Performance Evaluation of Three-Phase Grid Assisted SyRM Driven Water Pumping System with Mode Transition Capability

Hina Parveen, Bhim Singh
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Abstract

In this paper, a synchronous reluctance motor (SyRM) drive-based water pumping system integrated to a three-phase distributional grid with seamless mode transition capabilities is presented. The system comprises a synchronous reluctance motor power through a voltage source converter (VSC), and a DC-DC boost converter is employed to fulfill different aspects in developing a reliable drive. Two sources namely solar photovoltaic array (SPVA) and distribution grid are available to drive the water pumping system. The SPVA is linked to the DC link via the DC-DC boost converter, and the three-phase grid is interfaced through a voltage source converter (VSC) at the DC link. The presented system is also enabled with synchronization and seamless mode transfer control to meet the drive demand irrespective of the availability of either source. In grid coupled mode, the VSC operates in current control mode using second-order generalized integrator with frequency locked loop (SOGI FLL), in the grid decoupled mode the VSC operates in voltage control mode to maintain rated voltage at the point of common coupling (PCC). The developed system follows the practices presented in the IEEE-519 standard and the presented system is validated using a hardware prototype and the recorded experimental results verify the efficacy of the system.
具有模态转换能力的三相电网辅助SyRM驱动抽水系统性能评价
提出了一种基于同步磁阻电机(SyRM)驱动的水泵系统,该系统集成在具有无缝模式转换能力的三相配电网中。该系统包括通过电压源变换器(VSC)驱动的同步磁阻电机,以及采用DC-DC升压变换器来实现可靠驱动的不同方面。水泵系统由太阳能光伏阵列(SPVA)和配电网两种来源驱动。SPVA通过DC-DC升压转换器连接到DC链路,三相电网通过直流链路上的电压源转换器(VSC)连接。该系统还启用了同步和无缝模式转换控制,以满足驱动需求,而不考虑任何来源的可用性。在电网耦合模式下,VSC采用带锁频环的二阶广义积分器(SOGI FLL)工作在电流控制模式下,在电网解耦模式下,VSC工作在电压控制模式下,将额定电压维持在共耦合点(PCC)。所开发的系统遵循IEEE-519标准,并使用硬件样机对系统进行了验证,记录的实验结果验证了系统的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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