. of Shunts 231 No. of SVS 6 |

| |

| Generation = 7001.37 MW 1333.66 Mvar 7127.26 MVA |

| External Infeed = 0.00 MW 0.00 Mvar 0.00 MVA |

| Load P(U) = 6599.57 MW 1398.78 Mvar 6746.17 MVA |

| Load P(Un) = 6599.57 MW 1398.78 Mvar 6746.17 MVA |

| Load P(Un-U) = -0.00 MW 0.00 Mvar |

| Motor Load = 0.00 MW 0.00 Mvar 0.00 MVA |

| Grid Losses = 401.80 MW 1034.63 Mvar |

| Line Charging = -2784.04 Mvar |

| Compensation ind. = 1157.30 Mvar |

| Compensation cap. = -2257.05 Mvar |

| |

| Installed Capacity = 8987.89 MW |

| Spinning Reserve = 1986.52 MW |

| |

| Total Power Factor: |

| Generation = 0.98 [-] |

| Load/Motor = 0.98 / 0.00 [-] |

|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------|


ANEXO II

ESCENARIO DE DEMANDA MÍNIMA, JUNIO 2013.

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo II. Página N° 2

PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

Tap Castilla111 .7391 .016

-12.593

cer_da0 .0000 .0000 .000

cer_c19.0001 .00018.945

Caserones235 .4431 .070-4 .831

13.8340 .995

-50.002

0.0

00

0.0

00

0.0

00

J2222 .7811 .013

-11.074

H

109 .7170 .997

-17.380

H109 .5320 .996

-17.620

Vallenar 13.8 kV

13

.44

90

.97

5-4

0.0

49

Q11.0511 .005

-46.412

H

108 .7340 .988

-17.600

H

108 .8950 .990

-17.434

H

10

8.7

93

0.9

89

-17

.49

0

H

109 .7850 .998

-16.947

H

110 .5091 .005

-16.412

H

109 .0810 .992

-18.080

H109 .8680 .999

-16.843

Vallenar 110..

11

3.4

58

1.0

31

-7.8

13

6 .1700 .979

-38.263

H109 .9110 .999

-17.187

11.8551 .031

-38.263

H112 .2001 .020-9 .355

CER12.9970 .985

-34.330

C13.1260 .951

-38.211

El Salvador 110 kV

108 .1830 .983

-25.293

110 .5091 .005

-16.412

112 .6211 .024-8 .263

J1222 .781

J1230 .968

H1112 .6211 .024-8 .263

J2230 .9681 .050-4 .251

114 .0041 .036-7 .507

H2114 .0041 .036-7 .507

13.3450 .9675 .511

B1

0.0

00

0.0

00

0.0

00

C2C1

J220 .3311 .002

-20.008

E223.2911 .013

-11.074

J

222 .7811 .013

-11.074

E1

23.2911 .013

-11.074

E

11.5171 .002

-20.008

P2

11.0940 .965

-53.774

P1

9 .6670 .841

-53.774

H111 .4661 .013

-23.772

15.9491 .013

-41.074

12.6750 .9535 .560

J

23

0.9

68

1.0

50

-4.2

51

H109 .3470 .994

-17.019

E1

24

.13

61

.04

9-3

4.2

77


11

3.6

10

1.0

33

-7.9

40

24

.13

61

.04

9-3

4.2

77

C2

15

.16

51

.01

1-5

0.1

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C1

15

.16

51

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1-5

0.1

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G211.1470 .969

-53.773

G111.1470 .969

-53.773

J221 .9861 .009

-11.502

J

22

1.4

68

1.0

07

-16

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4

1 3.3450 .9675 .511

13.3450 .9675 .511

C

14.0251 .016

-54.553

J220 .3311 .002

-20.008

J

221 .7081 .008

-16.021

C2

24

.25

90

.97

0-5

4.2

68

H107 .1540 .974

-19.833

Potrerillos 110 kV

110 .0251 .000

-24.868

H111 .3981 .013

-24.135

13

.25

30

.96

0-4

7.2

91

13

.25

30

.96

0-4

7.2

91

22

4.7

61

1.0

22

-20

.15

2

22

4.7

61

1.0

22

-20

.15

2

H2110 .5091 .005

-16.412

E

22.2360 .967

-24.304

H109 .2750 .993

-25.667

111 .4711 .013

-23.773

IB111 .4711 .013

-23.773

230 .6701 .049-2 .126

J1

230 .6701 .049-2 .126

-3 .92-0 .393 .947 .350 .02

6 .21-1 .556 .4011.300 .03

31.13-8 .6032.3067.040 .16

-21.5410.4023.9253.360 .12

-0.0

2-0

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0.0

29

.16

0.0

0

0 .05-2 .072 .070 .730 .01

-0 .052 .072 .070 .730 .01

43.633 .4343.7776.730 .23

-0.0

2-0

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0.0

29

.16

0.0

0

0 .05-26.1426.149 .160 .07

-0.0

52

6.1

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6.1

49

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0.0

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2 .11-1 .072 .363 .100 .01

-2 .11-0 .422 .153 .100 .01

22.025 .8022.7729.850 .12

-21.85-6 .4122.7729.850 .12

1 .64-1 .272 .072 .720 .01

-1 .64-0 .081 .642 .720 .01

20.625 .4121.3228.010 .11

-20.45-6 .1421.3528.010 .11

2 .57-0 .962 .754 .860 .01

9 .58-2 .109 .8117.040 .05

SVS

CER equivalente SVC PLUS

CER filter(1)

1

CER filter

-0 .00-100 .00100 .00

3 .04

1SVS

CER Cardones

-0 .00109 .28109 .28

3 .32

0 .049 .609 .609 .480 .02

I. Travesía 110 KV

4 .640 .794 .71

0 .02

I. J

orq

uera

22

0 K

V

0.4

40

.08

0.4

5

0.0

0

I. Caserones 220 KV

8 .441 .008 .50

0 .02

-0.4

4-0

.08

0.4

50

.00

0.0

0

0.0

0-0

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0.0

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0.0

0

-4 .05-0 .474 .082 .230 .01

-4 .39-0 .534 .422 .270 .01

4 .46-28.3728.728 .350 .07

4 .56-28.3628.728 .350 .07

0 .00-17.4617.4634.930 .81

0 .00-17.4617.4634.930 .81

0 .00-33.8633.86

1 .41

1

-0 .0019.3019.3038.780 .81

0 .00-17.4617.4638.780 .81

-0 .0019.3019.3038.780 .81

0 .00-17.4617.4638.780 .81

0 .045 .015 .015 .000 .01

0 .00-4 .734 .735 .000 .20

0.00-4.994.99

0.03

1

0.00-2.442.44

0.01

1

12.271 .7012.390 .000 .06

3

0

R.

Co

pia

po

11

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12.891 .2712.95

0 .07

2 .250 .222 .26

0 .01

3.8

40

.52

3.8

74

9.0

40

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-3.8

1-0

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3.8

24

9.0

40

.16

5

R. Vallenar 13.8 KV

7.2

80

.59

7.3

0

0.3

1

0.6

2-2

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2.1

83

.73

0.0

1

20

G~

G~

G~

0 .00-0 .010 .010 .020 .00

0 .000 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

0

7 .491 .227 .5913.530 .04

-7.4

8-1

.34

7.6

01

3.5

30

.04

I. Kozan 110 kV

7.4

81

.34

7.6

0

0.0

4

R. Caldera 110 KV

3 .920 .393 .94

0 .02

I. Plantas 110 kV0 .00-0 .000 .00

0 .00

R. Plantas 110 kV

8 .491 .538 .63

0 .05


5 .110 .505 .14

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lla 1

10 k

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9 .621 .739 .78

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kV

6 .511 .176 .61

0 .04

2.2

50

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2.2

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0.0

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-2 .25-0 .222 .264 .010 .01

11.34-1 .2111.4120.110 .06

-11.321 .0511.3720.110 .06

8 .51-1 .178 .5915.280 .05

-8 .490 .928 .5415.280 .05

R. Los Loros 110 kV

1 .370 .251 .39

0 .01

1 .37-0 .801 .592 .800 .01

32

.54

3.0

43

2.6

85

7.4

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-0.6

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0.8

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-0 .000 .000 .000 .000 .00

0 .00-0 .000 .000 .000 .00

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0 .00-0 .000 .00

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11

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9 .651 .739 .80

0 .05

24.43-4 .9824.9343.710 .13

1 .320 .181 .33

0 .01

43.13-5 .2243.4449.410 .11

-43.397 .7844.0849.410 .22

6

0

42.08-5 .0942.3847.480 .11

-41.707 .4642.3647.480 .21

6

0

14.790 .9314.8212.780 .08

R. Castilla 110kV

0 .00-0 .000 .00

0 .00


0 .000 .000 .00

0 .00

1

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G~

G~

-0 .00-0 .000 .000 .000 .00

0 .000 .000 .000 .000 .00

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0 .000 .000 .000 .000 .00

1

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

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-0 .00-10.6610.66

0 .47

1SVS

CER Maite..

0 .00-2 .452 .45

0 .11


59.7519.4262.82

0 .34

22.282 .6922.4431.590 .12

-21.71-3 .7222.0231.590 .12

26.053 .5626.29

0 .13

-115 .52-7 .90

115 .7957.930 .30

119 .073 .00

119 .1157.930 .30

-108 .47-9 .09

108 .8532.420 .28

111 .634 .10

111 .7032.420 .28

G~

0 .000 .000 .000 .000 .00

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13.740 .8513.7628.820 .07

-13.78-1 .8513.9017.090 .07

13.930 .8213.9517.090 .07


7 .113 .928 .12

0 .04

7.1

33

.51

7.9

51

6.7

10

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1

0 .02-12.7212.7233.310 .03

-0 .0013.1213.1233.310 .58

9

6 .23-1 .766 .4715.810 .03

-6 .211 .806 .4715.810 .03


2.2

20

.57

2.2

9

0.0

1

I. Las Luces 110 kV

4.5

91

.17

4.7

4

0.0

2

R. Termop

0 .200 .030 .20

0 .00

G~

149 .00-4 .26

149 .0683.366 .45

SS/AA T. Amarilla

-140 .2024.05142 .2584.550 .36

140 .70-4 .63

140 .7884.556 .09

1

G ~

0

1 36 .28-23.70138 .3240.730 .35

-135 .5823.30137 .5740.730 .34

136 .28-23.70138 .3240.730 .35

-135 .5823.30137 .5740.730 .34

0.1

50

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0.2

20

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7 .56-0 .657 .59

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G~

G~

G~

0000

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G~

G~

G~

0 .070 .350 .350 .540 .00

G~

0 .000 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

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G~

149 .00-4 .47

149 .0783.366 .79

-140 .2124.76142 .3882.980 .36

140 .70-5 .31

140 .8082.986 .41

1

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108 .8532.420 .28

111 .634 .10

111 .7032.420 .28

0 .300 .280 .410 .210 .00

-0.3

0-0

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0.4

30

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0.0

0

I. Agrosuper

0.3

00

.06

0.3

1

0.0

1

1 5.33-1 .0915.3732.900 .08

I. Magnetita 110 kV

15.16-0 .7615.18

0 .08

88.4117.0490.0445.910 .23

-88.22-17.9190.0245.910 .23

3.4

90

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3.5

24

4.6

10

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7-0

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3.4

84

4.6

10

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5


0.6

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0.8

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0.0

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0.1

50

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0.1

50

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0.0

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7 .99-1 .558 .1421.690 .04

-7.9

41

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8.0

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1.6

90

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G ~

0.0

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0.0

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0.0

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0.0

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0.0

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6 .21-1 .806 .47

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0 .830 .210 .85

0 .02

G~

G~

0 .000 .000 .000 .000 .00

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3

0 .000 .000 .000 .000 .00

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3

-140 .2024.05142 .2584.550 .36

140 .70-4 .63

140 .7884.556 .09

1

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149.00-4.51

149.0784.466.45

-140 .2024.05142 .2584.550 .36

140 .70-4 .63

140 .7884.556 .09

1

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149.00-4.51

149.0784.466.45

113 .855 .80

113 .9957.670 .30

I. S

S/A

A S

an

Lore

nz

o

56

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1.1

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7.0

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9.0

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56

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1.1

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7.0

04

9.0

10

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1 3

0

I. Refugio 110 kV

14.504 .4815.18

0 .08


0 .050 .010 .05

0 .00

I. SS/AA C. Pinto

0 .000 .000 .00

0 .00

I. SS/AA D. Almagro

0 .060 .000 .06

0 .00

111

0 .830 .220 .868 .840 .00

-0 .83-0 .210 .858 .840 .02

53.3212.4954.7674.500 .14

-53.19-7 .3353.6974.500 .28

3

0

I. S

S/A

A C

ard

one

s

0 .03-0 .050 .06

0 .00

-19.47-7 .8721.0028.020 .11

19

.74

7.4

82

1.1

12

8.0

20

.11


3 .750 .513 .78

0 .02

1

I. M

an

to V

erd

e D

. A

lma

gro

110

KV

24.497 .8725.73

0 .13

144 .13-24.76146 .2443.060 .37

-143 .3924.95145 .5543.060 .36

144 .13-24.76146 .2443.060 .37

-143 .3924.95145 .5543.060 .36


2 .570 .262 .58

0 .01

38.406 .4038.930 .000 .20

62.20-4 .5962.370 .000 .16

16

.70

12

.86

21

.08

0.0

00

.05

1

0.0

20

.00

0.0

20

.00

0.0

0

-114 .0517.44115 .3859.160 .30

116 .05-19.51117 .6859.160 .31

-0.0

02

4.0

72

4.0

7

0.0

6

1

-18.57-7 .8320.1526.890 .11

18

.81

7.4

22

0.2

22

6.8

90

.11

8 8.2217.9190.02

0 .23

I. L

a C

oip

a 2

20

KV

18.143 .1818.42

0 .05

1

18.18-7 .1619.548 .480 .05

-18

.14

-3.1

81

8.4

28

.48

0.0

5

I. Paipote 110 KV

25.105 .1925.63

0 .13

53.3212.4954.7674.500 .14

-0.0

00

.00

0.0

07

4.5

00

.00

3

0

R.

