Transient stability analysis of HVAC or HVDC transmission system based offshore wind farm

被引:0
|
作者
Inaba, Naoya [1 ]
Takahashi, Rion [1 ]
Tamura, Junji [1 ]
Kimura, Mamoru [2 ]
Komura, Akiyoshi [2 ]
Takeda, Kenji [2 ]
机构
[1] Kitami Inst Technol, 165 Koen Cho, Kitami, Hokkaido 090, Japan
[2] Hitachi lTD, Hitachi, Ibaraki, Japan
来源
2012 15TH INTERNATIONAL CONFERENCE ON ELECTRICAL MACHINES AND SYSTEMS (ICEMS 2012) | 2012年
关键词
HVAC transmission system; HVDC transmission system; Offshore wind turbine generation; Transient stability analysis;
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Electrical power generated in an offshore wind farm is transmitted to an onshore grid through submarine cables, in which there are two transmission methods, that is, high voltage alternate current (HVAC) and high voltage direct current (HVDC) transmission systems. HVAC transmission system has already been adopted in many offshore wind farms. HVDC transmission system is suitable for long distance power transmission. This paper presents a comparative analysis on the transient stability of the offshore wind farm connected to an onshore grid through HVAC or HVDC system for a ground fault on the onshore grid.
引用
收藏
页数:6
相关论文
共 50 条
  • [1] Economic comparison of VSC HVDC and HVAC as transmission system for a 300 MW offshore wind farm
    Van Eeckhout, B.
    Van Hertem, D.
    Reza, M.
    Srivastava, K.
    Belmans, R.
    [J]. EUROPEAN TRANSACTIONS ON ELECTRICAL POWER, 2010, 20 (05): : 661 - 671
  • [2] Comparison of VSC based HVDC and HVAC interconnections to a large offshore wind farm
    Reidy, A
    Watson, R
    [J]. 2005 IEEE POWER ENGINEERING SOCIETY GENERAL MEETING, VOLS, 1-3, 2005, : 1 - 8
  • [3] Comparative cost analysis of VSC-HVDC and HVAC as transmission system for a 50 MW offshore wind farm in Hatiya Island
    Jahan, Md Sarower
    Hamim, S. J.
    Bhuiyan, Md Tasrif Imran
    Abeadin, Md Jaynal
    Chowdhury, Md Nabid
    [J]. 2020 2ND INTERNATIONAL CONFERENCE ON SUSTAINABLE TECHNOLOGIES FOR INDUSTRY 4.0 (STI), 2020,
  • [4] Transient behavior analysis of offshore wind farm integration system with MMC-HVDC
    Chen, Helin
    Xu, Zheng
    Tang, Geng
    Xue, Yinglin
    [J]. Dianli Xitong Zidonghua/Automation of Electric Power Systems, 2014, (12): : 112 - 118
  • [5] Coordinated Control of HVDC and HVAC Power Transmission Systems Integrating a Large Offshore Wind Farm
    Bidadfar, Ali
    Saborio-Romano, Oscar
    Sakamuri, Jayachandra Naidu
    Akhmatov, Vladislav
    Cutululis, Nicolaos Antonio
    Sorensen, Poul Ejnar
    [J]. ENERGIES, 2019, 12 (18)
  • [6] Power Flow Analysis of HVAC and HVDC Transmission Systems for Offshore Wind Parks
    da Silva, Filipe Faria
    Castro, Rui
    [J]. INTERNATIONAL JOURNAL OF EMERGING ELECTRIC POWER SYSTEMS, 2009, 10 (03):
  • [7] Stability control of HVDC transmission system for islanded wind farm
    Hao, Zhenghang
    Xiao, Zhongyun
    Zhang, Hongjun
    Tong, Weinan
    Long, Hang
    Li, Shaohua
    [J]. Gaodianya Jishu/High Voltage Engineering, 2016, 42 (07): : 2193 - 2198
  • [8] HVDC Collection System for Offshore Wind Farm
    Chatterjee, Dheeman
    Bhattacharya, Tanmoy
    [J]. PROCEEDINGS OF THE IECON 2016 - 42ND ANNUAL CONFERENCE OF THE IEEE INDUSTRIAL ELECTRONICS SOCIETY, 2016, : 4145 - 4150
  • [9] Transient Stability Enhancement of a Grid with HVDC Interconnected Offshore Wind Farm Using STATCOM
    Mohandas, Sujith P.
    Chandel, Ashwani Kumar
    [J]. ARABIAN JOURNAL FOR SCIENCE AND ENGINEERING, 2013, 38 (09) : 2481 - 2491
  • [10] Transient Stability Enhancement of a Grid with HVDC Interconnected Offshore Wind Farm Using STATCOM
    Sujith P. Mohandas
    Ashwani Kumar Chandel
    [J]. Arabian Journal for Science and Engineering, 2013, 38 : 2481 - 2491
12345