摘要
同相牵引供电系统旨在实现电能质量的综合补偿。提出了一种基于同步坐标变换的电流检测方法,能实时准确地检测出负载电流的基波正序有功分量、基波正序无功分量、基波负序分量以及谐波分量,为综合补偿提供了基础。电能质量的补偿力度与设备容量之间存在非线性关系。提出补偿度的概念,并给出补偿度与电能质量参数的关系,通过给定电能质量期望参数,实时调整负序、谐波以及无功补偿度,使得综合潮流控制器容量在各电能质量补偿参数之间得到实时优化配置,从而实现同相供电系统容量优化满意补偿。理论推导和仿真结果验证了所提方法的正确性和可行性。
The cophase traction power supply system aims at achieving power quality comprehensive compensation.A current detection method based on synchronous reference frame transformation is proposed.The method can decompose the load current real-timely into fundamental positive-sequence active component,fundamental positive-sequence reactive component,fundamental negative-sequence component and harmonic component,which lays a foundation for comprehensive compensation.There are nonlinear relation between compensation strength of power quality and device capacity.The paper proposes the concept of compensation degree and gives the relationship between compensation degree and power quality parameters.By giving expected power quality parameters,it adjusts compensation ratios of negative,r eactive and harmonics instantaneously,so that the IPFC capacity can be allocated between power quality compensating parameters optimally and real-timely,thus achieving capacity optimal satisfactory compensation.The theoretical analysis and simulation verify the correctness and feasibility.
出处
《电力系统保护与控制》
EI
CSCD
北大核心
2010年第20期51-56,共6页
Power System Protection and Control
基金
'十一五'国家科技支撑计划(2007BAA12B05)
关键词
电流检测
补偿策略
同相牵引供电系统
综合潮流控制器
同步坐标变换
容量优化
current detection
compensation strategy
cophase traction power supply system
integrated power flow controller
synchronous reference frame transformation
capacity optimization
