Fuzzy comprehensive evaluation of static flood control capability of substation

doi:10.19781/j.issn.1673-9140.2024.06.007

Home > Archive>Volume 39, Issue 6, 2024 >60-68. DOI:10.19781/j.issn.1673-9140.2024.06.007

Fuzzy comprehensive evaluation of static flood control capability of substation
DOI:
                        10.19781/j.issn.1673-9140.2024.06.007
                    
CSTR:
                        
                    
Author:
                        WANG Xiaohui1WANG Xiaohui
State Grid Henan Electric Power Company, Zhengzhou 450003, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
XIA Zhongyuan1XIA Zhongyuan
State Grid Henan Electric Power Company, Zhengzhou 450003, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
LAN Guangyu1LAN Guangyu
State Grid Henan Electric Power Company, Zhengzhou 450003, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site
WANG Chao2WANG Chao
Electric Power Research Institute, State Grid Henan Electric Power Company, Zhengzhou 450052, China
Find this author on All Journals
Find this author on BaiDu
Search for this author on this site

                    
Affiliation:(1.State Grid Henan Electric Power Company, Zhengzhou 450003, China; 2.Electric Power Research Institute, State Grid Henan Electric Power Company, Zhengzhou 450052, China)
Clc Number:TM715
Fund Project:

Article

Figures

Metrics

Reference [22]

Cited by

Materials

Comments

Abstract:

Substations are important hubs for transmitting electricity in power grids, and the assessment of their flood control capabilities is crucial for improving flood warning systems of power grids. However, factors affecting the static flood control of substations are complex, and the assessment process is highly subjective and fuzzy, which poses difficulties for static evaluation. To solve this problem, a static flood control capability evaluation index system of substations is constructed, and then a fuzzy comprehensive evaluation algorithm for the static flood control capability of substations based on combination weighting is proposed. The algorithm uses game theory to combine the analytic hierarchy process and entropy weight method to weigh the evaluation indicators and finally adopts the fuzzy comprehensive evaluation method to obtain the evaluation results. The experimental results show that the game theory-based combination weighting method can balance the subjective analysis of the analytic hierarchy process and the objective analysis of the entropy weight method well, and the calculation results are consistent with the flood disaster causation mechanism. The fuzzy comprehensive evaluation method proposed in this paper is reasonable and effective, with high confidence in the conclusions, and it can provide reference and decision-making assistance for actual flood warnings of substations.

Key words:flood control of substation; combination weighting; analytic hierarchy process; entropy weight method; fuzzy comprehensive evaluation

Reference

[1] 王津宇,兰光宇,卢明,等.面向变电站防汛的熵权分配混杂风险评估[J].电力系统及其自动化学报,2023,35(7):74-82.WANG Jinyu,LAN Guangyu,LU Ming,et al.Hybrid risk assessment of entropy weight allocation for substation flood control[J].Proceedings of the CSU-EPSA,2023,35(7):74-82.

[2] 陈浩,王健.基于差分粒子群算法的变电站选址定容规划[J].电力工程技术,2018,37(3):118-122.CHEN Hao,WANG Jian.The optimization of substation locating and sizing based on DEPSO algorithm[J].Electric Power Engineering Technology,2018,37(3):118-122.

[3] 龙鑫玉,石英,林朝俊.基于改进Transformer的电网防汛风险概率预测[J].武汉理工大学学报,2022,44(9):79-88.LONG Xinyu,SHI Ying,LIN Chaojun.Flood risk probability prediction for power grid based on improved transformer[J].Journal of Wuhan University of Technology,2022,44(9):79-88.

[4] 张伟骏,李智诚,陈大玮,等.配网侧分布式储能系统的随机优化配置和选址方法[J].高压电器,2023,59(7):125-135. ZHANG Weijun,LI Zhicheng,CHEN Dawei,et al.Stochastic optimal configuration and site selection method of grid-side distributed energy storage system[J].High Voltage Apparatus,2023,59(7):125-135.

[5] 朱文君,陈金涛,赵舫,等.基于改进灰色聚类法的配电台区电能表质量评价方法[J].电测与仪表,2022,59(12): 189-195. ZHU Wenjun,CHEN Jintao,ZHAO Fang,et al.Quality evaluation method of electricity meter of distribution station area based on improved grey clustering method[J].Electrical Measurement & Instrumentation,2022,59(12):189-195.

[6] AL-MANJI S,LOVETT J,MITCHELL G.Factors affecting disaster resilience in Oman:integrating stakeholder analysis and fuzzy cognitive mapping[J].Risk,Hazards & Crisis in Public Policy,2021,12(1):29-50.

[7] WANG X D,ZHENG W D,TIAN W,et al.Groundwater hydrogeochemical characterization and quality assessment based on integrated weight matter-element extension analysis in Ningxia,upper Yellow River,Northwest China[J].Ecological Indicators,2022,135:108525.

[8] 刘亚鑫,蔺红.计及碳交易与条件风险值的虚拟电厂竞价策略[J].电力工程技术,2023,42(6):179-188. LIU Yaxin,LIN Hong.Bidding strategy of virtual power plant considering carbon trading and conditional value at risk[J].Electric Power Engineering Technology,2023,42(6):179-188.

[9] 孙辉,张国庆,高博,等.采用组合赋权法的智能变电站继电保护设备状态模糊综合评估[J].电测与仪表,2020,57(7):23-28+34.SUN Hui,ZHANG Guoqing,GAO Bo,et al.Fuzzy comprehensive evaluation of relay protection equipment status in intelligent substations based on combination weighting method[J].Electrical Measurement & Instrumentation,2020,57(7):23-28+34.

