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ISSN 1000-7229
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ELECTRIC POWER CONSTRUCTION ›› 2022, Vol. 43 ›› Issue (12): 56-65.doi: 10.12204/j.issn.1000-7229.2022.12.006
• Planning and Design • Previous Articles Next Articles
TAN Qinliang1,2,3(), GUO Mingxin1(), LIU Yuan1(), HAN Jian1(), MEI Shufan1(), DING Yihong1()
Received:
2022-04-12
Online:
2022-12-01
Published:
2022-12-06
Contact:
TAN Qinliang
E-mail:tan.qinliang1@gmail.com;878118840@qq.com;clarencely517@163.com;hj19940929@163.com;524053493@qq.com;dingyh0528@163.com
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CLC Number:
TAN Qinliang, GUO Mingxin, LIU Yuan, HAN Jian, MEI Shufan, DING Yihong. Research on Low-Carbon Optimization Strategy of Regional Power Supply Based on Large-Scale V2G[J]. ELECTRIC POWER CONSTRUCTION, 2022, 43(12): 56-65.
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URL: https://www.cepc.com.cn/EN/10.12204/j.issn.1000-7229.2022.12.006
[1] |
贺瑜环, 杨秀媛, 陈麒宇, 等. 电动汽车智能充放电控制与应用综述[J]. 发电技术, 2021, 42(2): 180-192.
doi: 10.12096/j.2096-4528.pgt.20022 |
HE Yuhuan, YANG Xiuyuan, CHEN Qiyu, et al. Review of intelligent charging and discharging control and application of electric vehicles[J]. Power Generation Technology, 2021, 42(2): 180-192.
doi: 10.12096/j.2096-4528.pgt.20022 |
|
[2] | 李文博, 龙如银, 张琳玲. 电力跨区传输视角下电动汽车规模化应用的碳排放转移[J]. 北京理工大学学报(社会科学版), 2022, 24(1): 12-23. |
LI Wenbo, LONG Ruyin, ZHANG Linling. Carbon emission transfer by large-scale application of electric vehicles from the perspective of inter-regional electricity transmission[J]. Journal of Beijing Institute of Technology (Social Sciences Edition), 2022, 24(1): 12-23. | |
[3] | 国家发展和改革委员会能源研究所, 国家可再生能源中心, 清华大学, 等. 新能源发电与电动汽车协同发展战略研究[R/OL]. (2019-11-08) [2022-01-12]. https://max.book118.com/html/2019/1108/5143213144002200.shtm. |
[4] | 黄艳岩, 朱斌, 谷泓杰, 等. 基于V2G技术的微电网最优运营规划策略[J]. 智慧电力, 2021, 49(3): 26-31, 45. |
HUANG Yanyan, ZHU Bin, GU Hongjie, et al. Optimal operation planning strategy for microgrid considering V2G technology[J]. Smart Power, 2021, 49(3): 26-31, 45. | |
[5] | 蒋红进, 蒋红彪, 朱兰, 等. 计及电动汽车不确定性的微电网规划研究[J]. 电测与仪表, 2018, 55(8): 58-65, 76. |
JIANG Hongjin, JIANG Hongbiao, ZHU Lan, et al. Research on micro-grid planning considering uncertainty of electric vehicle[J]. Electrical Measurement & Instrumentation, 2018, 55(8): 58-65, 76. | |
[6] | 王博, 艾欣. 考虑V2G用户响应度的峰谷电价时段优化有序充电[J]. 现代电力, 2016, 33(2): 39-44. |
WANG Bo, AI Xin. Coordinated charging of peak-valley time-period optimization by considering V2G user reactivity[J]. Modern Electric Power, 2016, 33(2): 39-44. | |
[7] | 王誉博, 龚庆武, 乔卉, 等. 考虑电动汽车用户意愿的滚动优化调度[J]. 电力自动化设备, 2022, 42(10):54-61. |
WANG Yubo, GONG Qingwu, QIAO Hui, et al. Adaptive adjustment mechanism of electric vehicle charging service fee based on smart contract[J]. Electric Power Automation Equipment, 2022, 42(10):54-61. | |
[8] | 陈盛凯, 杨伟, 徐泽, 等. 考虑电动汽车V2G的分布式电源优化配置[J]. 电力电容器与无功补偿, 2021, 42(5): 143-149. |
CHEN Shengkai, YANG Wei, XU Ze, et al. Optimal allocation for distributed generation considering V2G of electric vehicle[J]. Power Capacitor & Reactive Power Compensation, 2021, 42(5): 143-149. | |
[9] |
FATHABADI H. Utilization of electric vehicles and renewable energy sources used as distributed generators for improving characteristics of electric power distribution systems[J]. Energy, 2015, 90: 1100-1110.
