Inertia Emulation by Flywheel Energy Storage System for Improved Frequency Regulation

Jiale Yu, Jingyang Fang, Yi Tang
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引用次数: 17

Abstract

To alleviate air pollution and energy shortage issues, an increasing amount of renewable energy sources (RESs), such as wind power and solar photovoltaics (PVs), has been integrated into modern power systems. However, the large penetration level of renewable energies leads to the reduction of inertia as RESs are normally connected to the power grid through power electronics converters, which do not inherently provide the inertia as synchronous generators do. To solve the lack of inertia issue, this paper proposes the method of using flywheel energy storage systems (FESSs) to provide the virtual inertia and frequency support. As compared with batteries, flywheels have a much longer lifetime and higher power density. By regulating the speed of the flywheel in proportion to the grid frequency, the flywheel serves as an energy buffer that absorbs and releases its kinetic energy to provide inertia support. Furthermore, the design methods of the virtual inertia emulated by FESSs are described in detail. Finally, the feasibility of the proposed method is verified by simulations, and the simulation results validate the improvement of frequency regulation in terms of frequency nadir and rate of change of frequency (RoCoF).
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改进频率调节的飞轮储能系统惯性仿真
为了缓解空气污染和能源短缺问题,越来越多的可再生能源(RESs),如风力发电和太阳能光伏发电(pv),已被纳入现代电力系统。然而,可再生能源的大渗透水平导致惯性减少,因为RESs通常通过电力电子转换器连接到电网,而电力电子转换器不像同步发电机那样固有地提供惯性。为了解决惯性不足的问题,本文提出了利用飞轮储能系统(FESSs)提供虚拟惯性和频率支持的方法。与电池相比,飞轮具有更长的寿命和更高的功率密度。通过调节飞轮的速度与电网频率成比例,飞轮作为能量缓冲器,吸收和释放其动能,提供惯性支撑。此外,还详细介绍了fess仿真虚拟惯量的设计方法。最后,通过仿真验证了所提方法的可行性,仿真结果从频率最低点和频率变化率(RoCoF)两方面验证了频率调节的改进。
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