Pa

pos

o 2

20

kV

0.0

40

.01

0.0

4

0.0

0

0 .00-0 .350 .350 .000 .00

-0 .0020.6620.6667.750 .85

56

.86

4.6

65

7.0

56

7.7

50

.15

-56.73-20.4260.2967.750 .31

13 0

-134 .2426.68136 .8669.790 .36

137 .15-25.47139 .4969.790 .36

75.5218.6477.790 .000 .40

11.16-1 .8311.310 .000 .06

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

Tap Romeral109 .1370 .992

-12.964

S/E Incahuasi

111 .2391 .011

-11.122

S/E Pajonales

111 .9871 .018

-10.426

S/E Dos Amigos

112 .4991 .023-9 .913

S/E Algarrobo

113 .2381 .029-8 .866

Vicuña

64

.06

70

.97

1-2

2.9

11

64

.03

00

.97

0-2

2.7

89

3 5.9011 .04121.735

228 .9341 .041-8 .265

San Juan 66 kV

67

.37

61

.02

1-1

5.6

63

1 10 .9561 .009

-11.820

22

6.4

73

1.0

29

-7.0

02

J2224 .8251 .022-5 .073

C113.0440 .988

-38.796

Z0 .7151 .037

142 .265

E223.8621 .037

-67.752

E123.8721 .038

-67.752

B268.5821 .039

-37.743

B168.6041 .039

-37.750

J228 .9391 .041-7 .739

E2

3.9

78

1.0

43

21

.95

3

J228 .9391 .041-7 .739

J226 .5131 .030-4 .815

J1224 .825

M113.7931 .000

-44.207

M213.9191 .009

-44.111

Marquesa 66 kV

65

.67

60

.99

5-1

8.3

42

Mang. Atacama 66 kV

67

.23

11

.01

9-1

5.7

62

Guayacán 66 kV

67

.23

11

.01

9-1

5.7

62

J210 .3970 .956

-11.647

67

.65

61

.02

5-1

5.4

75

6 6.3181 .005

-21.248

13

.29

51

.00

7-5

8.0

41

Q

11.4771 .043

-37.113

H

109 .8200 .998

-14.476

E22.9620 .998

-14.481

E23.8101 .035

-36.847

J

227 .7611 .035-6 .836

E

23

.49

31

.02

1-9

.00

4

B0.1229 .523

228 .9391 .041-7 .739

J2228 .9391 .041-7 .739

B0.0229 .5231 .043-7 .113

227 .7561 .035-6 .835

J2227 .7561 .035-6 .835

H111 .5351 .014

-13.166

H111 .4831 .013

-17.301

22.4820 .977

-39.218

H

11

2.3

58

1.0

21

-9.0

04

Reg 1109 .5690 .996

-13.039

Reg 2109 .6100 .996

-16.018

H109 .8200 .998

-14.476

H107 .4170 .977

-17.177

H110 .8941 .008

-10.071

R114 .0151 .036-8 .835

H

11

2.2

27

1.0

20

-10

.52

4

H

109 .2360 .993

-13.066

C2

23.2581 .011

-46.807

C0 .0000 .0000 .000

C2

13

.59

80

.98

5-3

8.9

21

H

113 .9811 .036-8 .460

C1

13

.59

60

.98

5-3

8.9

78

CER 2

11.9200 .903

-39.248

CER 1

11.9200 .903

-39.248

B

66.5711 .009

-20.777

C12.7210 .922

-21.260

B66.4961 .008

-21.149

J2223 .2401 .015-5 .174

H1111 .7491 .016

-11.067

J2230 .9681 .050-4 .251

H2114 .0041 .036-7 .507

J1

226 .776

13.3261 .010

-40.211

66

.59

91

.00

9-1

0.2

06

J2

226 .7761 .031-9 .336

J1230 .968

13.5430 .981

-45.681

111 .9861 .018

-12.956

114 .0041 .036-7 .507

H2111 .9861 .018

-12.956

111 .0821 .010-9 .612

J1223 .240

1.33-3.043.314.200.02-1.332.492.824.200.01

13.94-2.6914.1917.670.07

-13.620.7313.6417.670.07

15.45-2.6915.6819.390.08

-15.322.0415.4519.390.08

17.95-6.1318.9623.190.10

-17.735.4118.5323.190.10

18.30-6.7719.5140.490.10

-18.026.0919.0240.490.10

15.55-3.1715.8719.530.08

-15.452.6915.6819.530.08

0.0

2-5

.01

5.0

17

.04

0.0

3

-0.000.000.007.040.00

3.6

4-7

.04

7.9

31

5.1

80

.04

-3.5

74

.96

6.1

11

5.1

80

.03

0.7

1-0

.53

0.8

94

.82

0.0

1

-0.090.180.213.620.00

-0.0

00

.00

0.0

01

.54

0.0

0

9.2

0-1

.12

9.2

74

9.0

30

.08

-8.8

21

.01

8.8

74

9.0

30

.08

8.7

0-5

.06

10

.06

34

.13

0.0

9

-8.3

44

.84

9.6

43

4.1

30

.08

13.8

8-4

.58

14.6

14

9.0

90

.12

-13.6

14

.69

14.3

94

9.0

90

.12

-14.8

52

.16

15.0

13

0.2

60

.08

17.19-2.7217.4134.430.09

I. L

a M

esa

22

0 k

V

0.0

0-0

.00

0.0

0

0.0

0

V

V

0.000.000.000.000.00

-0.000.000.000.000.00

0.000.000.000.000.00

-0.00-0.000.000.000.00

0.000.000.000.000.00

-0.00-0.000.000.000.00

0

0.000.000.00

0.00

1

0.0

00

.00

0.0

0

0.0

0

1

R. San Juan 66 kV

3.2

80

.95

3.4

2

0.0

3

6.5

61

.80

6.8

02

0.9

30

.06

-6.5

5-1

.83

6.8

02

0.9

30

.06

0.00-5.095.09

0.03

2

Totoral

0.0

0-4

.95

4.9

5

0.0

4

2

-0.0

02

1.1

92

1.1

9

0.0

51

-0.0

0-2

1.1

92

1.1

92

7.0

20

.05

0.023.093.0927.020.01

I. S

S/A

A L

as P

alm

as

0 .02-0 .040 .04

0 .00

25.48-60.6565.780 .000 .17

4.7

6-1

4.9

71

5.7

10

.00

0.0

4

1 5.96-30.7134.610 .000 .09

49.872.49

49.9321.850.13

0.00-0.030.030.080.00

-0.000.030.030.080.00

0

0

0

0.100.480.490.930.00

-0.10-0.470.490.930.00

0

0.100.450.460.210.00

0.10-0.490.502.130.00

0

0.16-0.130.210.090.00

29.8735.4646.367.280.12

-29.81-41.0550.737.280.13

37.556.3038.0751.450.10

-0.00-0.000.00

51.450.00

4

0

I. MCDA

49.554.92

49.79

2.04

-15.69-31.2034.9215.390.09

15.7527.6231.8015.390.08

-0.000.000.008.680.00

0.02-4.484.488.680.02

R. Cabildo 110 kV

12.793.6913.32

0.07

-75.74-9.4376.3347.070.39

76.0214.1677.3333.550.20

38.467.96

39.2744.220.10

-38.41-5.5138.8044.220.20

4

0

-4.12-4.155.857.410.03

4.133.705.557.410.03

80.4611.9481.3444.090.21

R. Guayacan 66 kV

6.5

51

.90

6.8

2

0.0

6

0.0

0-0

.07

0.0

70

.22

0.0

0

-0.0

00

.00

0.0

00

.22

0.0

0

9.8

72

.73

10.2

43

1.3

90

.09

-9.8

4-2

.75

10.2

23

1.3

90

.09

0.00-24.6924.69

0.07

3

80.4611.9481.3444.090.21


155.8775.29173.10

0.48

0.8

8-0

.78

1.1

84

.08

0.0

1

-0.88-0.110.884.080.01

-0.000.000.0054.150.0039.66

-0.0939.6654.150.10

0

5

G~

G~

G~

8.7

2-0

.51

8.7

44

9.6

60

.08

-8.7

01

.36

8.8

04

9.6

60

.38

24.09-19.6231.0713.420.08

-23.998.9725.6213.420.06

-0.0

0-7

.67

7.6

7

0.1

91

24.09-19.6231.0713.420.08

-23.998.9725.6213.420.06

G~

34.78-32.2647.4420.750.12

-34.4319.6839.6620.750.10

34.78-32.2647.4420.750.12

-34.4319.6839.6620.750.10

-59.770.62

59.7729.980.15

60.51-14.1062.1329.980.16

-59.770.62

59.7729.980.15

60.51-14.1062.1329.980.16

G~

0

0.060.000.060.040.00

-0.06-0.010.060.040.00

R. El Espino 66 kV

0.010.000.01

0.00


0.160.050.16

0.00

I. SS/AA El Peñón

0.060.010.06

0.00

SS

/AA

Oliv

os

G~

G

~

G

~

G

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0.060.010.060.060.00

-0.06-0.010.060.060.00

0

0000

G~

G~

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G~

-0.16-0.050.160.430.00

0

0000

G ~

G ~

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0.0

00

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0.0

00

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0.0

0

-0.0

0-0

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0.0

00

.00

0.0

0

0

0.0

00

.00

0.0

00

.00

0.0

0

-0.0

0-0

.00

0.0

00

.00

0.0

0

0

0.0

00

.00

0.0

00

.00

0.0

0

-0.0

0-0

.00

0.0

00

.00

0.0

0

0

0.0

00

.00

0.0

00

.00

0.0

0

-0.0

0-0

.00

0.0

00

.00

0.0

0

0

0.0

00

.00

0.0

00

.00

0.0

0

-0.0

0-0

.00

0.0

00

.00

0.0

0

0

0 .00-0 .020 .020 .000 .00

59

.77

-0.6

05

9.7

70

.00

0.1

5

0 .050 .080 .090 .000 .00

0 .00-0 .030 .030 .000 .00

0.0

0-0

.00

0.0

00

.00

0.0

0

29.8735.4646.367.280.12

-29.81-41.0550.737.280.13

30.03-17.2934.650 .000 .09

4.7

6-1

4.9

71

5.7

10

.00

0.0

4

R.

El

Sa

uc

e 6

6 k

V

0.090.030.10

0.00

20.5112.6524.100 .000 .06

30.03-17.2934.650 .000 .09

4.7

6-1

4.9

71

5.7

10

.00

0.0

4

2 0.5112.6524.100 .000 .06

34.5726.0843.310 .000 .11

9 .22-0 .329 .220 .000 .02

4.7

6-1

4.9

71

5.7

10

.00

0.0

4

2 5.0656.0261.360 .000 .16

0 .000 .020 .020 .000 .00

59

.77

-0.6

05

9.7

70

.00

0.1

5

0 .011 .551 .550 .000 .00

5.992.276.41

0.03


17.543.8717.96

0.09

-17.54-3.8717.9636.450.09

17.593.6917.9836.450.09

0.00-0.000.00

0.00

4.143.715.5611.610.03

11

3.67-6.107.12

22.730.04

-8

R. Quereo 110 kV

2.1

40

.47

2.1

9

0.0

1

-15.69-31.2034.9215.390.09

15.7527.6231.8015.390.08

59.76-2.1459.7929.380.15

-59.17-8.5359.7829.380.15

59.76-2.1459.7929.380.15

-59.17-8.5359.7829.380.15

R.

El

Pe

ño

n

11

0 k

V

9.321.579.45

0.05

23.86-8.7225.4110.910.06

-23.70-13.6327.3411.860.07

-23.68-13.6827.3511.860.07

23.95-9.0625.6011.000.06

22.01-4.9722.5746.530.12

-21.333.9021.6846.530.12

41.76-0.0341.7684.100.22

-40.950.3940.9584.100.22

-17.192.72

17.4134.990.09

17.20-2.6117.4034.990.09 1

2

99

0.130.010.13

0.00

11.443.7512.04

0.06

R.

Sa

lam

an

ca

110

kV

8.310.758.35

0.04

I. SSAA Quillota

0.020.000.02

0.00


5.451.655.70

0.03

0.00-2.612.61

0.01

2

21.310.58

21.3238.320.11

-21.2

5-6

.37

22.1

83

8.3

20

.19

10

G~

Los Molles U2

-0.00-9.799.79

0.47

1

R. Vicuña 110 kV

3.550.053.55

0.02

I. Punitaqui

6.2

80

.58

6.3

1

0.2

7

R. Punitaqui

2.4

20

.59

2.4

9

0.1

1

R.

Co

mba

rba

la 6

6 k

V

0.700.170.72

0.01

0.71-0.530.895.870.00

-0.7

10

.53

0.8

95

.87

0.0

10

12.7

8-1

.17

12.8

34

3.2

90

.11

-12.3

51

.25

12.4

14

3.2

90

.11

R. Marquesa 66 kV

12.3

53

.70

12.8

9

0.1

1

36.611.8236.6662.310.19

-36.5

33

.02

36.6

66

2.3

10

.31

0

4I.

Min

.Ca

rme

n d

e A

nd

aco

llo

11

0 k

V

9.553.00

10.01

0.05

I. P

to.

Ch

un

go

+ S

S/A

A L

os

Vilo

s

11

0 k

V

1.120.261.15

0.00

12.91-2.3113.1124.290.07

-0.00-9.799.79

0.47

1SVS

CER N°2 P..

-0.0023.2023.20

1.12

SVSCER N°1 P..

-0.0023.2023.20

1.12

0.0213.9113.916.950.04

0.0213.9113.916.950.04

SS/AA Los..

0.160.000.16

0.01

3.650.443.68

0.03

0.160.000.160.830.00

-0.16-0.000.160.830.01

3

G~

0.0

0-2

.54

2.5

4

0.1

1

1

4 3.188 .3543.980 .000 .11

I. Ovalle 66 kV

4.1

20

.98

4.2

3

0.0

4

R.

Marb

ella

110

kV

2.010.792.16

0.01

I. Andacollo 66 kV

2.770.202.77

0.02

I. Algarrobo 110 kV

0.080.040.09

0.00


2.180.372.21

0.01

R. Incahuasi 110 kV

1.380.651.53

0.01

I. Incahuasi 110 kV

0.000.000.00

0.00

16

.70

12

.86

21

.08

0.0

00

.05

11

.16

-1.8

31

1.3

10

.00

0.0

6

R. Ovalle 66 kV

12.4

22

.94

12.7

7

0.1

1

R.

Illa

pe

l 66

kV

2.000.472.05

0.01

0.000.000.000.000.00

0.0

00

.00

0.0

00

.00

0.0

0-2

19.400.59

19.4126.430.05

-19.3

60

.28

19.3

62

6.4

30

.10

10

6.0

50

.14

6.0

51

3.0

10

.03 -5.99

-2.276.4113.010.03


1.8

70

.74

2.0

1

0.0

1

-12.912.31

13.1126.740.07

12.9

9-2

.89

13.3

12

6.7

40

.07

R. Andacollo 66 kV

2.140.162.15

0.02

11.1

7-0

.89

11.2

12

2.7

70

.06

-11.03-0.6811.0522.770.06

54.4811.8455.760 .000 .29


0.00-0.000.00

0.00

60.5550.8379.0651.940.20

-60.46-44.8875.3051.940.38

8

3

0 .160 .290 .330 .000 .00

0.0

0-0

.00

0.0

00

.00

0.0

0

60.2250.2578.4351.530.20

-60.09-44.2674.6351.530.38

8

3


12.292.30

12.50

0.07

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:

Graphic: _05-Colbun

Date: 9/9/2013

Annex:

J1

220 .182

J2

220 .1821 .0013 .568

C

12

.99

40

.94

2-2

4.4

35

B62.1990 .9425 .467

B1

6 .2110 .9417 .205

M1

6 .2320 .9447 .212

B62.3220 .9445 .670

B

62.3630 .9455 .762

13.8001 .000-1 .513

113 .7891 .034-2 .324

13.8001 .000-1 .513

113 .7891 .034-2 .324

0 .0000 .0000 .000

J2J1

B214.4370 .96227.793

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DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

incluye 3er.trafo

1 x 76 MVA



Lo Aguirre221 .0281 .005-3 .225

Tap Lo Aguirre

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7 .00-0 .007 .0025.180 .32

3

-196 .85-90.84216 .8078.710 .56

197 .38113 .50227 .6978.719 .34

2

-89.31-47.41101 .1164.200 .26

89.5856.35105 .8364.204 .01

2

91.7463.72111 .705 .610 .29

-91.70-64.79112 .285 .610 .29

-91.70-64.79112 .285 .610 .29

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4 .00-3 .565 .3635.710 .23

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7 .00-0 .007 .0021.880 .32

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-12.160 .8212.1849.800 .11

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-33.4733.5047.355 .040 .12

33.52-44.5555.755 .040 .15

-33.4733.5047.355 .040 .12

-51.82-2 .9451.9136.020 .27

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-51.82-2 .9451.9136.020 .27

0

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-53.29-26.4959.5114.220 .16

29.85-10.1431.5210.100 .08

-41.109 .5142.1921.570 .11

127 .17-53.25137 .8769.520 .36

-40.912 .1240.9621.230 .11

41.10-9 .1242.1021.230 .11

-6 .61-0 .976 .684 .780 .02

6 .61-6 .749 .444 .780 .02

22.3312.1825.4333.930 .13

-21.86-13.1125.4933.930 .14

22.3312.1825.4333.930 .13

-21.86-13.1125.4933.930 .14

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G~

100 .003 .12

100 .0534.504 .36

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100 .003 .12

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246 .55-50.38251 .6435.480 .29

-246 .2065.37254 .7335.480 .67

13

-13.502 .6113.7546.480 .12

13.52-2 .3013.7146.480 .07

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0 .191 .101 .120 .420 .00

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-59.591 .5959.6114.430 .15

59.76-6 .1660.0814.430 .15

-59.591 .5959.6114.430 .15

-112 .473 .84

112 .5330.680 .60

-112 .473 .84

112 .5330.680 .60

6

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3 .36-3 .454 .8237.820 .21

3

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

incluye 3er.trafo

224 .0371 .01822.523

6 .1211 .020-3 .748

13.2971 .00722.267

13.4641 .02026.065

J223 .5921 .01623.294

223 .4191 .01623.739

11.1031 .009-0 .104

13.3321 .01029.466

13.2701 .005-7 .593

6 .6581 .00922.403

6 .6491 .007-7 .983

13.3051 .00822.121

223 .1761 .01423.460

223 .3771 .01523.689

J

223 .3781 .01523.690

6 .1920 .938

-20.203

22.6670 .986

-20.201

J

222 .5131 .01122.189

J

222 .5131 .01122.189

B63.5150 .96219.037

B

63.5000 .96219.029

C12.6020 .95517.955

J1

225 .6521 .02626.611

B1

18.0001 .00033.222

B

65.2030 .98814.052

B65.7960 .99717.725

B65.2630 .98917.741

B65.3940 .99117.831

B

64.4840 .97719.820

B64.4800 .97719.823

B

63.2540 .95819.253

B

63.2540 .95819.254

B

64.4820 .97719.817

C3

0.0

00

0.0

00

0.0

00

TV

9 .7630 .93051.351

107 .0620 .97321.354

B1

10

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80

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3-8

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8

P4 TG

9 .7690 .93051.352

L

14.5100 .96752.188

P

10.5920 .92152.187

P311.2000 .974-8 .642

M13.3720 .96916.931

B

64

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10

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24

6.6

16

B64.1250 .97247.983

C20 .3940 .986

-20.197

222 .5131 .01122.189

222 .5131 .01122.189

J1

222 .5131 .01122.189

225 .6521 .02626.611

C2

13

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20

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0-1

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52

Gen 5-6

12.9190 .936-6 .836

A155 .7991 .01223.183

B64.4790 .97719.822

B

C213.1080 .95024.410

C113.3860 .97026.113

C113.3170 .96524.008

C112.5860 .953-8 .876

C212.8880 .93425.413

B162.3660 .94510.199

C113.2480 .96033.396

A153 .7360 .99821.358

P211.2000 .974-8 .642

P111.2000 .974-8 .642

13.2480 .96052.403

C413.3630 .968-3 .857

C2

13.4550 .97524.903

C113.4550 .97524.901

J

222 .3731 .01122.839

C

22.6700 .986

-20.197

C3

13.3630 .96826.143

C213.8001 .00031.842

B64.6260 .97919.884

C113.8001 .00031.842

C213.3170 .96523.999

B

62.3640 .9459 .809

B

63.4540 .96111.573

B

64.0920 .97112.359

B66.7581 .01119.683

B150 .7630 .97919.321

A150 .7180 .97919.326

M213.2760 .96222.844

J222 .2311 .01022.844

C2

13.2750 .96252.845

C1

13.2750 .96222.845

J222 .2171 .01022.845

13.3860 .97048.881

13.3860 .97048.785

J1 227 .238

220 .0921 .00040.589

J1

220 .0921 .00040.589

13.1240 .95121.942

13.2480 .96026.781

12.9200 .936-6 .817

K1491 .387

K2491 .3870 .98314.117

J2 227 .2381 .03325.413

65.6020 .99418.024

65.3860 .99114.189

14

.51

71

.05

2-1

2.0

63

13

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50

.96

0-1

6.0

63

M113.2760 .96252.844

4.1

21

0.9

91

-9.1

07

2 22 .0811 .00922.868

J1222 .0811 .00922.868

153 .7390 .99821.358

228 .2841 .03826.143

A1

153 .7390 .99821.358

13.2001 .00021.573

J1228 .2841 .03826.143

3229 .4431 .04324.411

-56.86-2 .8956.9425.040 .15

366 .777 .43

366 .8554.060 .96

-379 .2499.21392 .0057.681 .02

-34.65-34.4848.899 .450 .13

34.7031.0746.589 .450 .12

45.2718.6448.9510.670 .12

-45.04-32.5555.5710.670 .14

6 .030 .886 .09

0 .26

5 .782 .076 .14

0 .27

10.052 .4210.33

0 .45

3 .771 .043 .91

0 .34

0 .800 .320 .86

0 .08

1 .500 .561 .60

0 .07

0 .550 .220 .59

0 .06

0 .340 .130 .37

0 .03

0 .000 .000 .00

0 .00

G~

Laja 4

20.001 .8920.0927.180 .86

G~

Laja 2

0 .05-0 .000 .050 .000 .00-0 .050 .000 .050 .000 .00

G~

Laja 3

-20.00-0 .9220.0221.640 .05

20.001 .8920.0921.640 .86

0

-0 .73-0 .260 .777 .660 .03

0 .730 .270 .777 .660 .07

3

0 .000 .000 .00

0 .00

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0 .000 .000 .00

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2

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Santa Fe Energía

70.00-1 .4570.0157.163 .03

184 .6417.17185 .440 .000 .47

R. Duquec..

2 .380 .562 .44

0 .02

1048.50-94.61

1052.760 .002 .73

12.27-4 .4613.060 .000 .03

330 .45-24.11331 .330 .000 .39

0 .000 .000 .000 .000 .00

22.669 .5024.580 .000 .06

25.93-16.3230.640 .000 .08

0 .05-0 .000 .050 .540 .00

-0 .050 .000 .050 .540 .013

-0 .83-0 .290 .888 .700 .04

0 .830 .300 .888 .700 .083

0 .000 .000 .00

0 .00

3

0 .000 .000 .00

0 .00

2

0 .000 .000 .00

0 .00

2

1 .090 .441 .186 .310 .00-1 .09-0 .421 .176 .310 .11

1 .120 .451 .216 .460 .00-1 .12-0 .441 .206 .460 .11

0 .980 .401 .065 .670 .00-0 .98-0 .381 .055 .670 .10

R. Cholguán 66 kV

0 .650 .200 .68

0 .03

I. Cholguán 66 kV

0 .000 .000 .00

0 .00

I. Laja 66 kV

0 .010 .000 .01

0 .00


0 .000 .000 .00

0 .00

G~

Palmucho

25.00-4 .0425.3276.741 .10

G~

Ralco U1

380 .0058.75384 .5195.6516.58

G~

Ralco U2

380 .0058.72384 .5195.6516.58

-69.888 .4170.3935.050 .18

-69.898 .4770.4060.280 .18

70.00-1 .4570.0160.283 .03

0

0 .000 .000 .00

0 .00

1

0 .000 .000 .00

0 .00

1

3 .771 .133 .939 .690 .01

-3 .77-1 .043 .919 .690 .34

0

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Santa Fé 3

G~

Santa Fé 2

0 .000 .000 .00

0 .00

1

0 .000 .000 .00

0 .00

1

0 .000 .000 .00

0 .00

1

10.052 .7210.4110.570 .03

-10.05-2 .4210.3310.570 .45

0

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Pacífico 3

G~

Pacífico 2

G~

Pacífico 1

0 .000 .000 .00

0 .00

48

6 .030 .986 .118 .250 .02-6 .03-0 .886 .098 .250 .26

0

5 .782 .216 .1811.080 .02-5 .78-2 .076 .1411.080 .27

0

11.82-3 .4512.316 .130 .03

-11.80-3 .1912.236 .130 .03

G~

Santa María

370 .0079.33378 .4180.8612.14

-25.63-0 .4025.6411.230 .07

29

.51

1.5

92

9.5

51

2.9

50

.08

-0 .01-0 .040 .040 .190 .00

0 .01-0 .020 .030 .120 .00

0 .010 .040 .040 .570 .00-0 .00-0 .000 .000 .570 .00

2

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Renaico

G~

1 .00-0 .001 .0010.670 .04

-0 .970 .020 .9840.610 .03

1 .00-0 .001 .0040.610 .04

0

-0 .970 .080 .978 .830 .01

0 .97-0 .020 .988 .830 .03

3

230 .87-42.36234 .720 .000 .61

22

.66

9.5

02

4.5

80

.00

0.0

6

R. Cabrero 66 kV

10.501 .5810.62

0 .10

R. Charrúa 66 kV

0 .700 .160 .72

0 .01

G~

-0 .00-2 .452 .45

0 .02

12

-369 .28-34.35370 .8777.230 .95

370 .0079.33378 .4177.2312.14

3

-183 .40-17.49184 .2435.200 .48

184 .6417.17185 .4435.200 .47

-183 .40-17.49184 .2435.200 .48

184 .6417.17185 .4435.200 .47

4 .530 .994 .6311.450 .04

-4 .52-1 .074 .6411.450 .04

I. Duqueco 66 kV

2 .140 .512 .20

0 .02

0 .29-1 .181 .223 .600 .01

-0 .29-0 .010 .293 .600 .00

I. El Avellano

2 .030 .782 .17

0 .02

R. El Avellano

3 .171 .233 .40

0 .03

5 .211 .975 .5714.170 .05

-5 .20-2 .015 .5714.170 .05

13.512 .7213.7831.850 .12

-13.48-2 .7113.7531.850 .12

15.502 .7615.75

0 .72

G~

8 .00-0 .008 .0059.260 .37

7 .512 .928 .0627.910 .07

-7 .50-2 .767 .9927.910 .37

0

7 .512 .928 .0621.670 .07

17.244 .7517.8869.760 .16

-17.05-4 .5817.6569.760 .16

I. Fibranova

0 .000 .000 .00

0 .00

0 .00-0 .140 .140 .300 .00

-0 .000 .000 .000 .300 .00

-4 .53-2 .205 .0410.740 .05

4 .542 .044 .9810.740 .04

0 .01-0 .050 .050 .180 .00

-0 .01-0 .000 .010 .180 .00

2 .830 .062 .8310.580 .03

-2 .78-0 .532 .8310.580 .03

R. Laja 66 kV

2 .760 .582 .82

0 .03

0 .00-0 .120 .120 .470 .00

-0 .000 .000 .000 .470 .00

0 .000 .000 .000 .000 .00

0 .000 .000 .000 .000 .00

0

9

G~

3

0 .080 .500 .510 .700 .00

-0 .08-0 .500 .510 .700 .00

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3

0 .020 .020 .030 .030 .00

-0 .02-0 .140 .140 .030 .00

0 .020 .140 .140 .100 .00

-0 .00-0 .000 .000 .100 .00

2

G~

0 .070 .410 .410 .280 .00

-0 .00-0 .000 .000 .280 .00

2

0 .07-1 .331 .330 .250 .00

-0 .07-0 .410 .410 .250 .00

G~

4

-24

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5.9

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2 4.91-6 .0325.6365.930 .23

3

-0 .000 .000 .0014.170 .00

-49.56-18.1552.7814.170 .20

-0 .000 .000 .0014.170 .00

0

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14.43-3 .9014.9421.550 .06

-14.364 .7015.1121.550 .14

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1.5

50

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2

7

18.361 .7118.4445.410 .16

-18.05-1 .3518.1045.410 .16

13.000 .0113.0032.620 .12

-12.870 .0412.8732.620 .12

12.87-0 .0412.8732.620 .12

-12.650 .1412.6532.620 .12

R.