doi: 10.1016/j.energy.2015.06.063 URL |
[10] | 黄汉远, 顾丹珍, 郑德博. 远期大规模的电动汽车与分布式光伏接入配电网的负荷预测模型[J]. 可再生能源, 2021, 39(5): 650-657. |
HUANG Hanyuan, GU Danzhen, ZHENG Debo. The load forecasting model of long-term large-scale electric vehicle and distributed photovoltaic access distribution network[J]. Renewable Energy Resources, 2021, 39(5): 650-657. | |
[11] | 潘振宁, 余涛, 王克英. 考虑多方主体利益的大规模电动汽车分布式实时协同优化[J]. 中国电机工程学报, 2019, 39(12): 3528-3541. |
PAN Zhenning, YU Tao, WANG Keying. Decentralized coordinated dispatch for real-time optimization of massive electric vehicles considering various interests[J]. Proceedings of the CSEE, 2019, 39(12): 3528-3541. | |
[12] | 罗继东, 邹梦丽, 侯宝华, 等. 考虑V2G及碳排放量的风光储综合能源系统协调优化运行[J/OL]. 电测与仪表, 2022 [2022-04-02]. http://kns.cnki.net/kcms/detail/23.1202.TH.20211008.1549.002.html. |
LUO Jidong, ZOU Mengli, HOU Baohua, et al. Coordinated and optimal operation of wind solar energy storage system considering V2G and carbon emission[J/OL]. Electrical Measurement & Instrumentation, 2022 [2022-04-02]. http://kns.cnki.net/kcms/detail/23.1202.TH.20211008.1549.002.html. | |
[13] |
杨蕾, 吴琛, 黄伟, 等. 含高比例风光新能源电网的多目标无功优化算法[J]. 电力建设, 2020, 41(7): 100-109.
doi: 10.12204/j.issn.1000-7229.2020.07.013 |
YANG Lei, WU Chen, HUANG Wei, et al. Pareto-based multi-objective reactive power optimization for power grid with high-penetration wind and solar renewable energies[J]. Electric Power Construction, 2020, 41(7): 100-109.
doi: 10.12204/j.issn.1000-7229.2020.07.013 |
|
[14] | 詹长杰, 周步祥. 基于PCA-SVM模型的中长期电力负荷预测[J]. 电测与仪表, 2015, 52(9): 6-10, 40. |
ZHAN Changjie, ZHOU Buxiang. The medium and long term power load forecasting model based on PCA-SVM[J]. Electrical Measurement & Instrumentation, 2015, 52(9): 6-10, 40. | |
[15] | 杨伍梅, 刘陶文. 基于MATLAB的多目标规划问题的理想点法求解[J]. 湖南城市学院学报(自然科学版), 2017, 26(4): 60-63. |
YANG Wumei, LIU Taowen. Research on the ideal point method of multi-objective programming based on MATLAB[J]. Journal of Hunan City University (Natural Science), 2017, 26(4): 60-63. | |
[16] |
CHEN C, ZENG X T, YU L, et al. Planning energy-water nexus systems based on a dual risk aversion optimization method under multiple uncertainties[J]. Journal of Cleaner Production, 2020, 255: 120100.
doi: 10.1016/j.jclepro.2020.120100 URL |
[17] |
ZHEN J L, WU C B, LIU X R, et al. Energy-water nexus planning of regional electric power system within an inexact optimization model in Tangshan City, China[J]. Journal of Cleaner Production, 2020, 266: 121997.
doi: 10.1016/j.jclepro.2020.121997 URL |
[18] | 王彪, 尹霞. 实时电价下含V2G功能的电动汽车理性充放电模型及其分析[J]. 电力系统保护与控制, 2016, 44(24): 90-96. |
WANG Biao, YIN Xia. Modeling and analysis on the rational charging and discharging of electric vehicle with V2G function under real-time prices[J]. Power System Protection and Control, 2016, 44(24): 90-96. | |
[19] |
罗浩成, 胡泽春, 张洪财. 环境温度对电动汽车充电负荷的影响分析[J]. 电力建设, 2015, 36(7): 69-74.
doi: 10.3969/j.issn.1000-7229.2015.07.009 |
LUO Haocheng, HU Zechun, ZHANG Hongcai. Effect analysis of ambient temperature on electric vehicle charging load[J]. Electric Power Construction, 2015, 36(7): 69-74.
doi: 10.3969/j.issn.1000-7229.2015.07.009 |
|
[20] | 檀勤良, 丁毅宏, 魏咏梅, 等. 碳交易及模糊预算下火电企业碳减排最优策略研究[J]. 电网技术, 2019, 43(10):3707-3715. |
TAN Qinliang, DING Yihong, WEI Yongmei, et al. Research on optimal strategy of carbon emission reduction for thermal power enterprises under carbon trading and fuzzy budget[J]. Power System Technology, 2019, 43(10):3707-3715. |
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