Author:
Yang Chang,Li Xiaozhu,Ma Lei,Di Yanqiang,Chen Laijun
Abstract
Abstract
A sizing method for minimized cost is proposed to optimize the capacity configuration of centralized shared energy storage in new energy-gathering areas. The energy storage system can respond to the Secondary Frequency Regulation (SFR) of the power grid while assuming Primary Frequency Regulation (PFR) obligations. The study generated output and frequency from historical data and established a mixed integer linear optimization configuration model that conforms to PFR and SFR. The results of simulation analysis show that the proposed method meets the Frequency Regulation (FR) requirements of 95.7%. Compared to the self-allocated energy storage, the cost is reduced by 1.4%. The configuration size meets the energy storage grid connection standard, and it can reduce costs and achieve better economic benefits.
Reference9 articles.
1. A review on rapid responsive energy storage technologies for FR in modern power systems;Akram;Renewable and Sustainable Energy Reviews,2020
2. Sizing of an Energy Storage System for Grid Inertial Response and Primary Frequency Reserve;Knap;IEEE Transactions on Power Systems,2016
3. Optimal Sizing and Control Strategies for Hybrid Storage System as Limited by Grid Frequency Deviations;Cao,2018
4. AGC Signal Modeling for Energy Storage Operations;Donadee;IEEE Transactions on Power Systems,2014
5. Automatic Generation Control Using an Energy Storage System in a Wind Park;Chakraborty;IEEE Transactions on Power Systems,2018