SUMMARY:
UCLA researchers have developed a battery energy storage system capable of both shifting power consumption pattern and shaping power consumption profile with minimal delay.
BACKGROUND:
Energy management systems (EMS) enable optimization of energy generation, transmission, and utilization. Utilization of battery energy storage systems (BESS) has recently been investigated in addition to conventional energy management systems for active controls.
INNOVATION:
The invention is a battery energy storage control system (BESS) capable of both shifting power consumption pattern and shaping power consumption profile with minimal delay. The hardware of the system consists of local controller hardware and central controller hardware:
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- Consists of microcontroller, communication interface, and protection equipment
- Central controller hardware includes a server and monitoring equipment
- Local controller collects and transmits data to the central controller which then sends out commands to the local controller to optimize power flow
The software system consists of a communication control section, an operation control section, and a safety control section:
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- Communication and operation control sections belong to the local controller
- Two-layer software system can be written in multiple languages and operated in multiple environments, enabling parallel computations and executions
- Employs discrete signal processing theorems, optimization algorithms and prediction techniques to minimize the required battery size and reduce delay in system performance
PATENT:
Battery energy storage control systems and methods for a grid tie inverter coupled to a photovoltaic system
POTENTIAL APPLICATIONS:
- Energy management systems
- Small-scale smart grids to support stable power output in a more energy-efficient way
ADVANTAGES:
The integrated control system is capable of:
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- Managing communication between battery management system (BMS), grid-tie inverter, measurement units and local controller
- Controlling active and reactive power flow of BESS in real time to support the grid power flow via four modes of operations (charging, discharging, reactive leading, reactive lagging)
- Supervising the safety of system operation.
DEVELOPMENT-TO-DATE: The software has been developed and integrated into a lab-scale grid-connected battery energy storage system for data acquisition and analysis. Power demand shaping has been demonstrated by smoothing the power fluctuation of solar panels on a building, whereas power demand shifting has been demonstrated on the vehicle charging stations in a parking structure at UCLA
RELATED PAPERS
Nazaripouya, H., et al. "Optimal sizing and placement of battery energy storage in distribution system based on solar size for voltage regulation." 2015 IEEE Power & Energy Society General Meeting. IEEE, 2015.
PATENT PUBLICATION
Battery Energy Storage Control Systems and Methods