Ch

arr

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15

4 k

V

0 .530 .020 .53

0 .00

R. Cholguán 220 kV

3 .260 .153 .27

0 .01

G~

15.00-14.8521.1122.700 .92

G~

15.00-14.7221.0222.600 .91

0 .330 .000 .33

0 .00

-14.9115.9621.8417.780 .06

15.00-14.8521.1117.780 .92

1

-14.9115.8321.7517.710 .06

15.00-14.7221.0217.710 .91

1

31.60-8 .7732.798 .960 .09

-31.552 .7931.688 .960 .08

-24.653 .8024.957 .450 .06

24.70-11.4927.247 .450 .07

23.78-0 .1623.7822.380 .09

-23.53-4 .1823.9022.380 .09

12.65-0 .1412.6526.770 .12

-12.630 .3112.6426.770 .12

10

G~

G~

44

0 .080 .280 .290 .280 .00

-0 .08-0 .500 .510 .280 .00

-24.916 .0325.6375.370 .23

25.00-4 .0425.3275.371 .10

0

-3 .6913.8314.324 .350 .04

3 .69-15.4815.914 .350 .04

G~

14.003 .2214.3637.800 .62

G~

14.003 .2214.3637.800 .62

-13.96-2 .5314.1834.370 .04

14.003 .2214.3634.370 .62

0

-13.96-2 .5314.1934.370 .04

14.003 .2214.3634.370 .62

0

R. Rucue 220 kV0 .200 .020 .20

0 .00

R. Coopelan ..

1 .240 .101 .24

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G~ L

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0 .020 .030 .040 .340 .00

-0 .010 .020 .030 .340 .00

3

I. SSAA Charrúa

0 .160 .010 .16

0 .00

-661 .6369.36665 .2694.770 .78

-661 .6369.36665 .2694.770 .78

3

-1323.26138 .731330.5194.771 .56

3

-379 .1899.16391 .9357.671 .02

391 .31-2 .15

391 .3257.671 .03

-379 .04-2 .97

379 .0594.380 .99

380 .0058.75384 .5194.3816.58

3

-379 .04-2 .31

379 .0594.380 .99

380 .0058.72384 .5194.3816.58

3

I. B

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lem

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6 k

V

1 .440 .121 .45

0 .01

-4 .53-2 .345 .1010.880 .05

4 .532 .345 .1010.880 .05

-5 .98-2 .176 .3650.220 .06

6 .002 .486 .4950.220 .29

3

G~

G~

G~

12.00-0 .0012.0055.810 .52

G~

G~

12.001 .3512.0856.170 .53

-12.000 .0812.0056.910 .04

12.000 .6812.0256.910 .52

4

0 .000 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

5

-12.000 .0812.0056.910 .04

12.000 .6812.0256.910 .52

4

-0 .00-66.4966.49

0 .17 1

I. Cholguan 220 kV

7 .081 .337 .20

0 .02

I. L

os

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15

4 k

V

0 .000 .000 .00

0 .00

I. P

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6 k

V

0 .290 .010 .29

0 .00

I. L

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An

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66

kV

0 .05-0 .000 .05

0 .00

I. S

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Fe 1

54 k

V

0 .000 .000 .00

0 .00

G~

6 .002 .486 .4964.910 .29

I. SS/AA Campanario

0 .000 .000 .00

0 .00

13.86-0 .9813.8919.480 .05

-13.801 .5413.8919.480 .12

9

SS/AA Aba..

0 .220 .000 .22

0 .01

0 .000 .000 .00

0 .00

2

I. M

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0 .330 .130 .35

0 .00

R.

Man

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6 k

V

7 .943 .078 .51

0 .08

-0 .00-2 .232 .23

0 .02

1

-0 .00-3 .083 .08

0 .03

15

R.

An

gol

66

kV

9 .632 .049 .85

0 .09

3 .871 .544 .17

0 .01

I. Renaico 66 kV

0 .000 .000 .00

0 .00

R. Negrete 66 kV

5 .041 .345 .22

0 .05

G~

0 .000 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

5

R.

Los

An

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66

kV

1

12.362 .9312.70

0 .11

CCEE Cholguan 13...

0 .000 .000 .00

0 .00

1

G~

8 .006 .0510.0325.890 .44

-7 .35-5 .479 .1646.990 .08

-0.0

0-0

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0.0

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6.9

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7 .355 .869 .4046.990 .41

12

-7 .09-5 .589 .0250.480 .08

7 .355 .479 .1650.480 .08

0 .00-1 .491 .491 .580 .01

-0 .000 .000 .001 .580 .00

50.005 .7150.3344.270 .19

-49.24-6 .7449.7044.270 .19

0 .000 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

5

G~

G~

G~

0 .000 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

5

0 .00-1 .421 .420 .430 .00

-0 .00-0 .000 .000 .430 .00

0 .000 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

5

-1 .241 .331 .811 .530 .00

1 .24-4 .844 .991 .530 .01

14

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2.2

11

4.5

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PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

225

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105.9350.96311.903

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107

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17.3021.03653.017

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13.8001.00031.742

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13.8001.00031.742

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114.7891.04421.050

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3.630.333.64

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8.870.478.88

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2.190.122.20

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6.680.996.75

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4.310.614.35

0.02

R. Pid Pid 110 kV

4.911.025.01

0.03

R. Chonchi 24 kV

3.2

80

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3.3

1

0.0

8

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4.9

40

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12.7

90

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17.9827.700.05

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13 -0.02-0.120.121.180.00

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0.220.000.22

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0.220.000.22

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0

DIg

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-----------------------------------------------------------------------------------------------------------------------------------


-----------------------------------------------------------------------------------------------------------------------------------

| |




| |





| Load P(Un-U) = -0.00 MW 0.00 Mvar |


| Grid Losses = 240.81 MW -407.49 Mvar |




| |



| |



| Load/Motor = 0.98 / 0.00 [-] |

|---------------------------------------------------------------------------------------------------------------------------------|


ANEXO III

ESCENARIO DE DEMANDA MÁXIMA, DICIEMBRE 2012.

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo III. Página N° 2

PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

incluye Guacolda 5

Tap Castilla112 .2761 .02134.007

13.9011 .00012.173

J219 .9931 .00042.175

13

.35

50

.96

81

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9

J2223 .5131 .01637.093

H

109 .3300 .99431.272

H109 .0460 .99130.971

Vallenar 13.8 kV

13

.29

70

.96

42

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8

Q11.1131 .0102 .603

H

108 .8270 .98931.357

H

109 .1750 .99231.547

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10

9.0

93

0.9

92

31

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2

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109 .2570 .99331.473

H

111 .1311 .01032.603

H

108 .2580 .98430.301

H110 .0001 .00031.925

Vallenar 110..

11

2.6

89

1.0

24

35

.67

3

6 .1180 .9715 .119

H109 .6050 .99631.516

11.7551 .0225 .119

H112 .4531 .02235.258

CER12.9510 .98110.288

C13.3160 .9655 .219

El Salvador 110 kV

106 .3220 .96736.547

111 .1311 .01032.603

111 .6751 .01535.119

J1223 .513

J1229 .131

H1111 .6751 .01535.119

J2229 .1311 .04240.379

113 .6181 .03336.156

H2113 .6181 .03336.156

13.5240 .98050.360

B1

0.4

16

1.0

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39

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4

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J219 .9931 .00042.175

E223.3671 .01637.093

J

223 .5131 .01637.093

E1

23.3671 .01637.093

E

11.5001 .00042.175

P2

10.9460 .9528 .238

P1

9 .5380 .8298 .238

H109 .9801 .00038.240

16.0021 .0167 .093

13.0340 .98050.441

J

22

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15

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5.6

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15

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01

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7.0

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G210.9980 .9568 .239

G110.9980 .9568 .239

J222 .7251 .012

36.670

J

22

1.9

72

1.0

09

38

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5

1 3.5240 .98050.522

13.5240 .98050.522

C

13.3330 .9667 .503

J

222 .2751 .01039.278

C2

23

.90

00

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67

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7

H109 .2430 .99330.237

Potrerillos 110 kV

108 .3510 .98537.029

H109 .9130 .99937.880

13

.73

40

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51

.73

4

13

.34

80

.96

71

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6

22

3.4

52

1.0

16

50

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3.4

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50

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8

H2111 .1311 .01032.603

E

21.8780 .95137.159

H107 .9220 .98136.356

109 .9841 .00038.239

IB109 .9841 .00038.239

230 .1701 .04642.990

J1

230 .1701 .04642.990

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8 .24-1 .288 .3414.780 .04

15.29-3 .1515.6132.510 .08

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99

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34

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97

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5 4.438 .1455.0395.950 .29

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97

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4.3

90

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99

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2 .24-0 .992 .453 .260 .01

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23.916 .7524.8532.980 .13

-23.70-7 .2324.7832.980 .13

1 .73-1 .232 .122 .820 .01

-1 .73-0 .091 .732 .820 .01

22.396 .3123.2630.950 .12

-22.18-6 .9223.2330.950 .12

3 .03-0 .883 .165 .650 .02

8 .83-2 .289 .1216.070 .05

0 .00-15.5215.5231.040 .70

0 .00-15.5215.5231.040 .70

-0 .00-34.1934.19

1 .42

1

0 .0016.9116.9133.830 .70

-0 .00-15.5215.5233.830 .70

0 .0016.9116.9133.830 .70

-0 .00-15.5215.5233.830 .70

0 .04-0 .110 .120 .360 .00

-0 .000 .360 .360 .360 .01

I. SS/AA D. Almagro

0 .030 .000 .03

0 .00

0 .00-0 .040 .040 .020 .00

-0 .000 .000 .000 .020 .00

117 .6723.83120 .0560.830 .32

78.17-40.2587.9244.540 .23

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15.902 .2116.050 .000 .08

42.793 .7742.9573.590 .11

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37

5.6

70

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5

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6.0

31

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5 .880 .585 .91

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12.002 .1512.19

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6 .380 .636 .41

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14.66-0 .7814.6825.960 .08

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12.031 .9312.1821.700 .06

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R. Los Loros 110 kV

7 .351 .327 .47

0 .04

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35

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1.4

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4.2

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1 3.90-1 .0513.9429.690 .07

I. Magnetita 110 kV

13.76-0 .6913.78

0 .07

87.9316.9289.5445.510 .23

-87.75-17.8289.5445.510 .23

5.3

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5.3

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8.8

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1.7

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0

I. Refugio 110 kV

10.053 .1010.52

0 .06


0 .070 .010 .07

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I. SS/AA C. Pinto

0 .000 .000 .00

0 .00

111

1 .640 .451 .7017.750 .01

-1 .64-0 .411 .6917.750 .04

45.796 .2546.2289.570 .12

-45.68-13.0247.5089.570 .25

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0.9

30

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3 .970 .544 .00

0 .02

1

I. M

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110

KV

23.137 .4324.30

0 .13

178 .64-5 .20

178 .7252.740 .45

-177 .538 .16

177 .7252.740 .45

178 .64-5 .20

178 .7252.740 .45

-177 .538 .16

177 .7252.740 .45


3 .020 .313 .04

0 .02

35.492 .0235.550 .000 .18

11.8112.4817.180 .000 .04

28

.49

-14

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32

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0.0

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1

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4.3

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1

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20

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42

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9.6

80

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8 7.7517.8289.54

0 .23

I. L

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20

KV

19.403 .4019.70

0 .05

1

19.45-6 .9720.668 .940 .05

-19

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-3.4

01

9.7

08

.94

0.0

5

I. Paipote 110 KV

24.595 .0825.11

0 .13

45.764 .5445.9863.030 .12

-0.0

00

.00

0.0

06

3.0

30

.00

4

0

R.

Pa

pos

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20

kV

0.0

50

.01

0.0

5

0.0

0

6 7.12-10.7367.970 .000 .17

-0 .004 .674 .6752.360 .20

58

.86

12

.34

60

.14

52

.36

0.1

6

-58.76-12.6060.1052.360 .32

13 0

57.62-27.6263.9032.040 .17

-57.0419.4960.2832.040 .16

78.3220.3180.910 .000 .42

6 .11-2 .636 .650 .000 .03

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

Tap Romeral103 .9050 .94521.850

S/E Incahuasi

107 .2060 .97527.443

S/E Pajonales

108 .5880 .98729.350

S/E Dos Amigos

109 .6480 .99730.726

S/E Algarrobo

111 .3851 .01333.131

Vicuña

64

.40

10

.97

61

1.1

52

64

.45

20

.97

71

1.2

91

J221 .4241 .00612.477

B166.3521 .005

-17.534

B266.3301 .005

-17.527

E123.0881 .004

-47.536

E223.0791 .003

-47.536

Z0 .6921 .003

162 .480

J221 .4251 .00612.477

J2223 .0741 .014-1 .715

C112.6230 .956-7 .190

E2

3.1

43

1.0

06

44

.05

7

J225 .3911 .0250 .640

J1223 .074

M113.1070 .950

-10.686

M213.1400 .952

-10.881

Marquesa 66 kV

62

.29

10

.94

41

3.7

22

Mang. Atacama 66 kV

63

.74

80

.96

61

6.2

80

Guayacan 66 kV

63

.74

70

.96

61

6.2

81

J212 .7020 .967-9 .298

64

.82

30

.98

21

6.9

81

6 5.9671 .00012.371

13

.35

41

.01

28

.17

1

Q

11.1091 .0100 .582

H

110 .0861 .00121.324

E23.2261 .01027.348

E23.3401 .015

-15.537

J

223 .1541 .0147 .803

E

23

.89

01

.03

91

9.0

51

B0.1222 .162

221 .4301 .00712.469

J2221 .4301 .00712.469

B0.0222 .1621 .01030.582

222 .9461 .0137 .536

J2222 .9461 .0137 .536

H107 .1420 .97420.009

H106 .5990 .96914.037

22.4610 .977

-15.157

H

11

2.1

85

1.0

20

14

.18

2

Reg 1104 .8150 .95320.426

Reg 2105 .1430 .95615.551

H110 .0761 .00121.307

H107 .6110 .97817.481

H109 .6410 .99712.629

R112 .3931 .022-6 .382

H

10

9.2

95

0.9

94

-7.8

69

H

103 .9270 .94520.878

C2

23.7571 .033

-11.973

C0 .0000 .0000 .000

C2

13

.41

00

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2-3

6.3

53

H

112 .6241 .024-5 .977

C1

13

.40

40

.97

1-3

6.4

06

CER 2

12.5350 .950-7 .635

CER 1

12.5350 .950-7 .635

B

65.9070 .99912.707

C13.1240 .95116.129

B66.7701 .01212.888

J2223 .4961 .016-3 .364

H1108 .4300 .986-8 .295

J2229 .1311 .04240.379

H2113 .6181 .03336.156

J1

219 .278

13.1590 .997

-17.693

65

.74

70

.99

61

2.3

41

J2

219 .2780 .99722.481

J1229 .131

12.9750 .940

-13.299

107 .8220 .98020.335

113 .6181 .03336.156

H2107 .8220 .98020.335

109 .8960 .99913.235

J1223 .496

18.56-14.6923.6731.540.13

-18.3214.5123.3731.540.13

33.90-11.5635.8246.260.19

-31.7112.2233.9946.260.19

36.27-10.5537.7748.160.20

-35.4510.8437.0748.160.20

40.20-11.9441.9452.130.22

-39.0712.4541.0052.130.22

-41.0811.4642.6591.160.22

42.49-10.5243.7791.160.22

37.29-10.2738.6848.840.20

-36.6810.4938.1548.840.20

0.0

2-4

.58

4.5

86

.73

0.0

3

-0.000.000.006.730.00

5.2

8-6

.38

8.2

81

6.5

40

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-5.1

94

.51

6.8

71

6.5

40

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1.7

1-0

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1.7

39

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0.0

2

-0.310.120.333.780.00

-0.0

00

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0.0

01

.55

0.0

0

5.6

9-1

.39

5.8

53

1.2

70

.05

-5.5

31

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5.6

43

1.2

70

.05

4.5

6-6

.59

8.0

22

8.1

20

.07

-4.3

26

.23

7.5

92

8.1

20

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8.9

3-6

.29

10.9

23

8.2

90

.10

-8.7

66

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10.7

83

8.2

90

.10

-15.5

6-3

.34

15.9

13

2.8

40

.08

18.743.2719.0238.750.10

Totoral

0.090.440.450.900.00

-0.09-0.440.450.900.00

0

0.090.420.430.200.00

0

0

-16.327.44

17.947.990.05

-0.0

0-4

.45

4.4

5

0.0

4

2

1

I. S

S/A

A L

as P

alm

as

0 .02-0 .030 .04

0 .00

376 .66-16.66377 .030 .000 .98

79

.43

-24

.90

83

.25

0.0

00

.22

2 17 .7933.15220 .300 .000 .57

52.623.53

52.7423.860.14

0.00-0.030.030.080.00

-0.000.030.030.080.00

0

0.09-0.460.472.060.00

0

231.2631.08233.3433.500.60

-230.07-27.22231.6833.500.60

21.118.5722.7931.840.06

-0.000.000.00

31.840.00

4

0

I. MCDA

52.245.18

52.50

2.23

-124.3740.21130.7158.030.34

125.29-40.32131.6258.030.34

-0.00-0.000.008.700.00

0.02-4.494.498.700.02

-42.44-16.4245.5129.150.24

42.5518.1246.2420.770.12

21.439.66

23.5127.370.06

-21.41-8.7223.1227.370.12

4

0

1.82-19.5219.6026.110.11

-1.6919.2819.3526.110.11

73.786.56

74.0739.920.19

R. Guayacan 66 kV

21.7

86

.32

22.6

8

0.2

1

0.0

0-0

.06

0.0

60

.21

0.0

0

-0.0

0-0

.00

0.0

00

.21

0.0

0

22.0

76

.54

23.0

27

3.5

60

.20

-21.7

8-6

.26

22.6

67

3.5

60

.21

0.00-25.2425.24

0.07

3

73.786.5674.0739.920.19


143.4269.27159.27

0.43

-1.3

2-1

.78

2.2

27

.77

0.0

2

1.330.921.627.770.01

-0.000.000.00

33.470.0022.13

9.1723.9633.470.06

0

4

G~

G~

G~

4.4

4-0

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4.4

47

8.9

30

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-130.2241.10136.5561.610.35

132.82-40.00138.7161.610.36

-0.0

0-1

6.0

01

6.0

0

0.3

92

-130.2241.10136.5561.610.35

132.82-40.00138.7161.610.36

G~

-192.4559.30201.3890.270.52

200.45-41.06204.6290.270.53

-192.4559.30201.3890.270.52

200.45-41.06204.6290.270.53

-195.2222.48196.5199.110.51

203.70-4.51

203.7599.110.51

-195.2222.48196.5199.110.51

203.70-4.51

203.7599.110.51

G~

0.001.711.714.602.47

0

-77.42-2.2977.4549.780.41

77.422.3177.4649.780.41

R. El Espino 66 kV

0.010.000.01

0.00


0.10-0.000.10

0.00

I. SS/AA El Peñón

0.05-0.000.05

0.00

SS

/AA

Oliv

os

0.0

00

.00

0.0

0

0.0

0

G~

18.603.4218.9184.7327.30G

~

18.603.4218.9184.7327.30G

~

20.153.7020.4984.7329.57G

~

20.153.7020.4984.7329.57

-77.42-2.3177.4677.400.41

77.4510.5178.1677.401.94

0

0000

G~

21.001.72

21.0775.5230.41

G~

21.001.72

21.0775.5230.41

G~

21.001.72

21.0775.5230.41

G~

21.001.72

21.0775.5230.41

83.89-4.7184.0237.030.22

0

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G ~

22.5

06

.91

23.5

48

7.1

83

3.9

7

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22.5

06

.91

23.5

48

7.1

83

3.9

7

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22.5

06

.91

23.5

48

7.1

83

3.9

7

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22.506.9123.5487.1833.97

-22.5

0-5

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23.2

38

9.4

40

.56

22.5

06

.91

23.5

48

9.4

43

3.9

7

0

-22.5

0-5

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23.2

38

9.4

40

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22.5

06

.91

23.5

48

9.4

43

3.9

7

0

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0-5

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23.2

38

9.4

40

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22.5

06

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23.5

48

9.4

43

3.9

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0

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0.880.481.00

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1.550.731.71

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T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

tercer transf ormador

incluido

1 x 76 MVA



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0 .81-0 .240 .84

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52.99-43.1168.3116.390 .18

282 .4990.64296 .6874.780 .78

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282 .9790.80297 .1874.900 .78

