Coordinated wind power plant and battery control for active power services

IF 1.9 4区工程技术 Q4 ENERGY & FUELS Journal of Renewable and Sustainable Energy Pub Date : 2023-09-01 DOI:10.1063/5.0156464

Michael Sinner, Evangelia Spyrou, Christopher J. Bay, Jennifer King, David Corbus

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Abstract

This article considers joint active power control of wind turbines and battery storage to follow a plant-level power reference signal. The joint control dynamically curtails the energy from a subset of the wind turbines and stores or withdraws energy from the battery to meet the power reference setpoint while accounting for wind plant aerodynamic interactions, such as wake losses. As a use case, we study the performance of the controller in maintaining a constant power output over hourly periods. A wind plant operating in this way would rely much less on other grid resources to meet its contractual agreements, thereby improving grid reliability, especially in grids with high penetration of wind and solar generation. We compare the operation of the wind plant under joint active power control to standard power-maximizing control with battery support. We present an analysis of the performance of the control system architecture. To study the impact of the battery size on performance, we simulate a 50-MW wind plant supported by batteries ranging from 8 to 64 MWh. We then evaluate the over and undergeneration penalties incurred by the plant during the simulation period.

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为有功电力服务协调风力发电厂和电池控制

本文考虑风力发电机组和蓄电池的联合有功功率控制遵循电厂级功率参考信号。联合控制动态地减少来自风力涡轮机子集的能量，并从电池中存储或提取能量，以满足功率参考设定值，同时考虑风力发电厂的空气动力学相互作用，如尾流损失。作为一个用例，我们研究了控制器在每小时内保持恒定功率输出的性能。以这种方式运行的风力发电厂将大大减少对其他电网资源的依赖，以满足其合同协议，从而提高电网的可靠性，特别是在风能和太阳能发电普及率高的电网中。将联合有功控制下的风电场运行与有电池支持的标准功率最大化控制进行了比较。我们对控制系统架构的性能进行了分析。为了研究电池尺寸对性能的影响，我们模拟了一个50兆瓦的风力发电厂，由8到64兆瓦的电池支持。然后，我们评估了在模拟期间植物产生的过多和过少的惩罚。

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来源期刊

Journal of Renewable and Sustainable Energy ENERGY & FUELS-ENERGY & FUELS

CiteScore

4.30

自引率

12.00%

发文量

122

审稿时长

4.2 months

期刊介绍： The Journal of Renewable and Sustainable Energy (JRSE) is an interdisciplinary, peer-reviewed journal covering all areas of renewable and sustainable energy relevant to the physical science and engineering communities. The interdisciplinary approach of the publication ensures that the editors draw from researchers worldwide in a diverse range of fields. Topics covered include: Renewable energy economics and policy Renewable energy resource assessment Solar energy: photovoltaics, solar thermal energy, solar energy for fuels Wind energy: wind farms, rotors and blades, on- and offshore wind conditions, aerodynamics, fluid dynamics Bioenergy: biofuels, biomass conversion, artificial photosynthesis Distributed energy generation: rooftop PV, distributed fuel cells, distributed wind, micro-hydrogen power generation Power distribution & systems modeling: power electronics and controls, smart grid Energy efficient buildings: smart windows, PV, wind, power management Energy conversion: flexoelectric, piezoelectric, thermoelectric, other technologies Energy storage: batteries, supercapacitors, hydrogen storage, other fuels Fuel cells: proton exchange membrane cells, solid oxide cells, hybrid fuel cells, other Marine and hydroelectric energy: dams, tides, waves, other Transportation: alternative vehicle technologies, plug-in technologies, other Geothermal energy