eficiencia de hidrociclon
TRANSCRIPT
4 4750 3989
6 3350 2812
8 2360 2003
10 1700 1416
14 1180 1001
20 850 714
28 600 505
35 425 357
48 300 252
65 212 178
100 150 126
150 106 89
200 75 63
270 53 45
400 38 32
-400
TOTAL
1) TABLA DE VALORES DEL MODELO EN EL ALIMENTO (F):
4 4750 100 3.67669361
6 3350 99.65 3.52504481
8 2360 98.6 3.372912
10 1700 95.38 3.23044892
14 1180 90.12 3.07188201
20 850 83.77 2.92941893
FUNCION MATEMATICA GATES - GAUDIN - SCHUHMANN: (G-G-S)
MALLAS(x)
MICRONES
(Y) %Ac
(-) (X) LOGX
MALLA
TYLER
ABERT
uu
ABERT
PROM
U
O
28 600 76.09 2.77815125
35 425 67.31 2.62838893
48 300 60.91 2.47712125
65 212 45.66 2.32633586
100 150 36.67 2.17609126
150 106 30.06 2.02530587
200 75 25.12 1.87506126
270 53 20.6 1.72427587
400 38 17.62 1.5797836
-400 0
TOTAL 39.3969154
2) CALCULO DE LAS VARIABLES DE LA ECUACION:
3) CUADRO CALCULADO POR EL MODELO G-G-S:
4 4750 -37.3765325
6 3350 -20.1009761
8 2360 -4.95285171
10 1700 7.49534333
14 1180 19.6224126
20 850 29.1557971
28 600 38.0437688
35 425 45.7443412
48 300 52.5511474
65 212 58.486246
100 150 63.6615468
150 106 68.2069107
200 75 72.1703875
270 53 75.6514304
400 38 78.5779111
-400 100
m = (CxJ-DxG)/(CxF-E)
r = (CxJ-DxG)/((CxF-E)*(CxI-H))^0,5
k = 10^((a-2)/-m)
MALLAS MICRONS % Ac (+)
a = (FxG-DxJ)/(CxF-E)
1000 Gr
PESO % PESO %AC (+) %AC (-) PESO % PESO %AC (+)
0 0 0 100 0 0 0
3.5 0.35 0.35 99.65 10.7 1.07 1.07
10.5 1.05 1.4 98.6 20.7 2.07 3.14
32.2 3.22 4.62 95.38 58.7 5.87 9.01
52.6 5.26 9.88 90.12 90.3 9.03 18.04
63.5 6.35 16.23 83.77 98.7 9.87 27.91
76.8 7.68 23.91 76.09 101 10.1 38.01
87.8 8.78 32.69 67.31 99 9.9 47.91
64 6.4 39.09 60.91 48.7 4.87 52.78
152.5 15.25 54.34 45.66 161 16.1 68.88
89.9 8.99 63.33 36.67 82.3 8.23 77.11
66.1 6.61 69.94 30.06 52 5.2 82.31
49.4 4.94 74.88 25.12 34 3.4 85.71
45.2 4.52 79.4 20.6 27.3 2.73 88.44
29.8 2.98 82.38 17.62 16.3 1.63 90.07
176.2 17.62 100 0 99.3 9.93 100
1000 100 1000 100
2 7.35338722 13.5180759 4 N
1.9984773 7.04472204 12.4259409 3.99391153 SX
1.99387691 6.72517138 11.3765354 3.97554515 (SX)2
1.97945732 6.39453576 10.4358002 3.91825127 SX2
1.95482118 6.00498002 9.43645907 3.82132586 SY
1.92308852 5.63353189 8.58149524 3.69826944 (SY)2
EFICIENCIA DE HIDROCICLON
BASE EN PESO
UNDER FLOW (U)
FUNCION MATEMATICA GATES - GAUDIN - SCHUHMANN: (G-G-S)
ALIMENTO (F)
(Y) LOGYX*Y X^2 Y^2 CONSTANTES PARA LOS CALCULOS
F
ECUACION YC = 100 u m K
1.88132758 5.22661258 7.71812437 3.53939348 SY2
1.82807959 4.80490416 6.90842837 3.34187499 SXY
1.7846886 4.42089006 6.13612971 3.1851134
1.65953591 3.86063789 5.41183854 2.75405943
1.56431091 3.4040833 4.73537317 2.44706862
1.47798898 2.99337974 4.10186385 2.18445141
1.40001964 2.62512259 3.51585474 1.96005498
1.31386722 2.26546954 2.97312727 1.72624707
1.2460059 1.96841969 2.49571621 1.55253071
0 0 0
26.0055456 70.7258479 109.770763 46.0980973
a =
m =
r =
k =
137.376533
120.100976
104.952852
92.5046567
80.3775874
70.8442029
61.9562312
54.2556588
47.4488526
41.513754
36.3384532
31.7930893
27.8296125
24.3485696
21.4220889
0
0.722840728
m = (CxJ-DxG)/(CxF-E)
r = (CxJ-DxG)/((CxF-E)*(CxI-H))^0,5
k = 10^((a-2)/-m)
0.384876188
0.959908239
2081.440298
% Ac (-)
a = (FxG-DxJ)/(CxF-E)
LA ECUACION DE DISTRIBUCION DEL MATERIAL ANALIZADO SE
AJUSTA AL MODELO SIGUIENTE
0
10
20
30
40
50
60
70
80
90
100
1 10 100 1000 10000
Axi
s Ti
tle
Axis Title
%AC (-) PESO % PESO %AC (+) %AC (-)
100 0 0 0 100
98.93 0 0 0 100
96.86 0 0 0 100
90.99 0 0 0 100
81.96 3.2 0.32 0.32 99.68
72.09 12.7 1.27 1.59 98.41
61.99 44 4.4 5.99 94.01
52.09 72.7 7.27 13.26 86.74
47.22 34.7 3.47 16.73 83.27
31.12 144 14.4 31.13 68.87
22.89 93.7 9.37 40.5 59.5
17.69 84 8.4 48.9 51.1
14.29 71.7 7.17 56.07 43.93
11.56 72.3 7.23 63.3 36.7
9.93 51 5.1 68.4 31.6
0 316 31.6 100 0
1000 100
»C 15
»D 39.3969154
»E 1552.11694
»F 109.770763
»G 26.0055456
»H 676.2884
EFICIENCIA DE HIDROCICLON
UNDER FLOW (U) OVER FLOW (O)
FUNCION MATEMATICA GATES - GAUDIN - SCHUHMANN: (G-G-S)
CONSTANTES PARA LOS CALCULOS
u m
»I 46.0980973
»J 70.7258479
0.38487619
Y = 100 U
2081.4403
LA ECUACION DE DISTRIBUCION DEL MATERIAL ANALIZADO SE
AL MODELO SIGUIENTE
10000
Series1
Series2