Advanced Search
XIONG Wen,WEI Guoen,WANG Li,et al.Research on the Design Scheme of Wide Area Synchronous Phasor Measurement System for Smart Distribution Grid[J].Southern Energy Construction,2021,08(02):85-90.. DOI: 10.16516/j.gedi.issn2095-8676.2021.02.013
Citation: XIONG Wen,WEI Guoen,WANG Li,et al.Research on the Design Scheme of Wide Area Synchronous Phasor Measurement System for Smart Distribution Grid[J].Southern Energy Construction,2021,08(02):85-90.. DOI: 10.16516/j.gedi.issn2095-8676.2021.02.013

Research on the Design Scheme of Wide Area Synchronous Phasor Measurement System for Smart Distribution Grid

More Information
  • Received Date: November 29, 2020
  • Revised Date: March 30, 2021
  •   Introduction  With the access of large-scale distributed generation and flexible load in distribution network, the accuracy and speed of traditional terminal measurement are difficult to meet the actual needs, while the new generation of distribution micro synchronous phasor measurement unit (D-PMU) is an important way to solve the above problems.
      Method  Firstly, the working principle and application of D-PMU were analyzed; secondly, the synchronized phasor measurement system of distribution network and its installation and deployment scheme were proposed; then, according to the requirements of the demonstration area, the architecture and deployment scheme of wide area measurement and control system of distribution network were proposed; finally, the application of D-PMU in intelligent distribution network was summarized.
      Results  The effectiveness of the demonstration construction verifies the feasibility and economy of the key technology and design scheme developed by the project.
      Conclusion  It provides rich engineering experience for the further integration and promotion of D-PMU with other traditional fields of distribution network.
  • XIONG Wen,WEI Guoen,WANG Li,et al.Research on the Design Scheme of Wide Area Synchronous Phasor Measurement System for Smart Distribution Grid[J].Southern Energy Construction,2021,08(02):85-90.

  • [1]
    董逸超,王守相,闫秉科. 配电网分布式电源接纳能力评估方法与提升技术研究综述 [J]. 电网技术,2019,43(7):2258-2266.

    DONGY C,WANGS X,YANB K. Review on evaluation methods and improvement techniques of DG hosting capacity in distribution network [J]. Power System Technology,2019,43(7):2258-2266.
    [2]
    于建成,迟福建,徐科,等.分布式电源接入对电网的影响分析 [J]. 电力系统及其自动化学报,2012,24(1):138-141.

    YUJ C,CHIF J,XUK,et al. Analysis of the impact of distributed generation on power grid [J]. Proceedings of the CSU-EPSA,2012,24(1):138-141.
    [3]
    辛华. 低碳经济与电动汽车发展:趋势与对策 [J]. 开放导报,2009(5):31-35.

    XINH. Low carbon economy and electric vehicles:trends and policies [J]. China Opening Herald,2009(5):31-35.
    [4]
    段刚,严亚勤,谢晓冬,等. 广域相量测量技术发展现状与展望 [J]. 电力系统自动化,2015,39(1):73-80.

    DUANG,YANY Q,XIEX D,et al. Development status quo and tendency of wide area phasor measuring technology [J]. Automation of Electric Power Systems,2015,39(1):73-80.
    [5]
    张敏,沈健,侯明国,等. 相量测量单元实现次同步振荡在线辨识和告警的探讨 [J]. 电力系统自动化,2016,40(16):143-146+152.

    ZHANGM,SHENJ,HOUM G,et al. Discussion on on-line identification and waming of subsynchronous oscilation for phasor measuring unit [J]. Automation of Electric Power Systems,2016,40(16):143-146+152.
    [6]
    朱利鹏,陆超,黄河,等. 基于广域时序数据挖掘策略的暂态电压稳定评估 [J]. 电网技术,2016,40(1):180-185.

    ZHUL P,LUC,HUANGH,et al. Wide-area time series data mining based transient voltage stability assessment [J]. Power System Technology,2016,40(1):180-185.
    [7]
    邓丰,李鹏,曾祥君,等. 基于D-PMU的配电网故障选线和定位方法 [J].电力系统自动化,2020,44(19):160-167.