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89

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74

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0 .010 .000 .01

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3

-24.00-17.2929.58104 .180 .15

24.0019.8131.12104 .181 .32

3

-24.001 .6924.0687.500 .13

24.000 .0924.0087.501 .11

3

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11

11

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117 .360 .000 .30

0 .170 .000 .17

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65.9047.0480.9719.660 .21

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0 .000 .000 .00

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516 .1460.14519 .6373.270 .60

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16

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297 .238 .25

297 .3418.410 .77

-295 .54-4 .98

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297 .238 .25

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181 .1672.47195 .1250.750 .51

0 .22-68.5168.5168.300 .18

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239 .2520.72240 .1421.600 .62

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239 .2520.72240 .1421.600 .62

1

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31.78-20.5437.845 .330 .04

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14

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6 .27-0 .066 .276 .330 .03

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0

3

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0 .00-2 .442 .44

0 .02 1

32.052 .8332.1755.550 .17

-31.96-2 .8232.0855.550 .17

R. Melipilla 110 kV

16.431 .4916.49

0 .09

15.531 .3315.5962.820 .08

-15.51-0 .5415.5162.820 .14

1

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24.00-2 .3524.1175.361 .09

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An

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SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

229 .7881 .0448 .167

B65.4690 .9920 .270

J1

230 .7101 .04910.948

J221 .7771 .0084 .486

B1

18.1801 .01016.663

C1

13.5521 .0275 .943

C

6 .1601 .027

-24.057

J

225 .8711 .0275 .943

230 .7101 .04910.948

B

66.2271 .003-6 .549

B67.3311 .020-1 .285

B66.3431 .005-1 .611

B66.5871 .009-1 .447

C12.9950 .984-0 .772

B

65.4530 .9920 .262

B

66.7311 .0111 .317

B66.7271 .0111 .320

B

64.2430 .9730 .342

B

64.2440 .9730 .343

B

66.7291 .0111 .314

C3

0.0

00

0.0

00

0.0

00

TV

9 .9760 .95034.335

109 .3940 .9944 .338

B1

10

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10

.99

4-2

5.6

64

P4 TG

9 .9820 .95134.336

L

14.9400 .99637.175

J

229 .1091 .0417 .175

P

10.9060 .94837.174

J

229 .1091 .0417 .175

P311.4440 .995

-25.658

M13.6900 .992-3 .146

B

65

.70

30

.99

52

6.5

68

B65.5960 .99427.833

C20 .4051 .012

-36.553

229 .1091 .0417 .175

229 .1091 .0417 .175

J1229 .1091 .0417 .175

C2

13

.88

61

.00

6-2

9.0

42

Gen 5-6

13.2040 .957

-23.611

A159 .2301 .0346 .407

B66.7261 .0111 .319

B

C213.2910 .963

-16.892

C113.3860 .97019.910

C114.2141 .03010.839

C112.8380 .973

-26.465

C213.2480 .96015.070

B162.9200 .953

-10.198

C113.2480 .96015.070

A157 .0861 .0204 .342

P211.4440 .995

-25.658

P111.4440 .995

-25.658

13.5240 .98031.903

C413.6020 .986

-18.407

C2

13.9381 .01011.369

C113.9381 .01011.367

J

230 .9341 .0508 .617

C

23.1501 .007

-38.873

C3

13.6020 .986

-18.407

C213.8001 .00017.221

B66.8431 .0131 .360

C113.8001 .00017.221

C214.2141 .03010.822

B63.6580 .965

-10.606

B

63.9890 .970-9 .093

B

64.6110 .979-8 .459

B68.7111 .0411 .620

B150 .8110 .9791 .377

A150 .7660 .9791 .382

M214.0761 .02014.083

J232 .2101 .0559 .458

C2

13.8611 .00439.324

C1

14.0761 .02013.948

J232 .0251 .0559 .324

13.5240 .98027.361

13.5240 .98027.288

J1 231 .836

225 .5141 .02521.035

J1

225 .5141 .02521.035

14.2141 .0303 .717

13.5240 .98010.431

13.2040 .957

-23.593

K1506 .208

K2506 .2081 .0122 .730

J2 231 .8361 .05410.876

67.0271 .016-1 .110

66.4571 .007-6 .379

14

.38

71

.04

3-3

1.2

84

12

.96

50

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0-3

6.7

43

M113.8721 .00539.458

4.2

36

1.0

18

-27

.40

8

2 31 .1981 .0518 .802

J1231 .1981 .0518 .802

157 .0891 .0204 .342

232 .3681 .05611.593

A1

157 .0891 .0204 .342

13.5961 .0303 .024

J1232 .3681 .05611.593

3

232 .6401 .05713.109

-85.62-36.4793.0624.230 .24

86.7632.4592.6340.410 .23

-303 .9073.01312 .5544.930 .79

287 .58-17.35288 .1041.440 .74

-98.18-7 .4998.4618.490 .25

98.365 .1698.5018.490 .25

116 .190 .58

116 .1921.590 .29

-115 .11-7 .20

115 .3321.590 .29

-23.926 .7624.8671.460 .22

24.00-4 .9724.5171.461 .05

0

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1 .00-0 .001 .0010.670 .04

R. Cholguán 220 kV

7 .840 .377 .85

0 .02

I. Cholguan 220 kV

8 .901 .679 .06

0 .02

0 .000 .000 .00

0 .00

2

-0 .970 .080 .978 .580 .01

0 .98-0 .020 .988 .580 .02

3R. Cabrero 66 kV

17.002 .5517.19

0 .15

85.6236.4793.06

0 .24

G~

Santa María

330 .0036.10331 .9770.9310.54

-329 .42-1 .82

329 .4267.080 .82

330 .0036.10331 .9767.0810.54

3

0 .000 .000 .00

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0 .000 .000 .00

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0

0.0

0-1

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1.0

40

.45

0.0

0

-0 .00-0 .000 .000 .450 .00

164 .710 .91

164 .710 .000 .41

I. Duqueco 66 kV

3 .010 .713 .09

0 .03

R. Duquec..

2 .780 .662 .85

0 .02

I. P

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6 k

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0 .00-0 .000 .00

0 .00

I. El Avellano

4 .331 .674 .64

0 .04

R. El Avellano

5 .542 .145 .94

0 .05

-0 .00-2 .542 .54

0 .02

12

9 .903 .8010.6026.460 .09

-9 .87-3 .8110.5826.460 .09

I. M

an

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66 k

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1 .200 .461 .29

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15.105 .8316.19

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15.682 .7915.93

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8 .00-0 .008 .0059.260 .36

7 .682 .958 .2327.670 .07

-7 .68-2 .798 .1727.670 .36

0

7 .682 .958 .2321.480 .07

I. Fibranova

0 .000 .000 .00

0 .00

0 .00-0 .150 .150 .310 .00

-0 .00-0 .000 .000 .310 .00

I. Laja 66 kV

0 .020 .000 .02

0 .00

0 .02-0 .050 .050 .190 .00

-0 .02-0 .000 .020 .190 .00

R. Laja 66 kV

5 .511 .165 .63

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0 .070 .430 .440 .290 .00

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2

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83

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3 .28-0 .003 .2884.544 .68

-163 .78-5 .62

163 .8830.410 .41

164 .710 .91

164 .7130.410 .41

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163 .8830.410 .41

164 .710 .91

164 .7130.410 .41

0 .020 .020 .030 .030 .00

-0 .02-0 .150 .150 .030 .00

0 .07-1 .411 .410 .260 .00

-0 .07-0 .430 .440 .260 .00

265 .14-0 .17

265 .140 .000 .67

557 .08-149 .76576 .860 .001 .45

I. SSAA Charrúa

0 .170 .010 .17

0 .00

-0 .00-70.4970.49

0 .18

1

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SS/AA Aba..

0 .220 .000 .22

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0 .220 .000 .220 .260 .00

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5

-3 .56-2 .134 .158 .550 .04

3 .562 .134 .158 .550 .04

R. Charrúa 66 kV

1 .940 .431 .99

0 .02

24.065 .9924.8093.420 .21

-23.72-5 .5824.3693.420 .21

5 .730 .715 .7720.770 .05

-5 .53-1 .115 .6420.770 .05

0 .00-0 .130 .130 .480 .00

-0 .00-0 .000 .000 .480 .00

-161 .63-10.95162 .0030.060 .41

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200 .0020.66201 .0683.788 .67

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30.004 .7630.3732.661 .23

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75.008 .8575.5247.203 .29

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75.008 .8575.5247.203 .29

0 .090 .520 .530 .710 .00

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24.00-4 .9724.5174.271 .05

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20.002 .4620.1553.030 .83

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20.002 .4620.1553.030 .83

78.5211.8779.4221.220 .20

-78.26-16.5679.9921.220 .20

-19.94-1 .3219.9846.550 .05

20.002 .4620.1546.550 .83

0

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20.002 .4620.1546.550 .83

0

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100 .0016.71101 .3996.324 .24

-3 .56-1 .984 .078 .390 .04

3 .561 .814 .008 .390 .03

I. B

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V1 .440 .121 .44

0 .01

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100 .0016.71101 .3996.324 .24

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30.004 .7830.3832.661 .23

11.120 .9611.1629.280 .10

-11.10-0 .7911.1329.280 .10

10

-3 .240 .293 .2533.810 .03

3 .26-0 .133 .2633.810 .08

3

CC

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66 k

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0 .00-2 .332 .33

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1

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12.452 .6312.73

0 .12

11.290 .9811.3440.170 .10

-11.12-0 .9611.1640.170 .10

I. Renaico 66 kV

0 .00-0 .000 .00

0 .00

11.390 .9911.4340.110 .10

-11.29-0 .9811.3440.110 .10

R. Negrete 66 kV

10.802 .8711.18

0 .10

-7 .51-3 .368 .2244.470 .07

7 .713 .198 .3544.470 .07

I. S

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54 k

V

0 .000 .000 .00

0 .00

I. L

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15

4 k

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0 .000 .000 .00

0 .00

0 .00-1 .491 .491 .590 .01

-0 .00-0 .000 .001 .590 .00

G~

30.005 .4630.4969.301 .25

-29.90-2 .9830.0566.430 .07

30.005 .4630.4966.431 .25

5

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20.003 .7720.3570.180 .83

R. Coopelan ..

2 .600 .212 .61

0 .01

0 .00-0 .000 .000 .000 .00

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5

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29.902 .9830.058 .850 .07

-19.93-2 .1120.0466.510 .05

20.003 .7720.3566.510 .83

5

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Ralco U2

300 .0011.72300 .2374.6812.82

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Ralco U1

300 .0011.46300 .2274.6812.82

-303 .8572.97312 .4944.930 .79

311 .16-27.33312 .3644.930 .80

-299 .3722.40300 .2172.940 .77

300 .0011.72300 .2372.9412.82

3

-299 .3722.28300 .2072.940 .77

300 .0011.46300 .2272.9412.82

3

11.79-4 .9312.780 .000 .03

-5 .00-1 .935 .3652.920 .05

5 .002 .175 .4552.920 .22

3

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5 .002 .175 .4554.510 .22

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14.00-0 .0014.0065.120 .60

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14.001 .1414.0565.330 .60

-14.000 .4114.0164.990 .05

14.000 .5714.0164.990 .60

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4

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0 .00-0 .000 .000 .000 .00

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5

194 .08-11.17194 .400 .000 .22

-387 .4039.43389 .4153.850 .44

-387 .4039.43389 .4153.850 .44

3

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-74.88-2 .9774.9444.950 .19

75.008 .8575.5244.953 .29

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75.008 .8575.5244.953 .29

3

34

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7 9.854 .7479.9914.720 .20

134 .378 .84

134 .6624.840 .34

-133 .41-10.62133 .8324.840 .34

134 .378 .84

134 .6624.840 .34

-133 .41-10.62133 .8324.840 .34

0 .00-1 .251 .253 .600 .01

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26.327 .7227.4362.050 .24

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0 .00-3 .223 .22

0 .03

15

5 .801 .305 .9414.430 .05

-5 .78-1 .375 .9414.430 .05

22.674 .5423.1278.940 .20

-22.19-3 .8622.5378.940 .20

I. L

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66

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0 .52-0 .010 .52

0 .00

R.

Los

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66

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1

23.045 .4623.68

0 .21

0 .00-0 .000 .000 .000 .00

26.414 .6826.8236.520 .10

-26.33-3 .2626.5336.520 .23

11

52.1719.2255.59101 .410 .21

-52.03-11.2853.24101 .410 .46

3

11

0 .060 .380 .390 .130 .00

-0 .000 .000 .000 .130 .00

2

58.130 .4858.130 .000 .14

83.29-4 .4883.4115.440 .21

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0 .00-0 .000 .000 .000 .00

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5

-29.90-3 .1430.0623.980 .08

30.004 .7830.3823.981 .23

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30.004 .7630.3723.981 .23

1

-38.64-9 .2239.7310.450 .10

38.667 .5539.3910.450 .10

R. Rucue 220 kV0 .470 .040 .48

0 .00

-67.50-14.9369.1318.340 .17

67.798 .3968.3018.340 .17

47.226 .3747.6514.140 .12

-47.12-9 .7348.1214.140 .12

20.66-1 .3420.700 .000 .05

30.00-9 .6131.5041.260 .12

-29.910 .8329.9241.260 .26

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arr

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1 .110 .051 .11

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27.78-0 .8327.7925.370 .10

-27.46-3 .5127.6825.370 .10

80.6324.5284.2772.770 .31

-78.57-22.4281.7172.770 .31

99.546 .7299.7718.290 .25

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0 .00-0 .000 .000 .000 .00

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-0 .00-5 .095 .09

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I. Cholguán 66 kV

0 .000 .000 .00

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1 .170 .361 .22

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9 .00-1 .279 .0923.450 .39

-7 .71-3 .198 .3541.590 .07

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100 .0016.71101 .3983.794 .24

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SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

J1

228

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114.4771.041-4.060

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224.2601.019-2.094

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13.8001.0006.658

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225.4261.025-0.273

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225.4261.025-0.273

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17.9841.07727.778

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67.3091.020-4.453

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229

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227.7341.035-0.447

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11.8781.033

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CER Puerto Montt

-0.0042.5542.55

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0.08-36.5636.5651.240.09

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0


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7.990.428.00

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R. Calbuc..

6.100.326.11

0.03

35.431.5035.4753.780.18

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17.6

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21.6

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2.490.542.55

0.01

7.030.827.0818.200.04

-7.03-0.637.06

18.200.06

0

R. Colaco 66 kV

7.030.637.06

0.06

7 .030 .637 .060 .000 .06

R. Castro 110 kV

8.471.218.55

0.05

R. Pid Pid 110 kV

10.831.5410.94

0.06

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3.80-0.003.8076.000.68

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8.402.408.7482.7312.19

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10.7

32

8.3

20

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0-1

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1.2

2

0.0

3

12

R. Chonchi 24 kV

8.1

31

.16

8.2

1

0.2

0

-3.800.143.8055.590.10

3.80-0.003.8055.590.680-8.40

-1.978.6384.450.22

8.402.408.7484.4512.190

R. Quellon 23 kV

12.411.8412.54

0.32

0.220.100.241.650.00

-0.21-0.010.211.650.01

-1

18.5

12

.66

18.7

04

0.6

90

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0.2

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1.9

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8.1

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8.3

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-8.4

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8.5

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9.6

80

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8.9

00

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8.9

1

0.0

5

18.5

43

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18.9

44

7.7

90

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7

28.140.77

28.1591.610.15

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0.030.180.180.000.00

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0.020.120.120.840.00-0.00-0.000.000.840.00

0

0.000.030.030.830.00-0.00-0.000.000.830.00

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0.000.030.030.830.00-0.00-0.000.000.830.00

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13 -0.00-0.030.030.610.00

13 -0.02-0.120.121.170.00

0

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I. C. Valdivia

0.000.000.00

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0.020.110.110.370.00

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DIg

SIL

EN

T


-----------------------------------------------------------------------------------------------------------------------------------


-----------------------------------------------------------------------------------------------------------------------------------

| |




| |





| Load P(Un-U) = -0.00 MW 0.00 Mvar |


| Grid Losses = 332.66 MW 425.41 Mvar |




| |



| |



| Load/Motor = 0.98 / 0.00 [-] |

|---------------------------------------------------------------------------------------------------------------------------------|


ANEXO IV

ESCENARIO DE DEMANDA MÍNIMA, DICIEMBRE 2012.

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo IV. Página N° 2

PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

incluye Guacolda 5

Tap Castilla113 .5571 .03235.931

13.9741 .00514.542

J219 .6310 .99844.553

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60

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63

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3

J2223 .7281 .01738.545

H

112 .1781 .02033.586

H112 .0191 .01833.366

Vallenar 13.8 kV

13

.39

70

.97

15

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2

Q11.3311 .0304 .492

H

111 .3291 .01233.431

H

111 .5881 .01433.571

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11

1.5

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1.0

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33

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5

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111 .3131 .01233.315

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113 .3131 .03034.492

H

111 .4841 .01332.862

H112 .1171 .01933.792

Vallenar 110..

