利用VSWT直接驱动同步发电机增强电压稳定性

R. Jeevajyothi, D. Devaraj
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引用次数: 1

摘要

本文研究了大型变速风力发电机组(VSWT)与直驱同步发电机(DDSG)集成时对电网电压稳定性的提高。建立了适用于本课题研究的可控功率逆变策略的并网VSWT驱动DDSG的动态建模和仿真,并进行了测试和验证。该动态模型及其控制方案可以在不同风速下调节实功率、维持无功功率和产生电压。在本文中,研究了一个标准IEEE 14总线系统,该系统由一个包含100台风力发电机组的直连风力发电厂(WPP)扩展。研究内容包括系统电压稳定曲线(λ-V)、电压幅值、输出的无功功率、负载裕度和电压崩溃。这些电压稳定性研究是针对正常状态和线路意外情况进行的。研究发现,在可控功率逆变器策略的帮助下,在输电级引入DDSG的大规模VSWT有可能通过注入无功功率来改善电网的长期电压稳定性。
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Voltage Stability Enhancement using VSWT with Direct Drive Synchronous Generators
Th is paper investigates about the enhancement in grid voltage stability while integrating the large-scale variable speed wind turbine (VSWT) with direct drive synchronous generators (DDSG). A dynamic modeling and simulat ion of a grid connected VSWT driven DDSG with controllable power inverter strategies suitable for the study was developed, tested and verified. Th is dynamic model with its control scheme can regulate real power, maintain reactive power and generate voltage at different wind speeds. For th is paper, studies were conducted on a standard IEEE 14 bus system augmented by a rad ially connected wind power p lant (WPP) which contains 100 wind turbine generators (WTG). The studies include examin ing the voltage stability (λ-V) curves, voltage magnitude, reactive power delivered, loading margin and voltage collapse of the system. These voltage stability studies are done for the normal state as well as for line contingencies. It is found that large scale VSWT with DDSG at the transmission level has the potential to imp rove the long-term voltage stability of the grid by injecting react ive power with the help of controllable power inverter strategy.
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