    DENGF,LIP,ZENGX J,et al. Fault line selection and location method based on synchrophasor measurement unit for distribution network [J]. Automation of Electric Power Systems,2020,44(19):160-167.
    [8]
    王宾,孙华东,张道农. 配电网信息共享与同步相量测量应用技术评述 [J]. 中国电机工程学报,2015,35(增刊1):1-7.

    WANGB,SUNH D,ZHANGD N. Review on data sharing and synchronized phasor measurement technique with application in distribution systems [J]. Proceedings of the CSEE,2015,35(Supp.1):1-7.
    [9]
    LIUY,ZHANL,ZHANGY,et al. Wide-area-measurement system development at the distribution level:an FNET/grideye example [J]. IEEE Transactions on Power Delivery,2016,31(2):721-731.
    [10]
    孔祥玉,袁枭枭,王玉婷,等. 配电网D-PMU优化配置方法和软件实现技术 [J]. 南方电网技术,2019,13(4):25-30.

    KONGX Y,YUANX X,WANGY T,et al. Optimal configuration method and software implementation technology for D-PMU in distribution network [J]. Southern Power System Technology,2019,13(4):25-30.
    [11]
    刘灏,毕天姝,徐全,等. 配电网高精度同步相量测量技术方案与展望 [J]. 电力系统自动化,2020,44(18):23-29.

    LIUH,BIT S,XUQ,et al. Scheme and prospect of high-precision synchrophasor measurement technology for distribution network [J]. Automation of Electric Power Systems,2020,44(18):23-29.
    [12]
    盛万兴,方恒福,沈玉兰,等. 考虑量测时延时基于3种数据融合的配网状态估计 [J]. 电力系统及其自动化学报,2019,31(12):108-115.

    SHENGW X,FANGH F,SHENY L,et al. Distribution state estimation based on fusion of three data sources considering measurement delay [J]. Automation of Electric Power Systems,2019,31(12):108-115.
    [13]
    王澍,严正,孔祥瑞,等. 主动配电网多目标PMU最优配置 [J]. 电网技术,2019,43(3):833-840.

    WANGS,YANZ,KONGX R,et al. Multi-objective optimal placement of PMU in active distribution network [J]. Power System Technology,2019,43(3):833-840.
    [14]
    张黎元,黄潇潇,张杰,等. 基于D-PMU量测信息的有源配电网故障诊断方法 [J]. 电力系统及其自动化学报,2019,31(10):145-150.

    ZHANGL Y,HUANGX X,ZHANGJ,et al. Fault diagnosis method for active power distribution network based on D-PMU measurement information [J]. Proceedings of the CSU-EPSA,2019,31(10):145-150.
    [15]
    于力,焦在滨,王晓鹏,等. 基于PMU的中压配电网精确故障定位方法及关键技术 [J]. 电力系统自动化,2020,44(18):30-38.

    YUL,JIAOZ B,WANGX P,et al. Accurate fault location scheme and key technology of medium-voltage distribution network with synchrophasor measurement units [J]. Automation of Electric Power Systems,2020,44(18):30-38.
    [16]
    徐箭,廖思阳,魏聪颖,等. 基于广域量测信息的配电网协调控制技术展望 [J]. 电力系统自动化,2020,44(18):12-22.

    XUJ,LIAOS Y,WEIC Y,et al. Prospect of coordinated control technology in distribution network based on wide-area measurement information [J]. Automation of Electric Power Systems,2020,44(18):12-22.
  • Related Articles

