单机电力系统并联电源变流器稳态工作点的效率优化

Shike Wang, Jinjun Liu, Zeng Liu, Teng Wu, Baojin Liu
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引用次数: 12

摘要

运行效率一直是电力电子系统的一个重要问题,如单机电力系统中的并联电源变换器。为了提高单个变换器的功率转换效率,已经开发出了相当多的解决方案。然而,现有的关于系统层面效率问题的研究却很少。在层次多电平控制理论的基础上,提出了一种三级协调控制策略,以优化系统中各源变流器的稳态工作点,降低损耗,提高整体效率。基于二次损耗模型,首先分析了两个变流器之间的最优功率分配比。通过引入等效变换器损耗模型的概念,将正反向扫描计算方法推广到n并联变换器系统。此外,N个变换器的连续开关点被精确设计,以保持在全负载范围内的最小系统损耗。根据典型工业产品的数据表,通过算例验证了该策略的有效性。最大和平均效率提高分别为1.55%和0.56%。考虑到可再生能源发电和微电网的不断发展,从长远来看,这种效率的提高将有助于节省大量能源和经济。
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Efficiency-based optimization of steady-state operating points for parallel source converters in stand-alone power system
The operation efficiency is always considered to be a significant issue for power electronics system, such as parallel source converters in stand-alone power system. Quite a few solutions have been developed to increase power conversion efficiency of a single converter. However, existing work concerning efficiency issue on system level is scarce. On the basis of hierarchical multilevel control theory, this paper proposed a coordinative control strategy on tertiary level to optimize steady-state operating points for each source converter in the system, reducing losses and improving the overall efficiency. Based on the quadratic loss model, the optimal power distribution ratio between two converters is firstly analyzed. By introducing the concept of equivalent converter loss model, a forward-backward sweep calculation method is generalized to N-parallel-converter system. Furthermore, the successive switching points of N converters are precisely designed to maintain minimum system losses under full load range. According to datasheets of typical industrial products, calculation examples are presented to demonstrate the validity of this proposed strategy. The maximum and average efficiency improvement is 1.55 and 0.56 in percentage respectively. Considering the rising development of renewable energy generation and microgrids, this efficiency increase will contribute considerable energy and economic savings in the long run.
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