适应山区含源配电网的无功配置方法研究
|
摘要
为达到改善山区含源配电网电压质量和实现节能降耗的目的,提出了一种适应山区含源配电网的无功配置方法,首先分析山区含源配电网的无功配置现状,了解山区配电网无功电压调控困难的本质原因;其次从线路分类、指标定义和参数设定建立无功配置率计算的基态模型,形成一套适应山区含源配电网的无功配置策略;最后通过实际线路的仿真计算以验证配置方法效果,并归整成适应山区含源配电网的无功配置方案。经实际工程应用表明,该无功配置方法切实可行,具有较好的指导作用。
In order to improve the voltage quality of the power distribution network in mountainous areas and realize the purpose of energy saving and consumption reduction, this paper puts forward a method of reactive power allocation suitable for the power distribution network in mountainous areas. Secondly, the ground state model of reactive power allocation rate calculation is established from the aspects of line classification,index definition and parameter setting to form a set of reactive power allocation strategy that is suitable for the mountainous region with source power distribution network. Finally, the simulation results of actual lines are used to verify the effectiveness of the configuration method, and the reactive power configuration scheme is integrated to adapt to the mountainous region with source distribution network. The practical application shows that this method is feasible and has a good guiding effect.
In order to improve the voltage quality of the power distribution network in mountainous areas and realize the purpose of energy saving and consumption reduction, this paper puts forward a method of reactive power allocation suitable for the power distribution network in mountainous areas. Secondly, the ground state model of reactive power allocation rate calculation is established from the aspects of line classification,index definition and parameter setting to form a set of reactive power allocation strategy that is suitable for the mountainous region with source power distribution network. Finally, the simulation results of actual lines are used to verify the effectiveness of the configuration method, and the reactive power configuration scheme is integrated to adapt to the mountainous region with source distribution network. The practical application shows that this method is feasible and has a good guiding effect.
引文
[1]胡苗.含小水电的山区配电网规划和优化研究[D]长沙:湖南大学,2018.
[2]彭杰,曹良丰,周力行,等.富含小水电的山区10kV配电网电压质量改进方法[J].电力科学与技术学报,2014,29(01):91-96.
[3]邓渝生,龚守书.富含小水电的10 k V公用线路电压质量问题分析及研究[J].小水电,2016(06):53-58.
[4]魏博.含有小水电的韶关配网无功电压问题解决方案研究[D].广州:华南理工大学,2012.
[5]李劲,唐捷,张勇军,等.小水电群对配电网无功电压影响机理分析[J].南方电网技术,2012,6(05):39-42.
[6]王海鹏,袁荣湘,范群英,等.小水电集中上网地区无功电压影响与分析[J].中国农村水利水电,2010(05):155-157.
[7]彭炽刚,陈晓华.小水电集中上网电网无功电压建模分析与控制策略[J].水电站机电技术,2010,33(02):18-20.
[8]Q/CSG 211003-2014.电能质量与无功电压管理规定[S].中国南方电网有限责任公司.
[9]丁伯剑,杨静,吴桂滨,等.含小水电配电网的感性无功配置方法[J].电力需求侧管理,2013,15(02):16-18.
[10]王文华,魏博,朱广明,等.抑制分布式小水电配电网稳态过电压的无功配置方法[J].高压电器,2015,51(11):97-102.
[11]张锡填.广东电网无功电压调控的典型问题及对策研究[D].广州:华南理工大学,2014.
[12]白耀鹏.小水电网无功电压控制措施[J].电子制作,2012(12):95-96.
[13]陈健强,李婷.变电站无功补偿配置及运行分析[J].电气技术,2017(11):123-127.
[14]郑宏杰.10 kV配电网无功补偿优化配置[J].企业技术开发,2017,36(11):129-130.
[15]蔡博,黄少锋.基于多目标粒子群算法的高维多目标无功优化[J].电力系统保护与控制,2017,45(15):77-84.
[16]蔡轫,孙鹏.含小水电区域的感性无功配置方法[J].大众用电,2018,32(05):26-27.
[2]彭杰,曹良丰,周力行,等.富含小水电的山区10kV配电网电压质量改进方法[J].电力科学与技术学报,2014,29(01):91-96.
[3]邓渝生,龚守书.富含小水电的10 k V公用线路电压质量问题分析及研究[J].小水电,2016(06):53-58.
[4]魏博.含有小水电的韶关配网无功电压问题解决方案研究[D].广州:华南理工大学,2012.
[5]李劲,唐捷,张勇军,等.小水电群对配电网无功电压影响机理分析[J].南方电网技术,2012,6(05):39-42.
[6]王海鹏,袁荣湘,范群英,等.小水电集中上网地区无功电压影响与分析[J].中国农村水利水电,2010(05):155-157.
[7]彭炽刚,陈晓华.小水电集中上网电网无功电压建模分析与控制策略[J].水电站机电技术,2010,33(02):18-20.
[8]Q/CSG 211003-2014.电能质量与无功电压管理规定[S].中国南方电网有限责任公司.
[9]丁伯剑,杨静,吴桂滨,等.含小水电配电网的感性无功配置方法[J].电力需求侧管理,2013,15(02):16-18.
[10]王文华,魏博,朱广明,等.抑制分布式小水电配电网稳态过电压的无功配置方法[J].高压电器,2015,51(11):97-102.
[11]张锡填.广东电网无功电压调控的典型问题及对策研究[D].广州:华南理工大学,2014.
[12]白耀鹏.小水电网无功电压控制措施[J].电子制作,2012(12):95-96.
[13]陈健强,李婷.变电站无功补偿配置及运行分析[J].电气技术,2017(11):123-127.
[14]郑宏杰.10 kV配电网无功补偿优化配置[J].企业技术开发,2017,36(11):129-130.
[15]蔡博,黄少锋.基于多目标粒子群算法的高维多目标无功优化[J].电力系统保护与控制,2017,45(15):77-84.
[16]蔡轫,孙鹏.含小水电区域的感性无功配置方法[J].大众用电,2018,32(05):26-27.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |