半波长调谐网络安置方式研究
|
摘要
当实际输电线路长度不足半波长时,需要通过人工调谐补偿。调谐网络类型需要详细论证。针对3种调谐网络,首先探索其分别适用于何种补偿方式;其次探讨适合于各调谐网络的安装和分布形式;最后对比各调谐线路过电压情况。研究表明:电容型在分散式补偿时无功过剩,PI型和T型在分散式安装方式下的过电压水平要高于集中式,线路侧补偿时的过电压水平较低。即电容型适宜采用分散式;PI型和T型调谐网络更适宜采用集中式;3种调谐网络中适宜采用安装在线路侧的集中式安置。
When the actual length of transmission line is less than the half wavelength,the manual tuned compensation is needed.However,detailed analysis is needed to determine the appropriate tuned network types.Firstly,based on the existing three types of tuned networks,their respective suitable modes for compensation are investigated.In addition,the installation and distribution mode suitable for each tuned network is discussed.Finally,the overvoltage of each tuned transmission lines is comparatively analyzed.The results show that the reactive power is surplus when distributed compensation is used for capacitor-type tuned network;For PI and T type,the overvoltage level under distributed installation is higher than that under centralized mode,and the overvoltage level is low when line side compensation is used.Therefore,it can be concluded that the C type tuned network is suitable for the distributed compensation,while the PI and T type tuned networks are more suitable for centralized compensation;the three types of tuned networks are suitable for centralized installation on the line side.
When the actual length of transmission line is less than the half wavelength,the manual tuned compensation is needed.However,detailed analysis is needed to determine the appropriate tuned network types.Firstly,based on the existing three types of tuned networks,their respective suitable modes for compensation are investigated.In addition,the installation and distribution mode suitable for each tuned network is discussed.Finally,the overvoltage of each tuned transmission lines is comparatively analyzed.The results show that the reactive power is surplus when distributed compensation is used for capacitor-type tuned network;For PI and T type,the overvoltage level under distributed installation is higher than that under centralized mode,and the overvoltage level is low when line side compensation is used.Therefore,it can be concluded that the C type tuned network is suitable for the distributed compensation,while the PI and T type tuned networks are more suitable for centralized compensation;the three types of tuned networks are suitable for centralized installation on the line side.
引文
[1]刘振亚.特高压电网[M].北京:中国经济出版社,2005:33-35.
[2]刘开俊,葛旭波,王楠.能源基地建设与特高压电网规划[J].中国电力,2008,41(1):1-3.LIU Kaijun,GE Xubo,WANG Nan.Energy bases construction and uhv power grid planning[J].Electric Power,2008,41(1):1-3.
[3]严陆光,夏训诚,吕绍勤,等.大力推进新疆大规模综合能源基地的发展[J].电工电能新技术,2011,30(1):1-7.YAN Luguang,XIA Xuncheng,LU Shaoqin,et al.Great promotion of development of large scale integrative energy base in xinjiang[J].Advanced Technology of Electrical Engineering and Energy,2011,30(1):1-7.
[4]肖晋宇,吴云,佟明东,等.西南水电外送规模及流向[J].中国电力,2008,41(9):17-20.XIAO Jinyu,WU Yun,TONG Mingdong,et al.Study on power transmission scale and delivery direction of southwest hydropower in china[J].Electric Power,2008,41(9):17-20.
[5]刘振亚.全球能源互联网[M].北京:中国电力出版社,2015:39-53.
[6]王华昕,薛天水.超远距离输电方式的经济性比较[J].上海电力学院学报,2015,31(2):187-190.WANG Huaxin,XUE Tianshui.Economic comparison of ultralong-distance transmission[J].Journal of Shanghai University of Electric Power,2015,31(2):187-190.
[7]PRABHAKARA F,PARTHASARATHY K,RAMACHANDRARao H.Performance of tuned half-wave-length power transmission lines[J].IEEE Trans on Power Apparatus and Systems,1969,88(12):1795-1802.
[8]SKILLING H H.Tuned power lines[J].Transactions of the American Institute of Electrical Engineers,1932,51(1):51-54.
[9]孙秋芹,李庆民,吕鑫昌,等.半波长交流输电线路的潜供电弧特性与单相自动重合闸[J].电力系统自动化,2011,35(23):88-94.SUN Qiuqin,LI Qingmin,LU Xinchang,et al.Secondary arc characteristics and single-phase auto-reclosure scheme of halfwavelength transmission lines[J].Automation of Electric Power Systems,2011,35(23):88-94.(责任编辑张重实)
[2]刘开俊,葛旭波,王楠.能源基地建设与特高压电网规划[J].中国电力,2008,41(1):1-3.LIU Kaijun,GE Xubo,WANG Nan.Energy bases construction and uhv power grid planning[J].Electric Power,2008,41(1):1-3.
[3]严陆光,夏训诚,吕绍勤,等.大力推进新疆大规模综合能源基地的发展[J].电工电能新技术,2011,30(1):1-7.YAN Luguang,XIA Xuncheng,LU Shaoqin,et al.Great promotion of development of large scale integrative energy base in xinjiang[J].Advanced Technology of Electrical Engineering and Energy,2011,30(1):1-7.
[4]肖晋宇,吴云,佟明东,等.西南水电外送规模及流向[J].中国电力,2008,41(9):17-20.XIAO Jinyu,WU Yun,TONG Mingdong,et al.Study on power transmission scale and delivery direction of southwest hydropower in china[J].Electric Power,2008,41(9):17-20.
[5]刘振亚.全球能源互联网[M].北京:中国电力出版社,2015:39-53.
[6]王华昕,薛天水.超远距离输电方式的经济性比较[J].上海电力学院学报,2015,31(2):187-190.WANG Huaxin,XUE Tianshui.Economic comparison of ultralong-distance transmission[J].Journal of Shanghai University of Electric Power,2015,31(2):187-190.
[7]PRABHAKARA F,PARTHASARATHY K,RAMACHANDRARao H.Performance of tuned half-wave-length power transmission lines[J].IEEE Trans on Power Apparatus and Systems,1969,88(12):1795-1802.
[8]SKILLING H H.Tuned power lines[J].Transactions of the American Institute of Electrical Engineers,1932,51(1):51-54.
[9]孙秋芹,李庆民,吕鑫昌,等.半波长交流输电线路的潜供电弧特性与单相自动重合闸[J].电力系统自动化,2011,35(23):88-94.SUN Qiuqin,LI Qingmin,LU Xinchang,et al.Secondary arc characteristics and single-phase auto-reclosure scheme of halfwavelength transmission lines[J].Automation of Electric Power Systems,2011,35(23):88-94.(责任编辑张重实)