四川省实现高比例可再生能源接入的发展研究
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摘要
为打造四川清洁能源生产基地与优质电能输送枢纽,将是省能源发展战略的重点。梳理四川省能源发展现状及趋势,整合水电、风电、光伏发电,实现高比例可再生能源接入,探讨发展战略的技术支撑,提出新的电网规划方法,并给出规划模型以及系统经济特性分析模型,同时提供了相关的政策建议。
The focus of the energy development strategy for Sichuan Province is to make it a clean energy production base and a high quality power transmission hub. Considering the current status and future trend of the energy development in Sichuan Province,development strategies are proposed to realize the high proportion integration of renewable energies such as the hydropower,solar power and photovoltaic power. Technical support conditions required are discussed.A new power grid planning method is proposed,in which the planning model and the systematic economic characteristics analysis model are given. Also,relevant policy suggestions are provided.
The focus of the energy development strategy for Sichuan Province is to make it a clean energy production base and a high quality power transmission hub. Considering the current status and future trend of the energy development in Sichuan Province,development strategies are proposed to realize the high proportion integration of renewable energies such as the hydropower,solar power and photovoltaic power. Technical support conditions required are discussed.A new power grid planning method is proposed,in which the planning model and the systematic economic characteristics analysis model are given. Also,relevant policy suggestions are provided.
引文
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[2]王蓓蓓,赵盛楠,刘小聪,等.面向可再生能源消纳的智能用电关键技术分析与思考[J].电网技术,2016,40(12):3 894-3 903
[3]Ma Z,Pesaran A,Gevorgian V,et al. Energy storage,renewable power generation,and the grid:NREL capabilities help to develop and test energy-storage technologies[J]. IEEE Electrification Magazine,2015,3(3):30-40
[4]徐熙林,宋依群,姚良忠,等.高比例可再生能源受端区域电网调峰的出力网际分配[J].电力自动化设备,2017,37(8):43-51
[5]Wen G,Hu G,Hu J,et al. Frequency regulation of sourcegrid-load systems:a compound control strategy[J]. in IEEE Transactions on Industrial Informatics,2016,12(1):69-78
[6]金晶岚.燃煤机组参与深度调峰消纳可再生能源的可行性分析[D].北京:华北电力大学,2017
[7]Meng T,Qian M,Zhao D,et al. Peak regulation strategy of regional power systems for large-scale renewable generation accommodation[C]. Beijing:2018 IEEE International Conference on Energy Internet(ICEI),2018:99-104
[8]Chen Q,Littler T,Jiang W,et al. Offshore wind power impact on peak load regulation of power systems[C]. National Harbor:2014 IEEE PES General Meeting Conference&Exposition,2014:1-5
[9]鲁宗相,李海波,乔颖.含高比例可再生能源电力系统灵活性规划及挑战[J].电力系统自动化,2016,40(13):147-158
[10]Yi J,Lyons P F,Davison P,et al. Robust scheduling scheme for energy storage to facilitate high penetration of renewables[J]. IEEE Transactions on Sustainable Energy,2016,7(2):797-807
[11]Wei S,Zhou Y,Huang Y. Synchronous motor-generator pair to enhance small signal and transient stability of power system with high penetration of renewable energy[J]. IEEE Access,2017,5:11 505-11 512
[12]Kroposki B,Johnson B,Zhang Y,et al. Achieving a 100%renewable grid:operating electric power systems with extremely high levels of variable renewable energy[J]. IEEE Power and Energy Magazine,2017,15(2):61-73
[13]崔德民,赵海兵,方燕琼,等.考虑就地消纳与外送相协调的可再生能源生产模拟[J].电力系统保护与控制,2018,46(16):112-118
[14]Li Y,Wei L,Chi Y,et al. Study on the key factors of regional power grid renewable energy accommodating capability[C]. Xi'an:2016 IEEE PES Asia-Pacific Power and Energy Engineering Conference(APPEEC),2016:790-794
[15]Ngoko B,Sugihara H,Funaki T. A short-term dynamic thermal rating for accommodating increased fluctuations in conductor current due to intermittent renewable energy[C].Xi'an:2016 IEEE PES Asia-Pacific Power and Energy Engineering Conference(APPEEC),2016:141-145
[16]周孝信,陈树勇,鲁宗相,等.能源转型中我国新一代电力系统的技术特征[J].中国电机工程学报,2018,38(7):1 893-1 904,2 205
[17]林海雪.现代储能技术应用概况及展望[J].电源学报,2015,13(5):34-40,47
[18]Lawder MT,Suthar B,Northrop PWC,et al. Battery energy storage system(BESS)and battery management system(BMS)for grid-scale applications[J]. Proceedings of the IEEE,2014,102(6):1 014-1 030
[19]Maeda H,Yanagisawa Y. Recent developments in hightemperature superconducting magnet technology(Review)[J]. IEEE Transactions on Applied Superconductivity,2014,24(3):1-12
[20]Angeli G,Bocchi M,Ascade M,et al. Development of superconducting devices for power grids in Italy:Update about the SFCL project and launching of the research activity on HTS cables[J]. IEEE Transactions on Applied Superconductivity,2017,27(4):1-6
[21]Ruieneanu L. The potential of carbon capture and storage as a tool for the integration of RES[C]. Craiova:2014 International Conference on Applied and Theoretical Electricity,2014:1-4
[22]周任军,肖钧文,唐夏菲,等.电转气消纳新能源与碳捕集电厂碳利用的协调优化[J].电力自动化设备,2018,38(7):61-67
[23]叶云云,廖海燕,王鹏,等.我国燃煤发电CCS/CCUS技术发展方向及发展路线图研究[J].中国工程科学,2018,20(3):80-89
[24]戴彦,王刘旺,李媛,等.新一代人工智能在智能电网中的应用研究综述[J].电力建设,2018,39(10):1-11