11

3.1

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1.0

28

37

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3

6 .1760 .9807 .586

H112 .3931 .02233.789

11.8671 .0327 .586

H113 .0091 .02737.241

CER12.9960 .98511.212

C13.1010 .9497 .466

El Salvador 110 kV

105 .9490 .96339.047

113 .3131 .03034.492

112 .7371 .02537.586

J1223 .728

J1229 .670

H1112 .7371 .02537.586

J2229 .6701 .04441.306

113 .7191 .03438.143

H2113 .7191 .03438.143

13.5240 .98049.627

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E223.3901 .01738.545

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223 .7281 .01738.545

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23.3901 .01738.545

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11.4810 .99844.553

P2

10.8990 .94810.701

P1

9 .4970 .82610.701

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16.0171 .0178 .545

13.0340 .98051.147

J

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G210.9510 .95210.702

G110.9510 .95210.702

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1 3.5240 .98051.228

13.5240 .98051.228

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13.1180 .95110.006

J

222 .0951 .01041.193

C2

23

.78

80

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21

0.1

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H110 .7741 .00731.695

Potrerillos 110 kV

107 .9380 .98139.526

H109 .4410 .99540.346

13

.79

41

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03

.78

7

13

.60

00

.98

63

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2.5

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53

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H2113 .3131 .03034.492

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21.8340 .94940.074

H107 .9070 .98139.086

109 .5120 .99640.702

IB109 .5120 .99640.702

230 .5981 .04843.708

J1

230 .5981 .04843.708

-4 .50-0 .444 .528 .160 .02

5 .98-1 .676 .2110.720 .03

13.43-6 .2414.8130.810 .08

-8 .143 .808 .9821.280 .05

10

4.7

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5.1

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10

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5 2.417 .5452.9590.530 .27

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102 .7436.110 .27

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2.7

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2.7

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4.7

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2 .08-1 .012 .313 .090 .01

-2 .08-0 .422 .123 .090 .01

23.156 .4624.0332.040 .13

-22.95-6 .9623.9832.040 .13

1 .57-1 .232 .002 .680 .01

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21.676 .0322.4930.060 .12

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1 .77-1 .012 .043 .660 .01

7 .70-2 .408 .0714.270 .04

0 .00-13.3413.3426.680 .59

0 .00-13.3413.3426.680 .59

0 .00-34.5534.55

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0 .0014.3314.3328.510 .59

-0 .00-13.3413.3428.510 .59

0 .0014.3314.3328.510 .59

-0 .00-13.3413.3428.510 .59

0 .04-5 .605 .605 .860 .01

-0 .005 .895 .895 .860 .24

I. SS/AA D. Almagro

0 .030 .000 .03

0 .00

0 .00-0 .040 .040 .020 .00

-0 .000 .000 .000 .020 .00

114 .5527.31117 .7659.760 .31

90.85-44.08100 .9851.250 .27

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8 .571 .198 .660 .000 .04

38.395 .2538.7564.910 .10

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6.3

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4 .500 .444 .52

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9 .211 .659 .35

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4.1

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13.60-0 .6813.61

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91.1317.6292.8247.130 .24

-90.94-18.4792.8047.130 .24

3.7

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12.433 .8313.01

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0 .070 .010 .07

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0 .000 .000 .00

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3 .650 .493 .68

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110

KV

23.727 .6224.92

0 .13

164 .91-5 .82

165 .0148.610 .41

-163 .977 .54

164 .1448.610 .41

164 .91-5 .82

165 .0148.610 .41

-163 .977 .54

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1 .770 .181 .78

0 .01

28.343 .4028.550 .000 .15

8 .7714.7917.190 .000 .04

17

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1.4

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20

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0 .05

1

19.71-6 .9020.889 .050 .05

-19

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-3.4

41

9.9

69

.05

0.0

5

I. Paipote 110 KV

23.214 .8023.70

0 .12

41.046 .0741.4855.590 .11

-0.0

00

.00

0.0

05

5.5

90

.00

2

0

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Pa

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20

kV

0.0

30

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0.0

3

0.0

0

4 0.41-8 .0341.200 .000 .10

-0 .000 .000 .0050.760 .00

57

.33

13

.67

58

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50

.76

0.1

5

-57.23-9 .4558.0150.760 .31

13 0

69.68-32.9977.1038.690 .20

-68.8325.9573.5638.690 .19

77.1819.7079.660 .000 .42

7 .44-1 .577 .600 .000 .04

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

Tap Romeral105 .9350 .96324.592

S/E Incahuasi

108 .5440 .98729.886

S/E Pajonales

109 .6220 .99731.701

S/E Dos Amigos

110 .4501 .00433.015

S/E Algarrobo

111 .9111 .01735.285

Vicuña

63

.16

20

.95

71

3.8

37

63

.15

00

.95

71

3.9

64

J219 .7520 .99911.477

B165.8510 .998

-18.534

B265.8290 .997

-18.526

E122.9140 .996

-48.536

E222.9050 .996

-48.536

Z0 .6870 .995

161 .481

J219 .7520 .99911.477

J2221 .4361 .007-4 .655

C112.6810 .961-6 .371

E2

2.9

96

1.0

00

43

.40

6

J222 .8841 .013-4 .078

J1221 .436

M113.1670 .954-7 .767

M213.2230 .958-7 .523

Marquesa 66 kV

62

.54

80

.94

81

7.2

42

Mang. Atacama 66 kV

65

.24

30

.98

91

9.8

17

Guayacan 66 kV

65

.24

30

.98

91

9.8

17

J208 .6590 .948

-12.359

65

.75

30

.99

62

0.1

49

6 5.5680 .99315.486

13

.03

90

.98

88

.50

8

Q

11.1551 .0141 .547

H

112 .3301 .02123.589

E23.8591 .03729.334

E23.2311 .010

-19.493

J

221 .2061 .0055 .692

E

23

.86

81

.03

81

7.6

83

B0.1223 .085

219 .7580 .99911.469

J2219 .7580 .99911.469

B0.0223 .0851 .01431.547

221 .0061 .0055 .501

J2221 .0061 .0055 .501

H108 .8190 .98922.475

H107 .2670 .97514.640

22.4170 .975

-16.479

H

11

1.8

97

1.0

17

12

.79

7

Reg 1106 .4180 .96723.014

Reg 2106 .1110 .96516.363

H112 .3191 .02123.573

H110 .9501 .00920.166

H109 .4000 .99511.231

R112 .5821 .023-9 .766

H

10

9.4

47

0.9

95

-11

.27

8

H

106 .0310 .96423.658

C2

23.5951 .026-9 .392

C0 .0000 .0000 .000

C2

13

.46

10

.97

5-3

9.8

21

H

112 .8121 .026-9 .359

C1

13

.45

90

.97

5-3

9.8

78

CER 2

12.5790 .953-6 .609

CER 1

12.5790 .953-6 .609

B

65.8240 .99715.964

C12.5770 .91115.473

B65.7460 .99615.587

J2220 .6881 .003-6 .062

H1108 .4520 .986

-11.754

J2229 .6701 .04441.306

H2113 .7191 .03438.143

J1

220 .470

13.1420 .996

-18.953

65

.67

70

.99

51

1.0

59

J2

220 .4701 .00223.502

J1229 .670

13.1580 .953

-10.063

109 .2900 .99422.699

113 .7191 .03438.143

H2109 .2900 .99422.699

110 .4861 .00412.142

J1220 .688

17.93-15.4923.6930.970.13

-17.6915.2823.3830.970.13

31.91-12.9434.4343.920.18

-29.9513.2432.7443.920.18

33.72-12.2835.8945.330.19

-33.0012.4335.2745.330.19

37.39-12.7539.5148.870.20

-36.4013.0638.6748.870.20

-37.8712.4939.8784.970.21

39.09-11.8240.8484.970.21

34.57-12.1136.6345.920.19

-34.0312.2436.1645.920.19

0.0

2-4

.64

4.6

46

.77

0.0

3

-0.000.000.006.770.00

7.1

6-6

.40

9.6

01

8.9

90

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-7.0

34

.54

8.3

71

8.9

90

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0.9

4-0

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1.0

55

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0.0

1

-0.150.160.223.540.00

-0.0

00

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0.0

01

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0.0

0

9.3

2-0

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9.3

55

0.0

30

.08

-8.9

20

.71

8.9

45

0.0

30

.08

5.5

1-5

.18

7.5

62

6.2

50

.07

-5.3

04

.78

7.1

32

6.2

50

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9.9

7-4

.88

11.1

03

8.3

70

.10

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04

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10.9

43

8.3

70

.10

-16.5

3-3

.61

16.9

23

4.8

60

.09

18.903.2219.1838.990.10

Totoral

0.090.440.450.900.00

-0.09-0.440.450.900.00

0

0.090.420.430.200.00

0

0

-16.317.47

17.948.050.05

-0.0

0-2

.25

2.2

5

0.0

2

1

1

I. S

S/A

A L

as P

alm

as

0 .02-0 .030 .04

0 .00

234 .00-44.60238 .210 .000 .62

79

.26

-20

.13

81

.78

0.0

00

.21

7 5.48-4 .3375.600 .000 .20

35.740.27

35.7416.080.09

0.00-0.030.030.080.00

-0.000.030.030.080.00

0

0.09-0.450.462.040.00

0

58.0725.7963.549.570.16

-57.98-30.8465.679.570.17

8.174.839.4913.190.02

-0.00-0.000.00

13.190.00

4

0

I. MCDA

35.573.53

35.74

1.50

-109.4711.56110.0849.240.29

110.14-12.62110.8649.240.29

-0.000.000.008.970.00

0.02-4.774.778.970.02

-16.39-9.8819.1412.090.10

16.419.9919.218.600.05

8.245.309.79

11.340.03

-8.23-5.149.70

11.340.05

4

0

11.72-17.0920.7227.060.11

-11.5716.8520.4427.060.11

76.469.93

77.1042.230.20

R. Guayacan 66 kV

10.6

73

.09

11.1

1

0.1

0

0.0

0-0

.06

0.0

60

.21

0.0

0

-0.0

0-0

.00

0.0

00

.21

0.0

0

10.7

33

.02

11.1

53

5.1

70

.10

-10.6

7-3

.03

11.0

93

5.1

70

.10

0.00-24.2924.29

0.07

3

76.469.9377.1042.230.20


148.2971.62164.68

0.46

0.8

7-0

.76

1.1

64

.07

0.0

1

-0.87-0.110.884.070.01

-0.00-0.000.00

11.720.008.26

-1.178.35

11.720.02

0

5

G~

G~

G~ -155.4647.45162.5473.580.42

159.18-41.13164.4173.580.43

0.0

0-1

5.7

91

5.7

9

0.3

92

-155.4647.45162.5473.580.42

159.18-41.13164.4173.580.43

G~

-206.9067.92217.7698.230.57

216.39-43.56220.7398.230.58

-206.9067.92217.7698.230.57

216.39-43.56220.7398.230.58

-195.3124.28196.8198.930.51

203.75-6.56

203.8698.930.51

-195.3124.28196.8198.930.51

203.75-6.56

203.8698.930.51

G~

0

-77.41-7.9477.8249.020.40

77.427.9677.8349.020.40

R. El Espino 66 kV

0.010.000.01

0.00


0.09-0.000.09

0.00

I. SS/AA El Peñón

0.06-0.000.06

0.00

SS

/AA

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0.0

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0.0

0

0.0

0

G~

18.604.6919.1885.9426.88G

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18.604.6919.1885.9426.88G

~

20.155.0820.7885.9429.12G

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20.155.0820.7885.9429.12

-77.42-7.9677.8376.210.40

77.4415.9179.0676.211.91

0

0000

G~

G~

18.00-0.0018.0064.5226.19

G~

21.004.06

21.3976.6730.87

G~

21.004.06

21.3976.6730.87

59.900.59

59.9026.640.16

0

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G ~

22.5

07

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23.6

78

7.6

73

4.1

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22.5

07

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23.6

78

7.6

73

4.1

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22.5

07

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23.6

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7.6

73

4.1

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22.507.3523.6787.6734.17

-22.5

0-6

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23.3

48

9.9

50

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22.5

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23.6

78

9.9

53

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23.3

48

9.9

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22.5

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23.6

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9.9

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9.9

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9.9

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9.9

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3.0

80

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195.31-24.26196.8198.330.51

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14.324.14

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1.440.111.44

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0.480.260.54

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1.830.311.85

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1.100.511.21

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DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:

Graphic: _05-Colbun

Date: 9/9/2013

Annex:

J1

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R. Colbun 220 kV

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DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

tercer transf ormador

incluido

1 x 76 MVA



Lo Aguirre224 .2281 .019-9 .234

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T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

231 .0991 .0504 .761

B64.3160 .9740 .044

J1

228 .6061 .0398 .371

J224 .3661 .0202 .062

B1

17.6400 .98014.693

C1

13.6641 .0353 .259

C

6 .2111 .035

-26.741

J

227 .7311 .0353 .259

228 .6061 .0398 .371

B

66.4701 .007-2 .586

B66.3741 .0060 .336

B65.7360 .9960 .286

B65.8450 .9980 .361

C12.7540 .966-1 .729

B

64.2930 .9740 .028

B

65.4700 .9921 .048

B65.4660 .9921 .051

B

64.4530 .9770 .562

B

64.4520 .9770 .563

B

65.4680 .9921 .046

C3

0.0

00

0.0

00

0.0

00

TV

10.0580 .95833.154

110 .2921 .0033 .157

B1

10

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61

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45

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10.0640 .95833.155

L

15.0181 .00134.281

J

230 .3071 .0474 .282

P

10.9630 .95334.280

J

230 .3071 .0474 .282

P311.5381 .003

-26.838

M13.5480 .982

-14.816

B

65

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80

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61

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B64.8010 .98216.227

C20 .4111 .027

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230 .3071 .0474 .282

230 .3071 .0474 .282

J1230 .3071 .0474 .282

C2

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40

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3-2

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01

Gen 5-6

13.2740 .962

-24.769

A160 .0731 .0395 .249

B65.4650 .9921 .051

B

C213.3460 .967

-22.597

C113.3860 .97010.786

C113.5240 .9807 .643

C112.9490 .981

-27.157

C213.2480 .96010.946

B164.2190 .973-4 .943

C113.2480 .96010.946

A158 .3751 .0283 .162

P211.5381 .003

-26.838

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13.2480 .96020.453

C413.6240 .987

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C2

13.5240 .9808 .277

C113.5240 .9808 .274

J

228 .6511 .0395 .374

C

23.6121 .027

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C3

13.6240 .987

-22.883

C213.6240 .9877 .117

B65.5850 .9941 .101

C113.8001 .00012.739

C213.5240 .9807 .625

B64.9710 .984-5 .236

B

65.0480 .986-4 .175

B

65.5240 .993-3 .730

B67.2081 .0181 .761

B155 .3901 .0091 .594

A155 .3441 .0091 .599

M213.6490 .9895 .433

J228 .4701 .0385 .433

C2

13.6480 .98935.434

C1

13.6480 .9895 .434

J228 .4561 .0385 .434

13.3860 .97011.416

13.3860 .97011.391

J1 232 .478

226 .0011 .0279 .283

J1

226 .0011 .0279 .283

13.9381 .0103 .550

13.5240 .9809 .252

13.2740 .962

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K1509 .473

K2509 .4731 .0190 .868

J2 232 .4781 .0576 .761

66.0751 .0010 .511

66.6331 .010-2 .465

14

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31

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80

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4.1

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2 28 .3161 .0385 .458

J1228 .3161 .0385 .458

158 .3781 .0283 .162

232 .7441 .0587 .117

A1

158 .3781 .0283 .162

13.2001 .0003 .476

J1232 .7441 .0587 .117

3

233 .6081 .0627 .404

-71.69-30.5477.9320.050 .20

72.4724.7276.5733.340 .19

-110 .6325.42113 .5117.280 .28

88.03-32.1593.7213.450 .24

-49.14-16.2151.759 .670 .13

49.1912.5850.779 .670 .13

63.290 .7563.3012.030 .16

-62.97-14.5864.6312.030 .16

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24.00-7 .5125.1574.851 .10

0

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1 .00-0 .001 .0010.670 .04

R. Cholguán 220 kV

4 .190 .204 .19

0 .01

I. Cholguan 220 kV

9 .591 .809 .76

0 .02

0 .000 .000 .00

0 .00

2

-0 .970 .080 .978 .720 .01

0 .98-0 .020 .988 .720 .03

3R. Cabrero 66 kV

10.121 .5210.23

0 .09

71.6930.5477.93

0 .20

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Santa María

350 .00-28.76351 .1875.0411.49

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174 .67-34.62178 .070 .000 .45

I. Duqueco 66 kV

1 .950 .462 .00

0 .02

R. Duquec..

2 .200 .522 .26

0 .02

I. P

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0 .000 .000 .00

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I. El Avellano

1 .660 .641 .78

0 .02

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2 .721 .052 .91

0 .03

0 .000 .000 .00

0 .00

12

4 .381 .654 .6811.840 .04

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I. M

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12.543 .1712.9344.250 .12

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0

12.543 .1712.9434.360 .12

I. Fibranova

0 .000 .000 .00

0 .00

0 .00-0 .140 .140 .300 .00

-0 .000 .000 .000 .300 .00

I. Laja 66 kV

0 .010 .000 .01

0 .00

0 .01-0 .050 .050 .180 .00

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R. Laja 66 kV

2 .360 .502 .42

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-173 .5931.81176 .4833.120 .44

174 .67-34.62178 .0733.120 .45

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174 .67-34.62178 .0733.120 .45

0 .030 .020 .030 .030 .00

-0 .03-0 .150 .150 .030 .00

0 .07-1 .421 .420 .260 .00

-0 .07-0 .440 .440 .260 .00

161 .61-20.38162 .890 .000 .41

463 .13-151 .57487 .300 .001 .22

I. SSAA Charrúa

0 .170 .010 .17

0 .00

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0 .220 .000 .22

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0 .220 .000 .220 .260 .00

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5

-3 .77-1 .994 .268 .950 .04

3 .771 .994 .268 .950 .04

R. Charrúa 66 kV

1 .510 .341 .55

0 .01

21.995 .1122.5886.690 .20

-21.69-4 .7722.2186.690 .20

2 .41-0 .062 .418 .870 .02

-2 .37-0 .452 .428 .870 .02

0 .00-0 .120 .120 .470 .00

-0 .00-0 .000 .000 .470 .00

-103 .04-16.63104 .3719.270 .26

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100 .006 .38

100 .2041.754 .32

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30.00-24.5138.7441.661 .65

0 .000 .000 .00

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75.006 .0275.2447.033 .28

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0 .090 .530 .540 .720 .00

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24.00-7 .5125.1576.211 .10

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20.00-5 .6320.7854.680 .89

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20.00-5 .6420.7854.680 .89

54.21-31.4462.6716.660 .16

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-19.946 .8921.1049.500 .05

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-3 .77-1 .844 .198 .810 .04

3 .771 .674 .138 .810 .04

I. B

uca

lem

u 6

6 k

V1 .230 .111 .23

0 .01

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100 .0015.06101 .1396.074 .23

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30.00-24.7338.8841.811 .66

8 .331 .168 .4121.620 .08

-8 .32-1 .028 .3821.620 .07

10

0 .010 .060 .070 .660 .00

-0 .000 .000 .000 .660 .00

3

CC

EE

Ang

ol

66 k

V 1

x2

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VA

r

0 .000 .000 .00

0 .00

1

R.

An

gol

66

kV

6 .351 .346 .49

0 .06

8 .431 .078 .4929.660 .08

-8 .33-1 .168 .4129.660 .08

I. Renaico 66 kV

0 .00-0 .000 .00

0 .00

8 .481 .018 .5429.560 .08

-8 .43-1 .078 .4929.560 .08

R. Negrete 66 kV

5 .221 .395 .40

0 .05

-7 .58-1 .187 .6742.300 .07

7 .771 .027 .8442.300 .07

I. S

anta

Fe 1

54 k

V

0 .000 .000 .00

0 .00

I. L

os

An

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les

15

4 k

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0 .000 .000 .00

0 .00

0 .00-1 .581 .581 .630 .01

-0 .000 .000 .001 .630 .00

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0 .00-0 .000 .000 .000 .00

-0 .00-0 .000 .000 .000 .00

5

G~

G~

R. Coopelan ..

1 .370 .111 .37

0 .00

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

5

0 .00-1 .501 .500 .450 .00

-0 .000 .000 .000 .450 .00

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

5

G~

Ralco U2

100 .00-33.28105 .3926.224 .55

G~

Ralco U1

100 .00-33.72105 .5326.254 .55

-110 .5825.38113 .4517.270 .28

111 .58-45.14120 .3717.270 .31

-99.8038.45106 .9525.920 .27

100 .00-33.28105 .3925.924 .55

3

-99.8038.85107 .1025.950 .27

100 .00-33.72105 .5325.954 .55

3

11.77-6 .7013.550 .000 .03

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5 .002 .025 .3953.410 .22

3

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5 .002 .025 .3953.940 .22

G~

14.00-0 .0014.0065.120 .60

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14.00-0 .9714.0365.270 .60

-14.001 .4714.0864.980 .05

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-14.001 .4714.0864.980 .05

14.00-0 .4914.0164.980 .60

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G~

G~

0 .00-0 .000 .000 .000 .00

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151 .20-11.70151 .650 .000 .17

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-301 .0539.19303 .5941.710 .34

3

-0.0

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1.7

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-602 .0978.38607 .1741.710 .69

3

-74.89-0 .1774.8944.790 .19

75.006 .0275.2444.793 .28

3

-74.89-0 .1774.8944.790 .19

75.006 .0275.2444.793 .28

3

41

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1.1

94

1.3

50

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0.1

0

6 7.10-2 .0367.1312.280 .17

90.996 .2391.2016.880 .23

-90.55-12.8491.4616.880 .23

90.996 .2391.2016.880 .23

-90.55-12.8491.4616.880 .23

0 .00-1 .211 .213 .550 .01

-0 .00-0 .000 .003 .550 .00

12.344 .7213.2130.330 .12

-12.31-4 .7113.1830.330 .12

-0 .00-0 .210 .21

0 .00

1

4 .150 .904 .2510.300 .04

-4 .14-0 .984 .2610.300 .04

13.882 .4814.1048.070 .12

-13.70-2 .4013.9148.070 .12

I. L

os

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ge

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66

kV

0 .07-0 .000 .07

0 .00

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Los

An

ge

les

66

kV

1

11.672 .7711.99

0 .10

0 .000 .000 .000 .000 .00

12.393 .8212.9717.790 .05

-12.34-3 .3012.7717.790 .11

8

29.848 .6631.0856.210 .12

-29.77-6 .1430.4056.210 .26

3

7

0 .060 .380 .390 .130 .00

-0 .000 .000 .000 .130 .00

2

31.680 .5731.680 .000 .08

36.48-1 .0536.507 .110 .09

G~

0 .000 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

5

-29.9027.2340.4432.260 .10

30.00-24.7338.8832.261 .66

1

-29.9027.0140.2932.140 .10

30.00-24.5138.7432.141 .65

1

-14.3417.6522.746 .420 .06

14.34-19.3724.106 .420 .06

R. Rucue 220 kV0 .240 .020 .24

0 .00

-43.6922.4149.1014.110 .12

43.84-29.7953.0014.110 .13

-1 .371 .401 .951 .570 .00

1 .37-5 .115 .291 .570 .01

45.21-34.8957.110 .000 .14

20.854 .2521.2829.510 .08

-20.78-3 .0621.0029.510 .19

-0.0

0-0

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0.0

02

9.5

10

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2

7

R.

Ch

arr

úa

15

4 k

V

0 .580 .030 .58

0 .00

27.78-2 .9427.9425.130 .10

-27.46-1 .4827.5025.130 .10

42.799 .1643.7637.700 .16

-42.24-10.9043.6237.700 .16

49.692 .5649.759 .130 .12

-49.66-5 .0449.919 .130 .12

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

3

0 .00-0 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

3

0 .000 .000 .000 .000 .00

9

0 .000 .000 .000 .000 .00

0

-0 .00-0 .000 .0020.820 .00

-71.33-35.9679.8820.820 .29

-0 .00-0 .000 .0020.820 .00

0

9

0 .090 .300 .310 .290 .00

-0 .09-0 .530 .540 .290 .00

0 .000 .000 .00

0 .00

15

2.8

14

1.5

86

7.2

10

.00

0.2

5

CCEE Cholguan 13...

0 .000 .000 .00

0 .00

1

I. Cholguán 66 kV

0 .000 .000 .00

0 .00

R. Cholguán 66 kV

1 .120 .341 .17

0 .05

G~

9 .001 .629 .1423.600 .40

-7 .77-1 .027 .8439.920 .07

-0.0

0-0

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0.0

03

9.9

20

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7 .881 .277 .9839.920 .35

12

0 .330 .000 .33

0 .00

49

.69

2.5

64

9.7

50

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0.1

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4 9.692 .5649.759 .130 .12

-49.66-5 .0449.919 .130 .12

0 .000 .000 .000 .000 .00

-0 .000 .000 .000 .000 .00

3

-99.71-5 .1399.8483.580 .25

100 .0015.06101 .1383.584 .23

3

-99.84-0 .0999.8435.620 .25

100 .006 .38

100 .2035.624 .32

2

31

.68

0.5

73

1.6

80

.00

0.0

8

-0 .980 .020 .9840.130 .03

1 .00-0 .001 .0040.130 .04

0

DIg

SIL

EN

T


PowerFactory 14.1.2

CDEC-SIC


Project:


Date: 9/9/2013

Annex:

J1

231

.70

2

J2

231

.70

21

.05

31

.38

6

B1

23.3

39

1.0

15

-33.0

40

230.8251.0493.999

HI

114.3711.040-0.527

J2226 .067

J1

226.0671.0281.305

E2

23.5351.023

-30.271

13.7690.9980.638

229.4831.0430.638

G2

13.8001.00010.018

G1

13.8001.00010.018

226.8581.0313.122

J1

226.8581.0313.122

B267.9821.030-1.132

13.6

08

0.9

86

-31.2

64

B1

17.3771.04131.276

J1226.067

J2226.067

1.0281.305

H

113.3801.031-1.791

H

113.2341.029-1.907

H

112.9751.027-2.156

13.7

29

0.9

95

-30.4

62

B1

67.6641.025-2.988

H

107

.32

70

.97

6-6

.84

9

X3.1920.967

-39.679

X0.4041.011

-39.679

X

0.4

36

1.0

50

-0.5

53

R

E

22.3

45

0.9

72

-1.8

11

H

106.1050.965-7.576

E

23.4

32

0.9

76

-37.3

72

22.2470.967

-39.679

HR111.1191.010-4.576

H111.6211.015-3.040

E

23.8

58

1.0

37

-1.0

72

0.4111.027-1.866

Z1

0.4111.027-1.866

E23.6231.027

-31.866

H1

14

.10

61

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7-1

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2

230

.34

51

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70

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1

J2

230

.34

51

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70

.18

1

67.9431.029-1.865

B467.8721.028-1.948

68.6041.039-1.503

B165.8400.998-1.438

230

.30

71

.04

74

.28

2

230

.30

71

.04

74

.28

2

J1

230

.30

71

.04

74

.28

2

Central Valdivia

230.8381.0490.438

B1

12.0411.047

-29.819

Gen Valdivia15.5251.0350.661

B2

12.0411.047

-29.819

B

67.4921.023-1.656

J

227

.03

31

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20

.08

7

J

231

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31

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31

.36

5

68.6131.040-1.481

B1

68.6131.040-1.481

-18.6

6-7

.36

20.0

61

0.4

60

.05

6.84-12.4014.167.150.04

-6.6

6-1

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6.7

81

0.7

60

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23.00-2.6023.1411.680.06

-22.8

63

.27

23.1

01

4.8

80

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23.00-18.4429.4814.880.08

19.0

25

.59

19.8

29

.76

0.0

5

-18.9

1-1

1.8

52

2.3

21

1.0

60

.06

43.8

5-3

2.3

45

4.4

91

0.4

30

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43.8

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45

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91

0.4

30

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G ~

0.1

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Ancud

0.0

00

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0

0

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1

-0.00-0.000.000.050.00

30.52-0.5530.5325.100.15

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50

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30.4

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5.1

00

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-15.260.2715.2625.990.08

-1

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9

-21.08-10.0023.3324.390.57

8

49.206.66

49.6412.490.13

49.196.66

49.6412.490.13


47.3410.8648.57

1.19

G~

0.000.000.000.000.00

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0.220.000.22

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65.00-3.7565.1193.012.72

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0.220.000.22

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65.00-3.7565.1193.012.72

-64.6011.6365.6485.320.17

64.78-3.7564.8985.322.71

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-64.6011.6365.6485.320.17

64.78-3.7564.8985.322.71

1

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64.60-11.6365.6433.020.17

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64.60-11.6365.6433.020.17

2 .625 .576 .150 .000 .02

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9

SVS

CER Puerto Montt

-0.0067.3767.37

2.24

0.00-8.328.3211.570.02

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0


0.00-75.7975.79

2.52

1

R.

Em

palm

e 1

10

kV

10.470.55

10.48

0.05

2.90-0.692.985.950.02

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30.3

8-0

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30.3

84

5.5

00

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R. Calbuc..

2.890.152.90

0.01

16.810.0216.8225.360.09

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8.0

80

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8.1

10

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0.0

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14.3

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0.3

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7.6

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9.8

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17.1

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9.8

60

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14.3710.3117.6929.860.04

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1-9

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17.1

22

9.8

60

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-1

33.2

6-2

4.9

34

1.5

71

5.0

40

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3.800.823.89

0.01

3.900.413.929.980.02

-3.90-0.353.919.980.03

0

R. Colaco 66 kV

3.900.353.91

0.03

3 .900 .353 .910 .000 .03

R. Castro 110 kV

4.180.604.22

0.02

R. Pid Pid 110 kV

4.240.604.28

0.02

G~

Quellón II

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Chiloé

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14.0

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14.0

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14.1

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6.4

91

8.7

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11.8

1-2

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12.0

93

1.9

00

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-1

-0.0

0-1

.25

1.2

5

0.0

3

12

R. Chonchi 24 kV

3.6

30

.52

3.6

7

0.0

9

0.000.000.000.000.00

-0.00-0.000.000.000.0000.00

-0.000.000.000.00

-0.000.000.000.000.000

R. Quellon 23 kV

6.721.006.79

0.18

6.751.346.88

46.590.04

-6.72-1.006.79

46.590.18

-1

7.6

60

.98

7.7

21

7.3

00

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6.8

2-0

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6.8

41

4.9

70

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14.970.04

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30

.73

3.7

11

2.6

70

.09

3

-10.5

10

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10.5

52

3.9

00

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R. Ancud 110 kV

5.0

50

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5.0

6

0.0

3

7.6

61

.19

7.7

61

9.1

10

.04

9

12.860.09

12.8641.650.07

-12.7

1-1

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12.7

94

1.6

50

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6.84-28.2429.0619.480.07

0.030.180.180.000.00

G~

G~

0.020.120.120.840.00-0.000.000.000.840.00

0

0.000.030.030.830.00-0.000.000.000.830.00

0

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0.000.030.030.830.00-0.000.000.000.830.00

0

-0.00-0.030.030.610.00

13 -0.00-0.030.030.610.00

13 -0.02-0.120.121.170.00

0

5.947.259.37

12.360.02

-5.88-23.8924.6012.360.06

I. C. Valdivia

0.000.000.00

0.00

G~

G~

0.000.000.000.000.00

-0.00-0.000.000.000.00

3

0.000.000.000.000.00

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0.020.110.110.370.00

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0

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28.5

50

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28.5

53

8.2

10

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-28.481.1028.5038.210.24

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25.4

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26.3

43

4.8

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0

0

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rap

én 1

10

kV

0.0

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0.0

7

0.0

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Trapen N4

G~

Trapen N3

G~

Trapen N2

G~

Trapen N1

0.0

00

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0.0

00

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0.0

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0.0

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0.0

0

30

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0.0

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0.0

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0.0

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0.0

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0.0

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0.0

00

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0.0

0

30

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-0.0

00

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0.0

00

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-0.0

00

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0.0

00

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0.0

0

3

-16.8

3-4

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17.3

88

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16.8

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16.8

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0.0

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0.0

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0.0

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0.0

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1

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0 .00-0 .000 .000 .000 .00

161 .61-20.38162 .890 .000 .41

463 .13-151 .57487 .300 .001 .22

25

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13

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28

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0.0

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2-3

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33.1

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4.4

40

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2.00-7.447.712.240.02

0.0

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0.0

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Valdivia

2.00-7.347.608.690.28

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2.00-7.347.608.160.28

0

0.000.000.000.000.00

-0.000.000.000.000.00

0

-15.260.2715.2625.990.08

-1

10

19.840.0719.8433.240.05

-19.810.92

19.8333.240.17

10

17.774 .3918.310 .000 .15

17.887.92

19.5632.550.05

-17.85-7.1519.2332.550.16

0

DIg

SIL

EN

T


-----------------------------------------------------------------------------------------------------------------------------------


-----------------------------------------------------------------------------------------------------------------------------------

| |




| |





| Load P(Un-U) = -0.00 MW 0.00 Mvar |


| Grid Losses = 211.09 MW -1071.36 Mvar |




| |



| |



| Load/Motor = 0.98 / 0.00 [-] |

|---------------------------------------------------------------------------------------------------------------------------------|


ANEXO V

RESULTADOS DEL CÁLCULO DE LOS TIEMPOS CRÍTICOS DE DESPEJE DE FALLAS TRIFÁSICAS.

ESCENARIO DE DEMANDA MÁXIMA, JUNIO 2013

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo V. Página N° 2

Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]

Scc2 [MVA] Barra cc cc iest

tfalla [s] tcr [s] t rec [s]

[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

D.Almagro-Reactor 220 kV L2 bajo flujo

PEC2-Las Palmas bajo flujo

Polpaico - El Manzano 220kV C2 línea corta

Tap El Manzano - El Manzano 220kV L2

bajo flujo

Tap Lampa - Lampa 220kV L2 línea corta

C. Candelaria - Candelaria 220 kV L2 bajo flujo

CCEE Candelaria - Candelaria 220 kV C2

bajo flujo

La Candelaria - Minero 220 kV L2 línea corta

Maipo - Alto Jahuel 220 kV C2 línea corta

Quillota - San Luis 220kV - L2 línea corta

Chena - Tap Chena 220 kV - L2 línea corta

Cerro Navia - Arra. Chena 220 kV - L2 línea corta

Cerro Navia - Alto Melipilla 220 kV L2 línea corta


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Bypass Cerro Navia 220 kV L2 bajo flujo

Ancoa - Reactor 500 kV L2 línea corta

Charrúa - Reactor 500 kV L2 línea corta

Puente CCEE Ancoa - Charrua 500 kV L2

bajo flujo

Alto Jahuel - Reactor 500 kV L2 línea corta


Puente CCEE Ancoa - A. Jahuel 500 kV L2

bajo flujo

Nehuenco I - San Luis 220kV L2 bajo flujo

Nehuenco II - San Luis 220kV L2 bajo flujo

Tap Alto Melipilla - Melipilla 220kV-2 bajo flujo

El Toro - Antuco 220 kV L2 línea corta

Temuco - Valdivia 220 kV L2 Route 1 línea corta

Barro Blanco-Puerto Montt Route 2 bajo flujo


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Valdivia - P.Montt 220 kV L2 Route 2 línea corta

Temuco - Cautín 220 kV C2 línea corta

Puerto Montt - Melipulli 220 kV L2 línea corta

Maitencillo - Cardones 220kV L2 1 108 111 1285 2259 S/E Maitencillo/J2 3 0 0.01 0.300 9999 -5.4206 711 9207 8 -inf

Maitencillo - Cardones 220kV L2 2 108 111 1285 2259 S/E Maitencillo/J2 3 0 0.01 0.200 9999 -0.2916 711 9207 8 -22

Maitencillo - Cardones 220kV L2 3 108 111 1285 2259 S/E Maitencillo/J2 3 1 0.01 0.194 9999 0.0199 711 9207 8 0

tcr converge a 0.194677 luego de 3 iteraciones

Guacolda - Maitencillo 220 kV C2 1 144 143 2497 2259 Central Guacolda/J2 3 0 0.01 0.300 9999 -5.9248 711 9207 8 -552


Guacolda - Maitencillo 220 kV C2 3 144 143 2497 2259 Central Guacolda/J2 3 1 0.01 0.179 9999 1.0189 711 9207 8 0



Ventanas - Nogales 220 kV C2 1 165 164 5927 6803 Nogales/J1 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Ventanas - Nogales 220 kV C2 1 165 164 5927 6803 Nogales/J1 3 0 0.01 0.300 9999 -2.4115 663 9255 12 -293


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]






Punta Colorada - Maitencillo 220kV C2 1 14 14 1567 2259 S/E Maitencillo/J2 3 0 0.01 0.30000 9999 -5.4722 711 9207 8

-602381091

Punta Colorada - Maitencillo 220kV C2 2 14 14 1567 2259 S/E Maitencillo/J2 3 0 0.01 0.200 9999 -0.0040 711 9207 8 0


Los Vilos - Las Palmas L2 1 155 151 2200 1633 S/E Los Vilos/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0


Nogales - Los Vilos 220 kV C2 1 177 171 6803 2200 Nogales/J1 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Nogales - Los Vilos 220 kV C2 1 177 171 6803 2200 Nogales/J1 3 0 0.01 0.300 9999 -1.6756 663 9255 12 -184



Tiempo crítico > 120 ms


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Pan de Azucar - Tap Talinay L2 1 144 149 1439 1234 S/E Pan de Azucar/J2 3 1 0.01 0.300 0 0.0000 9832 86 8 0


Pan de Azúcar - Punta Colorada 220kV C2 1 37 37 1567 1439

S/E Punta Colorada/B0.0 3 1 0.01 0.300 0 0.0000 9908 10 8 0


S/E Punta Colorada/B0.0 3 1 0.01 0.300 9999 1.9978 711 9207 12 0

Quillota - Nogales 220 kV C2 1 13 13 6790 6803 Nogales/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Quillota - Nogales 220 kV C2 1 13 13 6790 6803 Nogales/J2 3 0 0.01 0.300 9999 -1.9584 663 9255 12 -226




Tap MR - Las Palmas L2 1 150 151 1355 1633 Las Palmas/J2 3 1 0.01 0.300 0 0.0000 9852 66 8 0

Tap MR - Las Palmas L2 1 150 151 1355 1633 Las Palmas/J2 3 1 0.01 0.300 9999 -3.7832 10 9908 12 0

Quillota - Los Piuquenes 220 kV L2 1 76 74 6790 1125 S/E Quillota/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0


Alto Jahuel - Los Almendros 220kV - L2 1 114 113 7552 4590 S/E Alto Jahuel/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0


Tap El Manzano - El Salto 220kV C2 1 118 119 4839 6115 TapEl Manzano T41 L2 3 1 0.01 0.300 0 0.0000 9908 10 8 0


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Tap El Manzano - El Salto 220kV C2 1 118 119 4839 6115 TapEl Manzano T41 L2 3 1 0.01 0.300 9999 0.2671 9207 711 12 0

Colbun - La Candelaria 220 kV L2 1 227 235 931 3092 Central Colbún/3 3 0 0.01 0.300 9999 -6.6927 606 9312 8 -533


Colbun - La Candelaria 220 kV L2 3 227 235 931 3092 Central Colbún/3 3 1 0.01 0.17178 9999 0.5656 606 9312 8 0






La Candelaria - Maipo 220 kV L2 1 115 115 7498 4346 S/E Maipo/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0

La Candelaria - Maipo 220 kV L2 1 115 115 7498 4346 S/E Maipo/J2 3 1 0.01 0.300 9999 -0.2094 9207 711 12 0

Polpaico - Quillota 220 kV C2 1 37 37 8096 6790 S/E Polpaico/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Polpaico - Quillota 220 kV C2 1 37 37 8096 6790 S/E Polpaico/J2 3 1 0.01 0.300 9999 -4.5041 662 9256 12 0

Cerro Navia - Polpaico 220 kV - L2 1 151 149 8096 4283 S/E Polpaico/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Cerro Navia - Polpaico 220 kV - L2 1 151 149 8096 4283 S/E Polpaico/J2 3 1 0.01 0.300 9999 -4.4777 662 9256 12 0


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Alto Jahuel - Arra. Chena 220 kV L2 1 134 133 7552 6719 S/E Alto Jahuel/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0


Alto Jahuel - Chena 220 kV C2 1 108 108 7552 6767 S/E Alto Jahuel/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Alto Jahuel - Chena 220 kV C2 1 108 108 7552 6767 S/E Alto Jahuel/J2 3 1 0.01 0.300 9999 -0.2220 9207 711 12 0

Ancoa - Charrua 500kV L2 1 1009 1029 14931 9069 CCEE Ancoa - Charrua L2 3 0 0.01 0.300 9999 -6.1805 9197 721 8 -inf

Ancoa - Charrua 500kV L2 2 1009 1029 14931 9069 CCEE Ancoa - Charrua L2 3 1 0.01 0.200 9999 -0.3037 9197 721 8 0




Ancoa - Itahue 220 kV L2 1 36 35 5078 3040 S/E Ancoa/J2 3 0 0.01 0.300 9999 -4.5143 620 9298 8 -737

Ancoa - Itahue 220 kV L2 2 36 35 5078 3040 S/E Ancoa/J2 3 1 0.01 0.200 9999 4.0287 620 9298 8 0






Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Alto Jahuel - Ancoa 500 kV L2 1 811 828 8855 10422 CCEE Ancoa - Alto Jahuel L2 3 0 0.01 0.300 9999 -5.9265 9069 849 8 -4307

Alto Jahuel - Ancoa 500 kV L2 2 811 828 8855 10422 CCEE Ancoa - Alto Jahuel L2 3 0 0.01 0.200 9999 -0.0000 9069 849 8 0


Ancoa - Pehuenche 220 kV - L2 1 266 267 5078 4382 S/E Ancoa/J2 3 0 0.01 0.300 9999 -4.7880 620 9298 8 -938

Ancoa - Pehuenche 220 kV - L2 2 266 267 5078 4382 S/E Ancoa/J2 3 1 0.01 0.200 9999 1.7510 620 9298 8 0




Nogales - Polpaico 220 kV C2 1 25 25 6803 8096 S/E Polpaico/J2 3 1 0.01 0.300 0 0.0000 9908 10 8 0


Polpaico - A.Jahuel 500 kV L2 1 622 625 7911 8855 Alto Jahuel/K2 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Polpaico - A.Jahuel 500 kV L2 1 622 625 7911 8855 Alto Jahuel/K2 3 0 0.01 0.300 9999 -0.7126 9207 711 12 -294



Polpaico - A.Jahuel 500 kV L2 4 622 625 7911 8855 Alto Jahuel/K2 3 1 0.01 0.26777 9999 -0.4108 9207 711 12 0



Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Cerro Navia - Alto Melipilla 220 (1) 1 82 82 5563 2403 Lo Aguirre 3 1 0.01 0.300 0 0.0000 9908 10 8 0

Cerro Navia - Alto Melipilla 220 (1) 1 82 82 5563 2403 Lo Aguirre 3 1 0.01 0.300 9999 -0.5180 9207 711 12 0

Antuco - Charrua 220 kV L2 1 236 233 5735 11330 S/E Charrua/J2 3 0 0.01 0.300 9999 -0.0341 19 9899 8 -10

Antuco - Charrua 220 kV L2 2 236 233 5735 11330 S/E Charrua/J2 3 1 0.01 0.200 9999 0.0461 19 9899 8 0




Charrúa - Ralco 220 kV L2 1 194 197 11330 4144 S/E Charrua/J3 3 0 0.01 0.300 9999 -0.0347 19 9899 8 -10

Charrúa - Ralco 220 kV L2 2 194 197 11330 4144 S/E Charrua/J3 3 1 0.01 0.200 9999 0.0436 19 9899 8 0




Charrúa - Santa María 220 kV C2 1 183 185 11330 4498 S/E Charrua/J3 3 0 0.01 0.300 9999 -0.0339 19 9899 8 -9

Charrúa - Santa María 220 kV C2 2 183 185 11330 4498 S/E Charrua/J3 3 1 0.01 0.200 9999 0.0458 19 9899 8 0





Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]



[%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Charrúa - Cautín 220 kV C2 1 68 68 11330 5088 S/E Charrua/J1 3 0 0.01 0.300 9999 -0.0336 19 9899 8 -9

Charrúa - Cautín 220 kV C2 2 68 68 11330 5088 S/E Charrua/J1 3 1 0.01 0.200 9999 0.0467 19 9899 8 0




Charrúa - Cautín 220 kV C2(1) 1 80 79 5088 2669 S/E Mulchén/J2 3 1 0.01 0.300 9999 0.6588 351 9567 8 0

Mulchén - Angostura L2 1 148 149 5088 3555 S/E Mulchén/J2 3 1 0.01 0.300 9999 0.1592 351 9567 8 0


ANEXO VI


ESCENARIO DE DEMANDA MÍNIMA, JUNIO 2013


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2

[MVA] Barra cc cc iest tfalla

[s] tcr [s] t rec [s]

[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]

D.Almagro-Reactor 220 kV L2 bajo flujo

Maitencillo -Tap Jorquera 220 kV C2 bajo flujo

Tap Jorquera - Caserones 220 kV C2 bajo flujo



Tap El Manzano - El Manzano 220kV L2 bajo flujo



CCEE Candelaria - Candelaria 220 kV C2 bajo flujo






Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]


Cerro Navia - Alto Melipilla 220 kV L2 línea corta




Puente CCEE Ancoa - Charrua 500 kV L2 bajo flujo




bajo flujo






Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]

Temuco - Valdivia 220 kV L2 Route 1 bajo flujo

Barro Blanco-Puerto Montt Route 2 línea corta

Valdivia - P.Montt 220 kV L2 Route 2 bajo flujo



Guacolda - Maitencillo 220 kV C2 1 144 143 2442 2211 Central Guacolda/J2 3 0 0.01 0.3000 9999 -6.3772 711 7108 8 inf






Tiempo crítico > 120 ms.




Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]









Los Vilos - Las Palmas L2 1 24 24 2207 1658 S/E Los Vilos/J2 3 1 0.01 0.3000 9999 -0.5646 353 7465 12 0





S/E Punta Colorada/B0.0 3 0 0.01 0.3000 9999 -2.0814 711 7108 8 -300


S/E Punta Colorada/B0.0 3 1 0.01 0.2000 9999 -0.2178 711 7108 8 0






Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]







Punta Colorada - Maitencillo 220kV C2 1 60 61 1544 2211 S/E Maitencillo/J2 3 0 0.01 0.3000 9999 -5.9968 711 7108 8 4165

Punta Colorada - Maitencillo 220kV C2 2 60 61 1544 2211 S/E Maitencillo/J2 3 0 0.01 0.2000 9999 -2.0419 711 7108 8 -279

Punta Colorada - Maitencillo 220kV C2 3 60 61 1544 2211 S/E Maitencillo/J2 3 1 0.01 0.1484 9999 0.9100 711 7108 8 0

Punta Colorada - Maitencillo 220kV C2 4 60 61 1544 2211 S/E Maitencillo/J2 3 1 0.01 0.1643 9999 0.3883 711 7108 8 0




Tap El Manzano - El Salto 220kV C2 1 69 70 4395 5539

Polpaico - El Salto 220 kV C2/Tap El Manzano T41 L2 3 1 0.01 0.3000 0 0.0000 7762 56 8 0


Polpaico - El Salto 220 kV C2/Tap El Manzano T41 L2 3 1 0.01 0.3000 9999 1.6701 7108 711 12 0


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]





No se alcanzó a formar el cluster C con Sc < 0.950000 Stotal



Ancoa - Charrua 500kV L2 1 972 992 17601 8116

Charrúa - Ancoa 500 kV - L2/CCEE Ancoa - Charrua L2 3 0 0.01 0.3000 9999 -5.7064 4118 3700 8 -2688


Charrúa - Ancoa 500 kV - L2/CCEE Ancoa - Charrua L2 3 1 0.01 0.2000 9999 0.4803 4118 3700 8 0


Charrúa - Ancoa 500 kV - L2/CCEE Ancoa - Charrua L2 3 0 0.01 0.2078 9999 -0.5087 4118 3700 8 -84


Alto Jahuel - Ancoa 500 kV L2 1 559 568 7553 10650

Ancoa - Alto Jahuel 500 kV - L2/CCEE Ancoa - Alto Jahuel L2 3 0 0.01 0.3000 9999 -5.6246 4118 3700 8 -1882


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]


Ancoa - Alto Jahuel 500 kV - L2/CCEE Ancoa - Alto Jahuel L2 3 1 0.01 0.2000 9999 3.4256 4118 3700 8 0


Ancoa - Alto Jahuel 500 kV - L2/CCEE Ancoa - Alto Jahuel L2 3 0 0.01 0.2379 9999 -0.9728 4118 3700 8 -141


Ancoa - Alto Jahuel 500 kV - L2/CCEE Ancoa - Alto Jahuel L2 3 1 0.01 0.2295 9999 0.3611 4118 3700 8 0


Polpaico - A.Jahuel 500 kV L2 1 406 407 6898 7553 S/E Alto Jahuel/K2 3 1 0.01 0.3000 0 0.0000 7656 162 8 0



Polpaico - Quillota 220 kV C2 1 34 34 7182 6215 S/E Polpaico/J2 3 1 0.01 0.3000 9999 -4.2079 24 7795 12 0


Cerro Navia - Polpaico 220 kV - L2 1 30 30 7182 4004 S/E Polpaico/J2 3 1 0.01 0.3000 9999 -4.2078 24 7795 12 0





Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]





Nogales - Polpaico 220 kV C2 1 21 21 6322 7182 S/E Polpaico/J2 3 1 0.01 0.3000 9999 -4.2076 24 7795 12 0

Cerro Navia - Alto Melipilla 220 (1) 1 59 59 4722 2085 06-Troncal_Qui-Cha/Lo Aguirre 3 1 0.01 0.3000 0 0.0000 7729 90 8 0

Cerro Navia - Alto Melipilla 220 (1) 1 59 59 4722 2085 06-Troncal_Qui-Cha/Lo Aguirre 3 1 0.01 0.3000 9999 0.0752 64 7755 12 0

Antuco - Charrua 220 kV L2 1 114 113 4764 9656 S/E Charrua/J2 3 0 0.01 0.3000 9999 -0.0326 19 7799 8 4








Charrúa - Ralco 220 kV L2 4 379 391 9656 3966 S/E Charrua/J3 3 0 0.01 0.2128 9999 -0.0001 19 7799 8 0



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]



Charrúa - Santa María 220 kV C2 3 183 185 9656 4331 S/E Charrua/J3 3 0 0.01 0.2197 9999 -0.0029 19 7799 8 0

Charrúa - Santa María 220 kV C2 4 183 185 9656 4331 S/E Charrua/J3 3 0 0.01 0.2145 9999 -0.0002 19 7799 8 0




Charrúa - Cautín 220 kV C2 3 104 105 9656 4847 S/E Charrua/J1 3 0 0.01 0.2202 9999 -0.0028 19 7799 8 0

Charrúa - Cautín 220 kV C2 4 104 105 9656 4847 S/E Charrua/J1 3 0 0.01 0.2150 9999 -0.0002 19 7799 8 0


Charrúa - Cautín 220 kV C2(1) 1 43 43 4847 2603 S/E Mulchén/J2 3 0 0.01 0.3000 9999 -0.2468 50 7768 8 -24





Mulchén - Angostura L2 1 148 149 4847 3481 S/E Mulchén/J2 3 0 0.01 0.3000 9999 -2.0073 351 7467 8 -211



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA] Scc2



[%]

Sc [MVA]

Sn [MVA]

Tipo de Cluster

DAG [MW]



Determinación de los parámetros mínimos para la reconexión monopolar y tripolar.

ANEXO VII


ESCENARIO DE DEMANDA MÁXIMA, DICIEMBRE 2012

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo VII. Página N° 2

Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]

Scc2 [MVA] Barra cc Falla iest

tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

D.Almagro-Reactor 220 kV L2 línea corta



Pan de Azucar - Tap MCA L2 línea corta



bajo flujo

Tap Lampa - Lampa 220kV L2 bajo flujo


bajo flujo


La Candelaria - Maipo 220 kV L2 bajo flujo




bajo flujo


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]




bajo flujo





Nehuenco II - San Luis 220kV L2 línea corta






bajo flujo


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Cerro Navia - Alto Melipilla 220 k(1) línea corta


Temuco - Valdivia 220 kV L2 Route 1 línea corta


Valdivia - P.Montt 220 kV L2 Route 2 línea corta



Guacolda - Maitencillo 220 kV C2 1 179 178 3346 2996 Central Guacolda/J2 3 0 0.01 0.3 9999 -8.0612 889 8981 8 -inf


Guacolda - Maitencillo 220 kV C2 3 179 178 3346 2996 Central Guacolda/J2 3 0 0.01

0.113982 9999 -0.1304 889 8981 8 -11


continúa evaluación de TMR...

Guacolda - Maitencillo 220 kV C2 1 179 178 3346 2996 Central Guacolda/J2 3 0 0.01 0.12 0.3 -0.1877 889 8981 8 -16


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


tcr<tfalla (0.01). Se verificará para tcr = tclear_rel + 0.01


Fin verificación

Maitencillo - Cardones 220kV L2 1 54 55 1722 2996

S/E Maitencillo/J2 3 0 0.01 0.3 9999 -6.6666 1318 8552 8 -616


S/E Maitencillo/J2 3 0 0.01 0.2 9999 -3.3288 1318 8552 8 -605


S/E Maitencillo/J2 3 1 0.01

0.100267 9999 -0.5945 1318 8552 8 0



0.078584 9999 -0.2291 1318 8552 8 0



0.064989 9999 0.6968 1318 8552 8 0



0.07522 9999 -0.1775 1318 8552 8 0




Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


S/E Maitencillo/J2 3 0 0.01 0.12 0.3 -0.5093 1318 8552 8 -38


S/E Maitencillo/J2 3 0 0.01 0.12 0.2 -0.4659 1318 8552 8 -35



S/E Maitencillo/J2 3 0 0.01 0.12 0.13 -0.4291 1318 8552 8 -32

Fin verificación



Ventanas - Nogales 220 kV C2 3 228 227 6935 8198 Nogales/J1 3 1 0.01 0.217

689 9999 0.0193 108 9762 8 0


Los Vilos - Las Palmas L2 1 130 133 2917 1992 S/E Los Vilos/J2 3 0 0.01 0.250 9999 -1.5298 108 9762 8 -inf

Los Vilos - Las Palmas L2 2 130 133 2917 1992 S/E Los Vilos/J2 3 0 0.01 0.200 9999 -1.0076 108 9762 8 -574




Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Los Vilos - Las Palmas L2 5 130 133 2917 1992 S/E Los Vilos/J2 3 0 0.01 0.122 9999 -0.0011 108 9762 8 0


Nogales - Los Vilos 220 kV C2 1 192 200 8198 2918 Nogales/J1 3 0 0.01 0.3 9999 -0.4647 108 9762 8 -84


Nogales - Los Vilos 220 kV C2 3 192 200 8198 2918 Nogales/J1 3 1 0.01 0.228

832 9999 0.0279 108 9762 8 0


852 9999 -0.0063 108 9762 8 -1







Punta Colorada - Maitencillo 220kV C2 1 195 204 1830 2996

S/E Maitencillo/J2 3 0 0.01 0.3 9999 -6.7126 1318 8552 8 -1125

Punta Colorada - Maitencillo 220kV C2 2 195 204 1830 2996 Maitencillo/J2 3 0 0.01 0.2 9999 -3.4300 1318 8552 8 -770

Punta Colorada - Maitencillo 220kV C2 3 195 204 1830 2996 Maitencillo/J2 3 0 0.01 0.095 9999 -0.5395 1318 8552 8 -41


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Punta Colorada - Maitencillo 220kV C2 4 195 204 1830 2996 Maitencillo/J2 3 1 0.01

0.076004 9999 0.7725 1318 8552 8 0

Punta Colorada - Maitencillo 220kV C2 5 195 204 1830 2996 Maitencillo/J2 3 0 0.01

0.087488 9999 -0.2113 1318 8552 8 -16



Punta Colorada - Maitencillo 220kV C2 1 195 204 1830 2996 Maitencillo/J2 3 0 0.01 0.12 0.3 -0.8520 1318 8552 8 -65




Fin verificación

Quillota - Los Piuquenes 220 kV L2 1 74 72 8559 1167 S/E Quillota/J2 3 0 0.01 0.300 9999 -0.032727 112 9758 8

-4.067

Quillota - Los Piuquenes 220 kV L2 2 74 72 8559 1167 S/E Quillota/J2 3 1 0.01 0.200 9999 0.060707 112 9758 8 0.000

Quillota - Los Piuquenes 220 kV L2 3 74 72 8559 1167 S/E Quillota/J2 3 1 0.01 0.265 9999 0.111352 112 9758 8 0.000

Tiempo crítico mayor a 120 ms


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Quillota - Nogales 220 kV C2 1 124 125 8559 8196 S/E Quillota/J2 3 0 0.01 0.300 9999 -0.035092 112 9758 8 -4.34

Quillota - Nogales 220 kV C2 2 124 125 8559 8196 S/E Quillota/J2 3 1 0.01 0.200 9999 0.060365 112 9758 8 0.000

Quillota - Nogales 220 kV C2 3 124 125 8559 8196 S/E Quillota/J2 3 1 0.01 0.263 9999 0.120831 112 9758 8 0.000


Tap MR - Las Palmas L2 1 126 125 1584 1993 Las Palmas/J2 3 0 0.01 0.3 9999 -0.2877 108 9762 8 -67


Tap MR - Las Palmas L2 3 126 125 1584 1993 Las Palmas/J2 3 1 0.01

0.224463 9999 0.0467 108 9762 8 0


0.249095 9999 -0.0146 108 9762 8 -2


0.243237 9999 -0.0014 108 9762 8 0



Tap El Manzano T41 L2 3 1 0.01 0.12 0.3 0.0000 9705 165 8 0


Tap El Manzano T41 L2 3 1 0.01 0.3 9999 2.3829 335 9535 12 0



Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]





Ancoa - Charrua 500kV L2 1 574 581 14715 8752 CCEE L2 3 0 0.01 0.12 0.3 0.0000 9793 77 8 0

Ancoa - Charrua 500kV L2 1 574 581 14715 8752 CCEE L2 3 1 0.01 0.3 9999 0.4807 40 9830 12 0










Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]



Ancoa - Pehuenche 220 kV - L2 3 216 217 4959 4331 S/E Ancoa/J2 3 1 0.01

0.229024 9999 0.0143 17 9853 8 0


0.249655 9999 -0.0183 17 9853 8 -3


0.238073 9999 0.0040 17 9853 8 0


Cerro Navia - Polpaico 220 kV - L2 1 176 174 9109 4475 S/E Polpaico/J2 3 1 0.01 0.12 0.3 0.0000 9705 165 8 0


Nogales - Polpaico 220 kV C2 1 297 295 8199 9109 S/E Polpaico/J2 3 1 0.01 0.12 0.3 0.0000 9705 165 8 0


Polpaico - Quillota 220 kV C2 1 240 241 9109 8563 S/E Polpaico/J2 3 1 0.01 0.12 0.3 0.0000 9705 165 8 0


Alto Jahuel - Ancoa 500 kV L2 1 498 505 9029 10623 CCEE L2 3 0 0.01 0.3 9999 0 9793 77 8 0

Alto Jahuel - Ancoa 500 kV L2 1 498 505 9029 10623 CCEE L2 3 1 0.01 0.3 9999 0.272433 40 9830 12 0


Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Polpaico - A.Jahuel 500 kV L2 1 128 128 8252 9031 S/E Alto Jahuel/K1 3 0 0.01 0.12 0.3 0.0000 9793 77 8 0


Cerro Navia - Alto Melipilla 220 (1) 1 54 54 5854 2327 Lo Aguirre 3 1 0.01 0.12 0.3 0.0000 9705 165 8 0


Antuco - Charrua 220 kV L2 1 134 133 5225 9789 S/E Charrua/J2 3 0 0.01 0.3 9999 -0.0455 7 9863 8 -8


Antuco - Charrua 220 kV L2 3 134 133 5225 9789 S/E Charrua/J2 3 1 0.01

0.210656 9999 0.0035 7 9863 8 0


0.230658 9999 -0.0043 7 9863 8 0


0.21967 9999 0.0012 7 9863 8 0




Charrúa - Ralco 220 kV L2 3 304 311 9789 4054 S/E Charrua/J3 3 0 0.01

0.21144 9999 -0.1429 1054 8816 8 -12



Línea Iter. P1

[MW] P2

[MW] Scc1 [MVA]


tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]



Charrúa - Santa María 220 kV C2 3 164 165 9789 4407 S/E Charrua/J3 3 1 0.01

0.210361 9999 0.0034 7 9863 8 0


0.229742 9999 -0.0041 7 9863 8 0


0.219215 9999 0.0012 7 9863 8 0




Charrúa - Cautín 220 kV C2 3 81 79 9789 2559 S/E Charrua/J1 3 1 0.01

0.210485 9999 0.0035 7 9863 8 0


0.230437 9999 -0.0041 7 9863 8 0


0.219601 9999 0.0012 7 9863 8 0



ANEXO VIII


ESCENARIO DE DEMANDA MÍNIMA, DICIEMBRE 2012

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo VIII. Página N° 2

Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA

] Barra cc cc iest tfalla [s]

tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]




Pan de Azucar - Tap MCA L2 línea corta



bajo flujo



bajo flujo

C. Candelaria - Candelaria 220 kV L2

bajo flujo




bajo flujo



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]



bajo flujo

Ancoa - Itahue 220 kV L2 bajo flujo


Cerro Navia - Arra. Chena 220 kV - L2

línea corta









bajo flujo


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Cerro Navia - Alto Melipilla 220 k(1) línea corta


Temuco - Valdivia 220 kV L2 Route 1

línea corta


Valdivia - P.Montt 220 kV L2 Route 2 bajo flujo




0.3000 9999 -6.3036 1312 6671 8

-798453391


0.2000 9999 -3.3173 1312 6671 8 -622


0.0889 9999 0.7484 1312 6671 8 0


0.1094 9999 -0.5580 1312 6671 8 -46


0.1006 9999 0.6771 1312 6671 8 0



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]



0.1200 0.3 -0.8685 1312 6671 8 -74


0.1200 0.2 -0.8418 1312 6671 8 -72



0.1200 0.13 -0.8198 1312 6671 8 -70

Fin verificación

Maitencillo - Cardones 220kV L2 1 47 47 1714 2967 S/E Maitencillo/J2 3 0 0.01

0.3000 9999 -6.1107 1312 6671 8 -519


0.2000 9999 -3.1662 1312 6671 8 -475


0.0925 9999 0.7889 1312 6671 8 0


0.1139 9999 -0.4901 1312 6671 8 -41


0.1057 9999 0.6131 1312 6671 8 0




0.1200 0.3 -0.6414 1312 6671 8 -53


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


0.1200 0.2 -0.6131 1312 6671 8 -51



0.1200 0.13 -0.5866 1312 6671 8 -48

Fin verificación


0 9999 -3.3410 522 7462 8 -610


0 9999 3.4935 522 7462 8 0


1 9999 0.6168 522 7462 8 0


1 9999 -0.8415 522 7462 8 -88


8 9999 0.7652 522 7462 8 0


Los Vilos - Las Palmas L2 1 155 159 2589 1858 Los Vilos/J2 3 0 0.01 0.2 9999 -1.513 192 7792 8 -319

Los Vilos - Las Palmas L2 2 155 159 2589 1858 Los Vilos/J2 3 1 0.01 0.12 9999 0.088 192 7792 8 0



