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© 2016 Spirae L.L.C.
Increased Penetration of PV in Utility Distribution Systems with the Spirae Wave
Control Platform
Mohit Chhabra, Ph.D.
2016 .
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Spirae supports the transformation of the grid from centralized to distributed, enabling the integration of renewable resources, enhancing energy resilience, and stimulating flexible business models.
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Spirae Wave® control platform provides a scalable architecture for integrating and managing high levels of renewable and distributed energy resources (DER) at the edge of the grid.
About Spirae
Centralized Generation Distributed Energy Resources (DER)
Transformation
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Spirae Introduction Based in Fort Collins, Colorado
Established in 2002, Privately Owned
Virtual Development Center in Kochi, India
Co-own and operate InteGrid Laboratory with Colorado State University
Currently 51 employees in the Fort Collins and Kochi facilities
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Wave Architecture Applications Wave Apps are managed by the Wave Application Manager (WAM). Wave Apps are extensions to Wave that add business logic to meet user-specific objectives. System System level objectives are carried out by the Distribution Network Manager (DNM). The DNM stores the full representation of the DER portfolio including assets, connectivity, and capabilities of the overall system. Groups Groups of Assets are hosted and managed by Control Area Managers (CAM). Groups give Spirae Wave™ the ability to aggregate DER into dynamic portfolios assignable to different system capabilities. Assets Assets are hosted by Energy Resource Managers (ERM). Spirae Wave™ uses a standardized catalog of assets to easily interface with and manage assets.
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Wave Features
Wave Microgrid Features Base Capabilities Monitoring and Control Scheduling and Dispatch Active Power Import and Export Control Reactive Power Import and Export Islanding and Resynchronization Frequency Control Voltage Control Spinning Reserves Management Load Forecasting Renewables and Variability Forecasting Reporting Optional capabilities Market Interface (VPP) Custom Apps
Wave DERMS Features Base Capabilities Monitoring and Control Scheduling and Dispatch Active Power Import and Export Control Voltage Control Constraint Management Energy Storage Management Enterprise Integration and Data Archival Load Forecasting Renewables and Variability Forecasting Reporting Optional capabilities Market Interface (VPP) Valuation and Demand Response EV Charging Management Custom Apps
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Optimizers Supported Optimizers
Grid Connected Operation Islanded Operation
Low Cost • Consideration for volatility in loads and renewables
• User-specified transient capacity
• Consideration for volatility in loads and renewables
• User-specified transient capacity
Increased Renewables Penetration
• Consideration for volatility in loads and renewables
• User-specified transient capacity
• Consideration for volatility in loads and renewables
• Transient capacity calculated to maximize renewables
Third Party Optimizer • Consideration for volatility in loads and renewables
• User-specified transient capacity
• Consideration for volatility in loads and renewables
• User-specified transient capacity
Manual Operation / Manual Selectors
• User-specified generation resources
• User-specified generation resources
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Projects • Integrid Laboratory
• 2x80kW natural gas generators, 400kW (0.6 PF) load bank, 100 kW (1.0 PF) load bank, 100kW wind simulator, 30kW PV simulator (grid connected and islanded operation)
• Project #1
• Small U.S. community with 2x1800kVA diesel generators, 2x250kW Li-Ion energy storage (grid connected and islanded operation)
• Project #2
• Island with 3x400kVA of diesel generators, 3x250kW of Li-Ion energy storage, 3x80kW of PV (islanded operation)
• Project #3
• Microgrid testing facility in U.S. with 3x400kVA diesel generators, 2x250kW Li-Ion energy storage, 2x240kW of PV (islanded operation)
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Lessons Learned • While grid connected, low cost operation is generally preferred by microgrid owners.
• Better management of renewable and load transients required if peak management is
the objective and/or a penalty is associated with exporting power to the grid – not sufficient to just increase renewable penetration.
• While islanded, better management of renewable and load transients required to ensure prolonged and safe operation of the microgrid – not sufficient to just increase renewable penetration.
• Better management of energy storage state-of-charge is required. Energy storage can play an important role in management of transient capacity in a microgrid.
243 N. College Ave, Fort Collins, CO 80524 970.484.8259 www.spirae.com
Mohit Chhabra, Ph.D. Power Systems Applications Engineer
Spirae, L.L.C. 269.267.8199