跟网型储能与构网型储能协同控制策略在电力系统中的应用

Application of Collaborative Control Strategies for Grid Following Energy Storage and Grid Building Energy Storage in Power Systems

深入研究了跟网型储能与构网型储能协同控制策略在电力系统中的应用。首先,分析了跟网型储能与构网型储能的基本原理、特性及其在电力系统中的作用。随后,针对电力系统中的稳定性、供电质量及新能源并网等关键问题,设计了跟网型储能与构网型储能的协同控制策略。该策略通过优化控制算法、强化设备间通信、制定经济激励政策等手段,实现了储能设备在电网中的高效协同运行。通过案例分析,验证了协同控制策略在提升电网稳定性、改善供电质量及优化新能源并网等方面的显著效果。最后,提出了协同控制策略的优化路径,包括算法优化、通信技术升级与经济激励政策完善,为储能技术在电力系统中的广泛应用提供了有力支持。

This paper deeply studies the application of grid following energy storage and grid building energy storage collaborative control strategies in power system.Firstly,the basic principles and characteristics of grid following energy storage and grid building energy storage and their roles in the power system are analyzed.Subsequently,in order to solve the key problems in the power system,such as stability,power supply quality and new energy grid connection,a collaborative control strategy of grid following energy storage and grid building energy storage was designed.This strategy realizes the efficient and collaborative operation of energy storage equipment in the power grid by optimizing the control algorithm,strengthening the communication between devices,and formulating economic incentive policies.Through case analysis,the remarkable effect of cooperative control strategy in improving power grid stability,improving power supply quality and optimizing new energy grid integration is verified.Finally,this paper proposes the optimization path of cooperative control strategy,including algorithm optimization,communication technology upgrading and economic incentive policy improvement,which provides strong support for the wide application of energy storage technology in power system.