[10] 徐文宝,周建华.基于改进模糊层次综合评判法的输电线路舞动预警[J].电力工程技术,2021,40(5):107-113.XU Wenbao,ZHOU Jianhua.Early warning model of transmission line galloping based on improved fuzzy hierarchical comprehensive evaluation[J].Electric Power Engineering Technology,2021,40(5):107-113.

[11] 吕霖冰,陈海鹏,陈宇恒.地表覆盖成果质量的模糊综合评价模型与方法[J].测绘通报,2021(11):136-139+160.LYU Linbing,CHEN Haipeng,CHEN Yuheng.Quality assessment for land cover classification products based on fuzzy-AHP synthesis model[J].Bulletin of Surveying and Mapping,2021(11):136-139+160.

[12] 张玉华,蔡甜.城市暴雨内涝灾害风险模糊综合评价体系构建研究[J].水利规划与设计,2019(11):103-107.ZHANG Yuhua,CAI Tian.Construction of fuzzy comprehensive evaluation system for urban rainstorm and waterlogging disaster risk[J].Water Resources Planning and Design,2019(11):103-107.

[13] 陈海涛,徐嘉豪.基于熵权模糊综合评价模型的河南省水资源承载力评价[J].人民珠江,2020,41(1):48-53+116.CHEN Haitao,XU Jiahao.Evaluation of water resources carrying capacity in Henan Province based on entropy-weight fuzzy comprehensive evaluation model[J].Pearl River,2020,41(1):48-53+116.

[14] 施萱轩,孟军,梁浩,等.配电网故障抢修质量与效率评价体系研究[J].电力工程技术,2018,37(5):143-147+154.SHI Xuanxuan,MENG Jun,LIANG Hao,et al.Quality and efficiency evaluation system of distribution network fault repair[J].Electric Power Engineering Technology,2018,37(5):143-147+154.

[15] 谢捷,刘玮,徐月顺,等.基于AHP-熵权法的西宁地区汛期暴雨灾害风险评估[J].自然灾害学报,2022,31(3):60-74.XIE Jie,LIU Wei,XU Yueshun,et al.Rainstorm disaster risk assessment in Xining area in rainy season based on the AHP weight method and entropy weight method[J].Journal of Natural Disasters,2022,31(3):60-74.

[16] 向思阳,蔡泽祥,刘平,等.基于AHP-反熵权法的配电网低碳运行模糊综合评价[J].电力科学与技术学报,2019,34(4):69-76.XIANG Siyang,CAI Zexiang,LIU Ping,et al.Fuzzy comprehensive evaluation of the low-carbon operation of distribution network based on AHP-anti-entropy method[J].Journal of Electric Power Science and Technology,2019,34(4):69-76.

[17] 郝如海,智勇,祁莹,等.基于熵权法的新能源高渗透率送端电网风险模糊综合评价[J].电力科学与技术学报,2021,36(1):73-78.HAO Ruhai,ZHI Yong,QI Ying,et al.Fuzzy synthetic evaluation based on entropy method of high renewable energy penetration power grid at sending end[J].Journal of Electric Power Science and Technology,2021,36(1):73-78.

[18] 戴国华,戴睿,张琪瑞,等.基于主客观赋权相结合的省级电网发展诊断分析方法与实证研究[J].电力系统保护与控制,2022,50(2):110-118.DAI Guohua,DAI Rui,ZHANG Qirui,et al.Empirical study and analysis of provincial power grid development diagnosis based on the combination of a subjective and objective weighting method[J].Power System Protection and Control,2022,50(2):110-118.

[19] 贺春光,檀晓林,周兴华,等.基于博弈论组合赋权的智能配电网项目投资效益评价[J].电力科学与技术学报,2022,37(1):161-167.HE Chunguang,TAN Xiaolin,ZHOU Xinghua,et al.Investment benefit evaluation of intelligent distribution network project based on game theory combination weighting[J].Journal of Electric Power Science and Technology,2022,37(1):161-167.

[20] 胡述筌,李海锋,刘婉怡.基于层次分析法?熵值法的轨道交通土建系统风险评价体系研究[J].城市轨道交通研究,2022,25(7):74-79.HU Shuquan,LI Haifeng,LIU Wanyi.Study on risk assessment system of rail transit civil infrastructure based on AHP-entropy method[J].Urban Mass Transit,2022,25(7):74-79.

[21] 刘明吉,王秀峰,黄亚楼.数据挖掘中的数据预处理[J].计算机科学,2000,27(4):54-57.LIU Mingji,WANG Xiufeng,HUANG Yalou.Data preprocessing in data mining[J].Computer Science,2000,27(4):54-57.

[22] 闫威,陈长怀,陈燕.层次分析法一致性指标的临界值研究[J].数理统计与管理,2011,30(3):414-423.YAN Wei,CHEN Changhuai,CHEN Yan.The threshold value of consistency index for analytic hierarchy process[J].Journal of Applied Statistics and Management,2011,30(3):414-423.

Get Citation

王晓辉,夏中原,兰光宇,王超.变电站静态防汛能力模糊综合评估[J].电力科学与技术学报英文版,2024,39(6):60-68. WANG Xiaohui, XIA Zhongyuan, LAN Guangyu, WANG Chao. Fuzzy comprehensive evaluation of static flood control capability of substation[J]. Journal of Electric Power Science and Technology,2024,39(6):60-68.

Copy

Article Metrics

Abstract:136
PDF: 146
HTML: 0
Cited by: 0

History

Received:
Revised:
Adopted:
Online: February 14,2025
Published:

Get Citation

Related Videos

Share

Article Metrics

History

Article QR Code