0 9999 -3.1095 522 7462 8 -508


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


0 9999 5.3060 522 7462 8 0


1 9999 -0.4887 522 7462 8 -49


7 9999 0.4613 522 7462 8 0



S/E Punta Colorada/B0.0 3 0 0.01

0.3000 9999 -0.5480 93 7890 8 -156


S/E Punta Colorada/B0.0 3 0 0.01

0.2000 9999 -0.0094 93 7890 8 -1




0.3000 9999 -6.1507 1312 6671 8 -1070



0.2000 9999 -3.3538 1312 6671 8 -541



0.0801 9999 -0.1967 1312 6671 8 -17



0.0726 9999 0.6562 1312 6671 8 0



0.0784 9999 -0.1638 1312 6671 8 -15



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]




0.1200 0.3 -0.9095 1312 6671 8 -77



0.1200 0.2 -0.7318 1312 6671 8 -61




0.1200 0.13 -0.6035 1312 6671 8 -50

Fin verificación

Quillota - Los Piuquenes 220 kV L2 1 76 74 5782 1089 S/E Quillota/J2 3 0 0.01 0.300

0 9999 -0.1442 108 7875 8 -21


0 9999 0.4152 108 7875 8 0


2 9999 -0.0013 108 7875 8 0


Quillota - Nogales 220 kV C2 1 109 110 5782 5729 S/E Quillota/J2 3 0 0.01 0.300

0 9999 -0.1441 108 7875 8 -21


0 9999 0.4050 108 7875 8 0


8 9999 0.0158 108 7875 8 0



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Tap MR - Las Palmas L2 1 152 151 1502 1859 Las Palmas/J2 3 0 0.01 0.300

0 9999 -0.4962 108 7875 8 -107


0 9999 0.0446 108 7875 8 0


3 9999 0.0245 108 7875 8 0


3 9999 -0.0051 108 7875 8 -1



Polpaico - El Salto 220 kV C2/Tap El Manzano T41 L2 3 1 0.01

0.3000 9999 0.2121 108 7875 8 0

Alto Jahuel - Los Almendros 220kV - L2 1 32 32 6146 3910

S/E Alto Jahuel/J2 3 0 0.01

0.3000 9999 -0.1930 30 7953 8 -44



0.2000 9999 0.3070 30 7953 8 0



0.2614 9999 -0.0851 30 7953 8 0



0.2481 9999 0.0699 30 7953 8 0



0.2541 9999 0.0280 30 7953 8 0



Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


La Candelaria - Maipo 220 kV L2 1 60 60 6108 3666 S/E Maipo/J2 3 0 0.01 0.300 9999 -0.1819 30 7953 8 -38


La Candelaria - Maipo 220 kV L2 3 60 60 6108 3666 S/E Maipo/J2 3 1 0.01 0.262 9999 -0.0416 30 7953 8 0



Ancoa - Charrua 500kV L2 1 448 452 17802 7961 CCEE Ancoa - Charrua L2 3 1 0.01 0.300 9999 0.0000 7872 111 8 0

Ancoa - Charrua 500kV L2 1 448 452 17802 7961 CCEE Ancoa - Charrua L2 3 1 0.01 0.300 9999 0.0000 7949 34 12 0

Tiempo crítico mayor a 0.12 s

Alto Jahuel - Arra. Chena 220 kV L2 1 39 39 6146 5617 Alto Jahuel/J2 3 0 0.01 0.300 9999 -0.1931 30 7953 8 -44

Alto Jahuel - Arra. Chena 220 kV L2 2 39 39 6146 5617 Alto Jahuel/J2 3 1 0.01 0.200 9999 0.3106 30 7953 8 0

Alto Jahuel - Arra. Chena 220 kV L2 3 39 39 6146 5617 Alto Jahuel/J2 3 1 0.01 0.261 9999 -0.0746 30 7953 8 0




Alto Jahuel - Chena 220 kV C2 1 31 31 6146 5650 S/E Alto Jahuel/J2 3 0 0.01

0.3000 9999 -0.1932 30 7953 8 -44


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


0.2000 9999 0.3136 30 7953 8 0


0.2619 9999 -0.0154 30 7953 8 -2


Ancoa - Pehuenche 220 kV - L2 1 117 117 4710 4137 S/E Ancoa/J2 3 0 0.01 0.300

0 9999 -0.1381 65 7918 8 -15


0 9999 1.2835 65 7918 8 0


3 9999 -0.0347 65 7918 8 -3


Cerro Navia - Polpaico 220 kV - L2 1 95 95 6813 3913 S/E Polpaico/J2 3 0 0.01 0.300

0 9999 -1.0243 438 7545 8 -117


0 9999 8.9242 438 7545 8 0


7 9999 -0.4372 438 7545 8 -46


Nogales - Polpaico 220 kV C2 1 155 154 5729 6813 S/E Polpaico/J2 3 0 0.01 0.300

0 9999 -1.0235 438 7545 8 -116


0 9999 8.4830 438 7545 8 0


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


2 9999 -0.4155 438 7545 8 -43


Polpaico - Quillota 220 kV C2 1 82 83 6813 5782 S/E Polpaico/J2 3 0 0.01 0.300

0 9999 -1.0293 438 7545 8 -118


0 9999 8.8951 438 7545 8 0


6 9999 -0.4420 438 7545 8 -47


Alto Jahuel - Ancoa 500 kV L2 1 375 379 7584 11868 CCEE Ancoa - Alto Jahuel L2 3 1 0.01 0.2 9999 0 7872 111 8 0

Alto Jahuel - Ancoa 500 kV L2 1 375 379 7584 11868 CCEE Ancoa - Alto Jahuel L2 3 1 0.01 0.2 9999 0 7949 34 12 0


Polpaico - A.Jahuel 500 kV L2 1 155 155 6854 7586 S/E Alto Jahuel/K1 3 0 0.01 0.300 9999 -0.0089 15 7968 8 -1






Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]

Antuco - Charrua 220 kV L2 1 91 91 4796 8955 S/E Charrua/J2 3 0 0.01 0.300

0 9999 -0.0007 0 7983 8 0


0 9999 0.0003 0 7983 8 0


2 9999 -0.0007 0 7983 8 0


5 9999 0.0000 0 7983 8 0


Charrúa - Ralco 220 kV L2 1 111 112 8955 4015 S/E Charrua/J3 3 0 0.01 0.300

0 9999 -0.0007 0 7983 8 -2


0 9999 0.0003 0 7983 8 0


3 9999 -0.0006 0 7983 8 0


1 9999 0.0000 0 7983 8 0


Charrúa - Santa María 220 kV C2 1 174 175 8955 4251 S/E Charrua/J3 3 0 0.01 0.300

0 9999 -0.0007 0 7983 8 -1


0 9999 0.0003 0 7983 8 0


5 9999 -0.0006 0 7983 8 0


Línea Iter. P1

[MW] P2

[MW] Scc1

[MVA]

Scc2 [MVA


tcr [s]

t rec [s] [%]

Sc [MVA]

Sn [MVA]

Tipo de

Cluster DAG [MW]


3 9999 0.0000 0 7983 8 0


Charrúa - Cautín 220 kV C2 1 44 43 8955 2375 S/E Charrua/J1 3 0 0.01 0.300

0 9999 -0.0007 0 7983 8 -2


0 9999 0.0003 0 7983 8 0


0 9999 -0.0006 0 7983 8 0



ANEXO IX

RESUMEN DE RESULTADOS DEL CÁLCULO DE LOS TIEMPOS CRÍTICOS DE RECONEXIÓN PARA FALLAS

MONOFÁSICAS.

Determinación de los parámetros mínimos para la reconexión monopolar y tripolar Anexo IX. Página N° 2

Tabla resumen de resultados del cálculo del tiempo muerto crítico de reconexión monopolar

Duración de la falla = 120 ms

Junio_2013 Diciembre_2012

Dda. Alta Dda. Baja Dda. Alta Dda. Baja

Lïnea tcr [s] P [MW] tcr [s] P [MW] tcr [s] P [MW] tcr [s] P [MW]

Alto Jahuel - Ancoa 500 kV L1 0.510 803.816 0.300 552.929 > 0.12 494.101 > 0.12 372.204

Alto Jahuel - Ancoa 500 kV L3 0.530 809.316 0.430 557.621 > 0.12 496.955 0.250 374.232

Alto Jahuel - Arra. Chena 220 kV L1

0.530 134.345 > 0.12 78.457 > 0.12 65.898 0.260 39.132

Alto Jahuel - Arra. Chena 220 kV L2_Alte

F/S F/S F/S F/S

Alto Jahuel - Buin 220kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Alto Jahuel - Chena 220 kV C1 0.220 108.246 > 0.12 63.915 > 0.12 53.083 0.260 31.037

Alto Jahuel - Los Almendros 220kV - L1

> 0.12 113.577 1.000 59.811 0.239 80.572 0.260 31.908

Alto Jahuel - Tap Buin 110 kV L1 F/S F/S F/S F/S

Alto Jahuel - Tap Buin 110 kV L2 F/S F/S F/S F/S

Alto Melipilla - San Antonio 110 kV F/S F/S F/S F/S

Ancoa - Colbún 220 kV bajo flujo (< 10

MW) corta (< 20 km) F/S F/S

Ancoa - Itahue 220 kV L1 0.210 35.812 > 0.12 69.801 0.210 35.613 bajo flujo (<

10 MW)

Antuco - Charrua 220 kV L1 0.270 113.696 0.240 90.990

Antuco - Trupan 220 kV 0.240 110.922 0.229 79.849 0.220 67.102

Aux J1 P. Azucar 220 kV bajo flujo (< 10

MW)

bajo flujo (< 10 MW)

bajo flujo (< 10 MW) bajo flujo (<

10 MW)

Aux J2 P Azucar 220 kV bajo flujo (< 10

MW)



10 MW)

Aux.D. Almagro-D. Almagro 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Barro Blanco - Puerto Montt 220 kV bajo flujo (< 10

MW) 0.240 32.159 0.250 22.863





Bypass Cerro Navia 220 kV L1 bajo flujo (< 10

MW)



10 MW)

C. Candelaria - Candelaria 220 kV L1

bajo flujo (< 10

MW)



10 MW)

Candelaria - Minero 220 kV L1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Canela - Totoral 220 kV bajo flujo (< 10

MW)



10 MW)

Cardones - Carrera Pinto 220kV 0.450 129.323 0.120 134.237 0.780 57.620 0.780 69.686

Cardones - Minera La Candelaria 220kV

corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Carrera Pinto - Diego de Almagro 220 kV

> 0.12 108.950 0.120 114.052 0.740 78.165 0.730 90.853

Carrera Pinto - La Coipa 220 kV > 0.12 18.547 0.120 18.183 0.420 19.448 0.210 19.710

Cautín - Valdivia 220 kV 0.330 32.685 bajo flujo (< 10

MW) 0.150 46.094 0.150 19.015


bajo flujo (< 10

MW)



10 MW)

Cerro Navia - Alto Melipilla 220 kV L1


km)

Cerro Navia - Arra. Chena 220 kV - L2_Al

F/S F/S F/S F/S

Cerro Navia - Arra. Chena 220 kV -L1


km)

Charrúa - Ancoa 500kV L1 0.330 1009.934 > 0.12 971.037 > 0.12 573.713 > 0.12 446.685

Charrúa - Cautín 220 kV C1 0.290 67.512 0.270 104.096

Charrúa - Cautín 220 kV C1(1) 0.260 79.941 0.250 43.038

Charrúa - Concepción 220 kV 0.300 32.476 bajo flujo (< 10

MW) mayor a

0.12 59.564 0.230 11.699

Charrua - Hualpen 220 kV 0.290 48.648 0.270 80.288 mayor a

0.12 25.935 0.230 65.444





Charrúa - Lagunillas 220 kV 0.290 96.481 0.270 129.792 mayor a

0.12 76.516 0.230 115.619

Charrúa - Los Pinos 220 kV bajo flujo (< 10

MW)



10 MW)

Charrúa - Quilleco 220 kV 0.270 31.601 0.230 54.213

Charrúa - Reactor 500 kV L1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Charrúa - Santa Lidia 220 kV bajo flujo (< 10

MW)



10 MW)

Charrúa - Santa María 220 kV C1 0.270 183.405 0.230 173.586

Charrua - Tap El Rosal 220 kV corta (< 20 km) bajo flujo (< 10

MW) corta (< 20 km)

corta (< 20 km)

Charrúa - Zona Caída 220 kV 0.290 194.042 0.430 379.238 0.420 303.903 0.230 110.630

Charrua -Trupan 220 kV 0.270 115.229 mayor a

0.12 162.549 0.240 103.410

Chena - Arra. Chena 220 kV - L1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Cholguán - Charrúa 220 kV 0.290 210.355 0.270 34.698 0.420 98.360 0.230 49.189

Colbun - La Candelaria 220 kV L1 0.680 226.957 > 0.12 154.374 0.600 94.421 0.550 34.402

Cordillera - SAG 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) bajo flujo (<

10 MW)

Diego de Almagro-San Lorenzo de Almagro

bajo flujo (< 10

MW)



10 MW)

El Toro - Antuco 220 kV L1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Guacolda - Maitencillo 220 kV C1 0.410 144.136 0.120 144.131 1.070 178.640 0.460 164.909



Hualpen - Lagunillas 220 kV 0.300 160.514 0.310 163.231 0.319 166.252 0.310 163.186

L. Almendros - Alfalfal 220 kV > 0.12 39.881 0.270 19.911 0.239 37.339 0.360 29.883

L. Almendros-Tap Disputada Condes 220 kV


km)





La Candelaria - Maipo 220 kV L1 0.680 114.746 mayor a

0.12 47.279 bajo flujo (< 10 MW) 0.260 59.941

La Candelaria - Maipo 220 kV L2_Alter

F/S F/S F/S F/S

Lagunillas - Bocamina II corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Lampa - Cerro Navia 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Las Tortolas - Maitenes 220 kV bajo flujo (< 10

MW)



10 MW)

Los Maquis - Cordillera 220 kV > 0.12 47.046 > 0.12 52.798 0.320 64.219 0.310 67.384

Los Maquis - Hornitos 220 kV bajo flujo (< 10

MW)


0.310 29.898 0.310 29.898

Los Vilos - Espinos 220 kV bajo flujo (< 10

MW)


corta (< 20 km) corta (< 20

km)

Los Vilos - Las Palmas L1 > 0.12 154.680 0.270 24.086 0.230 130.219 0.230 155.466

Machicura - Colbun 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Maipo - Alto Jahuel 220 kV C1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Maipo - Alto Jahuel 220 kV C2_Alter

F/S F/S F/S F/S

Maitencillo - Agrosuper 220 kV bajo flujo (< 10

MW)



10 MW)

Maitencillo - Cardones 220kV L1 0.400 115.263 0.120 115.513 1.080 57.566 0.440 49.802

Maitencillo - Cardones 220kV L3 0.400 108.318 0.120 108.463 0.830 53.946 0.440 46.611

Maitenes - Confluencia 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Mampil - Peuchen 220 kV corta (< 20 km) bajo flujo (< 10

MW) corta (< 20 km)


Medellin - Cardones 220 kV bajo flujo (< 10

MW)



10 MW)

Mulchén - Angostura L1 0.270 147.772 0.270 147.731





Nehuenco I - San Luis 220kV L1 bajo flujo (< 10

MW)



10 MW)

Nehuenco II - San Luis 220kV L1 bajo flujo (< 10

MW)


corta (< 20 km) bajo flujo (<

10 MW)

Nehuenco III - San Luis 220kV bajo flujo (< 10

MW)



10 MW)

Nogales - Los Vilos 220 kV C1 > 0.12 176.876 > 0.12 34.763 0.280 192.445 0.270 206.923

Nogales - Polpaico 220 kV C1 0.460 25.254 mayor a

0.12 20.690 0.250 154.738

Pan de Azúcar - Punta Colorada 220kV C1

0.660 36.544 0.260 59.772 0.570 195.224 0.249 195.312

Pan de Azucar - Tap Talinay L1 0.710 144.313 0.250 23.679

Pangue -Trupan 220 kV 0.400 173.323 bajo flujo (< 10

MW) 0.200 36.389

Paposo - Diego de Almagro 1 220kV

bajo flujo (< 10

MW)


0.470 97.950 0.390 102.736

Paposo - Diego de Almagro 2 220kV

bajo flujo (< 10

MW)


0.480 97.950 0.400 102.736

Pehuenche - Tap. Loma Alta 220 kV L1


km)

Pilmaiquen - Lican 66 kV F/S F/S F/S F/S

Polpaico - A.Jahuel 500 kV L1 0.480 817.185 mayor a

0.12 547.842 0.240 288.525

Polpaico - El Manzano 220kV C1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Polpaico - Lampa 220kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Polpaico - Las Tortolas 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Polpaico - Los Maquis 220 kV L1 > 0.12 57.852 > 0.12 48.705 bajo flujo (< 10 MW) bajo flujo (<

10 MW)





Polpaico - Quillota 220 kV C1 0.460 36.269 mayor a

0.12 33.589 0.240 82.445

Polpaico-A.Jahuel 500 kV L2

Polpaico-A.Jahuel 500 kV (tramo reactor)


km)

Puerto Montt - C.Canutillar 220 kV - A

0.250 64.604 0.230 64.604 0.260 64.604 > 0.12

Puerto Montt - C.Canutillar 220 kV - V

0.250 64.604 0.230 64.604 0.260 64.604 > 0.12

Puerto Montt - Melipulli 220 kV L1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Punta Colorada - La Mesa 220 kV > 0.12 100.000 bajo flujo (< 10

MW) F/S F/S

Punta Colorada - Maitencillo 220kV C1

0.410 14.398 0.400 59.784 1.020 195.224 0.590 195.312

Quilleco - Rucue 220 kV corta (< 20 km) bajo flujo (< 10

MW) corta (< 20 km)

corta (< 20 km)

Quillota - Los Piuquenes 220 kV L1 > 0.12 1.000 80.430 1.020 73.782 0.250 76.459

Quillota - Nogales 220 kV C1 1.000 12.316 mayor a

0.12 15.714 1.020 121.658 0.250 109.451

Quillota - San Luis 220 kV - L1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Quintero - Sn Luis 220 kV bajo flujo (< 10

MW)



10 MW)

Rapel - Quelentaro 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Rucúe - Charrúa 220 kV L1 > 0.12 0.270 24.654 > 0.12 0.230 43.688

Rucue - Mampil 220 kV 0.250 45.734 bajo flujo (< 10

MW) 0.299 47.219


San Luis - Agua Santa 220 kV > 0.12 142.936 > 0.12 101.488 0.310 102.933 0.250 95.381

San Luis - Quintero 220 kV F/S F/S F/S F/S

Talinay - Central Talinay bajo flujo (< 10

MW)



10 MW)





Tap Alto Melipilla - Melipilla 220kV-1


km)

Tap Canela - Canela 220 kV bajo flujo (< 10

MW)


corta (< 20 km) corta (< 20

km)

Tap Chillan - Chillan 154 kV F/S F/S F/S F/S


corta (< 20 km) bajo flujo (< 10

MW) corta (< 20 km)


Tap El Manzano - El Salto 220kV C1

> 0.12 116.194 1.000 68.540 0.011 260.252 0.240 126.091

Tap El Rosal - Laja 1 220 kV bajo flujo (< 10

MW)



10 MW)

Tap MR - Las Palmas L1 > 0.12 150.006 0.730 23.917 0.300 125.433 0.280 152.140

Temuco - Cautín 220 kV C1 corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

Temuco - Los Ciruelos 220 kV Route 1

corta (< 20 km) bajo flujo (< 10

MW)

corta (menor a 20 km)

corta (< 20

km)

Temuco - Temuco Aux. 220 kV corta (< 20 km) bajo flujo (< 10

MW) corta (< 20 km)


Valdivia - B.Blanco 220 kV 0.260 35.788 bajo flujo (< 10

MW) 0.300 31.774


Valdivia - Los Ciruelos 220 kV corta (< 20 km) corta (< 20 km) bajo flujo (< 10 MW) bajo flujo (<

10 MW)

Valdivia - Pichirrahue 220 kV 0.380 10.032 mayor a

0.12 20.778 bajo flujo (< 10 MW)


Ventanas - Nogales 220 kV C1 > 0.12 164.600 > 0.12 29.940 0.250 227.954 0.240 58.069

Villa Alegre - Tap Linares Norte 66 kV

F/S F/S F/S F/S

Zona Caída - Ralco 220 kV corta (< 20 km) corta (< 20 km) corta (< 20 km) corta (< 20

km)

factibilidad de implementación de reconexión …...definitiva del elemento fallado en tiempo...

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