Electric Power ›› 2020, Vol. 53 ›› Issue (4): 13-21.DOI: 10.11930/j.issn.1004-9649.201906010
Previous Articles Next Articles
ZHANG Yi1, CHEN Qixin1, XIA Qing1, SHI Lei2, YU Le2, XIE Xu2, ZHANG Jing2
Received:
2019-02-21
Revised:
2019-10-09
Published:
2020-04-05
Supported by:
ZHANG Yi, CHEN Qixin, XIA Qing, SHI Lei, YU Le, XIE Xu, ZHANG Jing. Active Distribution Network Cost Allocation Method Based on Distribution Factor Method[J]. Electric Power, 2020, 53(4): 13-21.
[1] 钟清, 余南华, 孙闻, 等. 主动配电网分布式电源规划及经济性分析[J]. 电力系统及其自动化学报, 2014, 26(11): 82–86 ZHONG Qing, YU Nanhua, SUN Wen, et al. Distribution generation programming and economical analysis of active distribution network[J]. Proceedings of the CSU-EPSA, 2014, 26(11): 82–86 [2] 钟清, 余南华, 尤毅, 等. 主动配电网技术特性及评估指标体系[J]. 电力建设, 2015, 36(1): 122–127 ZHONG Qing, YU Nanhua, YOU Yi, et al. Technical characteristics and evaluation index system of active distribution network[J]. Electric Power Construction, 2015, 36(1): 122–127 [3] HAPP H H. Cost of wheeling methodologies[J]. IEEE Transactions on Power Systems, 1994, 9(1): 147–156. [4] 曾鸣. 电力市场理论及应用[M]. 北京: 中国电力出版社, 2000. [5] LIMA J W M, PEREIRA M V F, PEREIRA J L R. An integrated framework for cost allocation in a multi-owned transmission system[J]. IEEE Transactions on Power Systems, 1995, 10(2): 971–977. [6] SHIRMOHAMMADI D, GRIBIK P R, LAW E T K, et al. Evaluation of transmission network capacity use for wheeling transactions[J]. IEEE Transactions on Power Systems, 1989, 4(4): 1405–1413. [7] 荆朝霞, 刘瑗瑗, 曾丽. 4种电网源流分析方法比较[J]. 电力系统自动化, 2010, 34(23): 42–51 JING Zhaoxia, LIU Yuanyuan, ZENG Li. Comparison between four commonly used power flow composition analytic methods[J]. Automation of Electric Power Systems, 2010, 34(23): 42–51 [8] 荆朝霞, 段献忠, 文福拴, 等. 输电系统固定成本分摊问题[J]. 电力系统自动化, 2003, 27(16): 94–100 JING Zhaoxia, DUAN Xianzhong, WEN Fushuan, et al. A literature survey on allocations of transmission fixed costs[J]. Automation of Electric Power Systems, 2003, 27(16): 94–100 [9] PEREIRA F, SOARES J, FARIA P, et al. Allocation of fixed costs considering distributed generation and distinct approaches of demand response remuneration in distribution networks[C]//2016 Clemson Uni-versity Power Systems Conference (PSC), March 8-11, 2016. Clemson, SC. IEEE, 2016: 1-8. [10] ABDELMOTTELEB I, ROMAN T G S, RENESES J. Distribution network cost allocation using a locational and temporal cost reflective methodology[C]//2016 Power Systems Computation Conference (PSCC), June 20-24, 2016. Genoa, Italy. IEEE, 2016: 1-7. [11] NG W Y. Generalized generation distribution factors for power system security evaluations[J]. IEEE Power Engineering Review, 1981, PER-1(3): 18–19. [12] 陈彬, 于继来. 电力网络拓扑分析与源流路径链生成算法[J]. 电力系统及其自动化学报, 2012, 24(1): 25–31 CHEN Bin, YU Jilai. Algorithm of power network topology analysis and path chains generation[J]. Proceedings of the CSU-EPSA, 2012, 24(1): 25–31 [13] 荆朝霞, 廖名洋, 聂更生, 等. 输电固定成本分摊中最大化综合效益的源流分析方法[J]. 电力系统自动化, 2013, 37(23): 71–77 JING Zhaoxia, LIAO Mingyang, NIE Gengsheng, et al. A source-sink analysis method for maximizing social surplus in transmission fixed cost allocation[J]. Automation of Electric Power Systems, 2013, 37(23): 71–77 [14] 夏妍. 考虑输配电成本分摊的主动配电网日前交易模式研究[D]. 北京: 华北电力大学(北京), 2017. XIA Yan. Day-ahead transaction mode in active distribution network considering transmission and distribution cost allocation[D]. Beijing: North China Electric Power University, 2017. [15] 蔡晓波, 吴政球, 匡文凯, 等. 基于直流分布因子的可用输电能力灵敏度分析[J]. 电网技术, 2006, 30(18): 45–48 CAI Xiaobo, WU Zhengqiu, KUANG Wenkai, et al. Study on sensitivity of available transfer capability based on DC distribution factors[J]. Power System Technology, 2006, 30(18): 45–48 [16] GALETOVIC A, MUNOZMONTECINOS C. The new Chilean transmission charge scheme as compared with current allocation methods[J]. IEEE Transactions on Power Systems, 2006, 21(1): 99–107. [17] SAXENA A, PANDEY S N, SRIVASTAVA L. DC-OPF based allocation of wheeling prices for varying contribution of producers and customers[C]//2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES), July 4-6, 2016. Delhi, India. IEEE, 2016: 1-5. [18] RADZI N H, DONG Z Y, HASSAN M Y. A new transmission charging methodology for Australian National Electricity Market[C]//2011 IEEE PES Innovative Smart Grid Technologies, November 13-16, 2011. Perth, WA. IEEE, 2011: 1-8. [19] 何天雨, 卫志农, 孙国强, 等. 