    [1]LIU Wei. Optimization Design of Traffic Organization for Large Waste Incineration Power Plant[J]. SOUTHERN ENERGY CONSTRUCTION, 2024, 11(S1): 80-88. DOI: 10.16516/j.ceec.2024.S1.12
    [2]SUN Xiang, LIU Chengliang, NIU Xia, ZHAO Luyao. Research on Typical Design of Wind-Solar Coupled Hydrogen Production System[J]. SOUTHERN ENERGY CONSTRUCTION, 2023, 10(3): 112-119. DOI: 10.16516/j.gedi.issn2095-8676.2023.03.012
    [3]Yongzhao LAO, Renbo WU, Jian XIAO, Quan XU, Lüpeng CHEN. Research on Design Scheme of Real-Time Synchronous Monitoring System for Line Loss of Medium Voltage Distribution Network[J]. SOUTHERN ENERGY CONSTRUCTION, 2022, 9(S1): 139-146. DOI: 10.16516/j.gedi.issn2095-8676.2022.S1.021
    [4]Yongzhao LAO, Renbo WU, Jian XIAO, Quan XU, Lüpeng CHEN. Research on Voltage Sag Source-Locating System Design of Distribution Network Based on Synchronous Phasor Measurement[J]. SOUTHERN ENERGY CONSTRUCTION, 2022, 9(1): 115-121. DOI: 10.16516/j.gedi.issn2095-8676.2022.01.017
    [5]Yu LIU. Case Analysis of Heating Reconstruction Project of Coal Fired Unit[J]. SOUTHERN ENERGY CONSTRUCTION, 2021, 8(S1): 97-101. DOI: 10.16516/j.gedi.issn2095-8676.2021.S1.016
    [6]Xiao YAN. Research on Structural Design of Main Building of 9H Class Gas-Steam Combined Cycle Unit[J]. SOUTHERN ENERGY CONSTRUCTION, 2021, 8(S1): 80-87. DOI: 10.16516/j.gedi.issn2095-8676.2021.S1.013
    [7]Hui CHEN, Ying LIU, Longsheng ZHAO. Typical Case Analysis of the Building-type CCHP System[J]. SOUTHERN ENERGY CONSTRUCTION, 2021, 8(1): 25-30. DOI: 10.16516/j.gedi.issn2095-8676.2021.01.003
    [8]Guanyan PENG, Fenglei MU, Lan GUAN, Jiquan LIU, Tianjiao LI. Intelligence Inspection System Design of DC Indoor Switch Yard in ±1 100 kV Converter Substation[J]. SOUTHERN ENERGY CONSTRUCTION, 2017, 4(4): 118-123. DOI: 10.16516/j.gedi.issn2095-8676.2017.04.022
    [9]Fengshun JIAO, Jinsong ZHANG, Sheng TANG, Xiaozhen LI, Zhikeng LI. Research on Comprehensive Benefits Evaluation of Smart Distribution Grid[J]. SOUTHERN ENERGY CONSTRUCTION, 2017, 4(1): 134-137. DOI: 10.16516/j.gedi.issn2095-8676.2017.01.026
    [10]NIE Guanghui. Analysis of Technology Situation and Discussion on Market Potential for Intelligent Power Distribution Terminal[J]. SOUTHERN ENERGY CONSTRUCTION, 2016, 3(S1): 88-92. DOI: 10.16516/j.gedi.issn2095-8676.2016.S1.019
  • Cited by

    Periodical cited type(6)

    1. 李杰. 配电网调度运行故障及解决措施. 农村电气化. 2023(03): 86-87 .
    2. 李学斌,刘剑,马麟,韩云阳,赵洁琼,李富春. 储能参与配电网削峰填谷对网络损耗及电压偏差的影响分析. 南方能源建设. 2023(06): 51-63 . 本站查看
    3. 崔良,高岩,胡文丽,张雷. 基于高精广域PMU的微观监测系统在有源配电网中的应用. 河北电力技术. 2023(05): 46-50 .
    4. 黄华,谢静媛,汪正玲,申葳,张伟鹏. 基于时频分析法的开关柜避雷器泄漏电流检测. 南方能源建设. 2022(04): 150-158 . 本站查看
    5. 李秋硕,李童佳,林冬,裴丛仙子,李伟华,张玮. 基于节点脆弱度的主动配电网量测终端配置规划方法. 供用电. 2021(10): 35-40 .
    6. 甘忠. 配电网调度运行故障及解决措施. 光源与照明. 2021(05): 123-124 .

    Other cited types(2)

Catalog

    Lüpeng CHEN

    1. On this Site
    2. On Google Scholar
    3. On PubMed

    Figures(4)

    Article Metrics

    Article views (1186) PDF downloads (85) Cited by(8)

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return