基于网损等值负荷模型的改进直流最优潮流算法[J]. 电力系统自动化, 2016, 40(6): 58–64 HE Tianyu, WEI Zhinong, SUN Guoqiang, et al. Modified direct current optimal power flow algorithm based on net loss equivalent load model[J]. Automation of Electric Power Systems, 2016, 40(6): 58–64 [20] 谭玉东, 李欣然, 蔡晔, 等. 基于电气距离的复杂电网关键节点识别[J]. 中国电机工程学报, 2014, 34(1): 146–152 TAN Yudong, LI Xinran, CAI Ye, et al. Critical node identification for complex power grid based on electrical distance[J]. Proceedings of the CSEE, 2014, 34(1): 146–152 |
[1] | Pengfei FAN, Baoqin LI, Jiangwei HOU, Rong LI, Chongming SONG, Kaijun LIN. Economic Capacity Assessment of Renewables in Distribution Networks [J]. Electric Power, 2024, 57(7): 196-202. |
[2] | Jiawu WANG, Dianyun ZHAO, Changfeng LIU, Kang CHEN, Yumin ZHANG. Analytical Target Cascading Based Active Distribution Network Level Multi-agent Autonomous Collaborative Optimization [J]. Electric Power, 2024, 57(7): 214-226. |
[3] | Hao JIAO, Yanyan YIN, Chen WU, Jian LIU, Chunlei XU, Xian XU, Guoqiang SUN. Coordinated Optimization of Active and Reactive Power of Active Distribution Network Based on Safety Reinforcement Learning [J]. Electric Power, 2024, 57(3): 43-50. |
[4] | Tiecheng LI, Hui FAN, Weiming ZHANG, Xianzhi WANG, Yihong ZHANG, Zhihui DAI. Pilot Protection of New Energy Transmission Line in Active Distribution Network Based on 5G Communication [J]. Electric Power, 2024, 57(11): 139-150. |
[5] | Xundong GONG, Weijia GUO, Chen YANG, Li ZHOU, Xiaofeng DONG, Junpeng ZHU. Multi-stage Fault Recovery Strategy for Active Distribution Networks Based on Dynamic Islanding [J]. Electric Power, 2024, 57(1): 158-166. |
[6] | ZHU Pengcheng, LIU Zhaoyu, SUN Ke, XU Jie, HU Pengfei, JIANG Daozhuo. Optimal Scheduling of Honeycomb Distribution Network Based on BADMM [J]. Electric Power, 2023, 56(6): 90-100. |
[7] | TIAN Yu, HUANG Jing, XIE Xiao, WANG Ruoxin, SHEN Danqing, HE Lina, YANG Kaifan, CHEN Ruke. Multi-objective Optimal Allocation of Reactive Compensation and OLTC in Active Distribution Network [J]. Electric Power, 2023, 56(3): 94-99. |
[8] | Li ZHOU, Chuanyu XIONG, Fangchao KE, Zhiwei LI, Hong ZHANG, Ran CHEN, Wanfang LIU, Yazhou YU, Liqin REN. Economic Operation Method of Active Distribution Network Based on Blockchain and Endowment Effect [J]. Electric Power, 2023, 56(12): 58-68. |
[9] | Tiecheng LI, Hui FAN, Qian ZANG, Jiangbo REN, Weiming ZHANG, Yibo WANG. Multi-point Synchronous Protection Scheme for Active Distribution Network Based on 5G Communication [J]. Electric Power, 2023, 56(11): 113-120. |
[10] | RU Qiushi, MI Xuefeng, SONG Zhigang, LIU Jintao, LEI Xia. Hybrid-Timescale Robust Optimization in Active Distribution Network with Energy Storage System-Soft Open Point [J]. Electric Power, 2022, 55(9): 129-139. |
[11] | ZHANG Jin, HU Cungang, RUI Tao. A Day-Ahead Two-Stage Distributed Optimal Scheduling Method for Active Distribution Network Based on ADMM [J]. Electric Power, 2021, 54(5): 91-100. |
[12] | WENG Jiaming, LIU Dong, AN Yu, YIN Haoyang, HUANG Zhi, QIN Han. Cyber-Physical Risk Evolution Analysis of Active Distribution Network under Feeder Control Error [J]. Electric Power, 2021, 54(3): 13-22. |
[13] | XU Yanchun, ZHAO Caicai, SUN Sihan, MI Lu. Fault Location for Active Distribution Network Based on Improved LMD and Energy Relative Entropy [J]. Electric Power, 2021, 54(11): 133-143. |
[14] | XU Quan, YUAN Zhiyong, LEI Jinyong, LIN Yuehuan, BAI Hao, LI Peng. Improvement of Operational Flexibility for Active Distribution Networks Based on Soft Open Points [J]. Electric Power, 2021, 54(11): 82-90. |
[15] | XING Haijun, XIE Baojiang, QIN Jian, LUO Yangfan, LOU Weiming. Active Distribution Network Optimal Operation Considering Conservation Voltage Reduction [J]. Electric Power, 2021, 54(11): 76-81. |
Viewed | ||||||||||||||||||||||||||||||||||||||||||||||||||
Full text 952
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||
Abstract 126
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||