考虑碳减排效益的可再生电源规划Renewable Power Planning Considering Carbon Emission Reduction Benefits
段建民;王志新;王承民;周勤勇;韩家辉;
摘要(Abstract):
针对风电、光伏等可再生能源的快速发展,给电力系统规划带来的显著影响,将各种能源发电的碳减排效益引入电源规划之中。首先介绍了风、光、水、火等各种发电形式的碳排放强度,结合单位CO2处理成本,得到各种电源的碳处理成本。在此基础上考虑风电、光伏出力的间歇性、波动性,在保证电力电量平衡的前提下,以发电运行成本、CO2处理成本最小为电源规划的目标函数,建立考虑碳减排效益的电源规划模型。最后,以IEEE 30节点测试系统结合我国某地区实际数据构造算例,应用蚁群算法求解,给出了不同工况下的规划结果,验证了所提出的模型与方法的合理性与有效性。
关键词(KeyWords): 可再生电源;碳排放;风电;光伏发电
基金项目(Foundation): 国家863高科技基金重大项目(2011AA05AA103);; 国网公司科技项目(XT71-13-032)~~
作者(Author): 段建民;王志新;王承民;周勤勇;韩家辉;
Email:
DOI: 10.13335/j.1000-3673.pst.2015.01.002
参考文献(References):
- [1]张一鹏.低碳经济背景下的新能源开发和利用[J].中外能源,2010,15(11):28-32.Zhang Yipeng.The development and utilization of new energy sources in a low-carbon[J].Sino-global Energy,2010,15(11):28-32(in Chinese).
- [2]康重庆,陈启鑫,夏清.低碳电力技术的研究展望[J].电网技术,2009,33(2):1-7.Kang Chongqing,Chen Qixin,Xia Qing.Prospects of low-carbon electricity[J].Power System Technology,2009,33(2):1-7(in Chinese).
- [3]陈启鑫,周天睿,康重庆,等.节能发电调度的低碳化效益评估模型及其应用[J].电力系统自动化,2009,33(16):24-29.Chen Qixin,Zhou Tianrui,Kang Chongqing,et al.An assessment model of low-carbon effect and its application to energy saving based generation dispatching[J].Automation of Electric Power Systems,2009,33(16):24-29(in Chinese).
- [4]康重庆,周天睿,陈启鑫,等.电网低碳效益评估模型及其应用[J].电网技术,2009,33(17):1-7.Kang Chongqing,Zhou Tianrui,Chen Qixin,et al.Assessment model on low-carbon effects of power grid and its application[J].Power System Technology,2009,33(17):1-7(in Chinese).
- [5]陈启鑫,康重庆,夏清,等.电力行业低碳化的关键要素分析及其对电源规划的影响[J].电力系统及其自动化,2009,33(15):18-23.Chen Qixin,Kang Chongqing,Xia Qing,et al.Key low-carbon factors in the evolution of power decarbonisation and their impacts on generation expansion planning[J].Automation of Electric Power Systems,2009,33(15):18-23(in Chinese).
- [6]娄素华,卢斯煜,吴耀武,等.低碳电力系统规划与运行优化研究综述[J].电网技术,2013,37(6):1483-1490.Lou Suhua,Lu Siyu,Wu Yaowu,et al.An overview on low-carbon power system planning and operation optimization[J].Power System Technology,2013,37(6):1483-1490(in Chinese).
- [7]张立军.风电场建模及电源扩展规划研究[D].合肥:合肥工业大学,2006.
- [8]张节潭.含风电场的电源规划研究[D].上海:上海交通大学,2009.
- [9]马艺玮,杨苹,郭红霞,等.风-光-沼可再生能源分布式发电系统电源规划[J].电网技术,2012,36(9):9-14.Ma Yiwei,Yang Ping,Guo Hongxia,et al.Power source planning of wind-PV-biogas renewable energy distributed generation system[J].Power System Technology,2012,36(9):9-14(in Chinese).
- [10]谢传胜,董达鹏,段凯彦,等.基于层次分析法-距离协调度的低碳电源电网规划协调度评价[J].电网技术,2012,36(11):1-6.Xie Chuansheng,Dong Dapeng,Duan Kaiyan,et al.Coordination degree evaluation of low carbon generation and grid planning based on analysis hierarchy process method and distance coordination degree[J].Power System Technology,2012,36(11):1-6(in Chinese).
- [11]丁然,康重庆,周天睿.低碳电网的技术途径分析与展望[J].电网技术,2011,35(10):1-8.Ding Ran,Kang Chongqing,Zhou Tianrui.Analysis and prospect on technical approaches for low carbon power grid[J].Power System Technology,2011,35(10):1-8(in Chinese).
- [12]曾鸣,吕春泉,邱柳青,等.风电并网时基于需求侧响应的输电规划模型[J].电网技术,2011,35(4):129-134.Zeng Ming,LüChunquan,Qiu Liuqing,et al.Demand-side response-based transmission planning model with grid-connected wind farms[J].Power System Technology,2011,35(4):129-134(in Chinese).
- [13]卢志刚,卢聪颖.碳捕集系统与风电协调投资的低碳效益分析[J].电网技术,2013,37(12):3303-3309.Lu Zhigang,Lu Congying.Low-carbon benefit based analysis on coordinating investment for carbon capture system and wind power system[J].Power System Technology,2013,37(12):3303-3309(in Chinese).
- [14]宋旭东,向铁元,熊虎,等.考虑碳排放权分配的低碳电源规划[J].电力系统自动化,2012,36(10):47-52.Song Xudong,Xiang Tieyuan,Xiong Hu,et al.Low carbon generation expansion planning based on carbon emission right allocation[J].Automation of Electric Power Systems,2012,36(10):47-52(in Chinese).
- [15]季震,陈启鑫,张宁,等.含碳捕集电厂的低碳电源规划模型[J].电网技术,2013,37(10):2689-2696.Ji Zhen,Chen Qixin,Zhang Ning,et al.Low-carbon generation expansion planning model incorporation carbon capture power plant[J].Power System Technology,2013,37(10):2689-2696(in Chinese).
- [16]龚道仁,陈迪,袁志钟.光伏发电系统碳排放计算模型及应用[J].可再生能源,2013,31(9):1-4.Gong Daoren,Chen Di,Yuan Zhizhong.Mathematics calculation model and application of CO2 emission of photovoltaic(PV)power generation system[J].Renewable Energy Resources,2013,31(9):1-4(in Chinese).
- [17]史珺.光伏发电成本的数学模型分析[J].太阳能,2002,26(5):53-56.Shi Jun.Mathematical model analysis of the cost of photovoltaic power generation[J].Solar Energy,2002,26(5):53-56(in Chinese).
- [18]郭敏晓.风力、光伏及生物质发电的生命周期CO2排放核算[D].北京:清华大学,2011.
- [19]赵雅敬.钢铁企业碳排放成本核算与评价研究[D].长沙:中南大学,2011.
- [20]叶发明.市场经济下的燃煤火电厂的发电成本分析[J].广东电力,2002,15(5):68-72.Ye Faming.Generation cost analysis of coal-fired power station in market economy situation[J].Guangdong Electric Power,2002,15(5):68-72(in Chinese).
- [21]牛艳利,李郁侠,师彪,等.基于动态成本理论的水电厂发电成本分析[J].西安理工大学学报,2011,27(2):219-223.Niu Yanli,Li Yuxia,Shi Biao,et al.The hydropower generation cost analysis based on dynamic cost theory[J].Journal of Xi’an University of Technology,2011,27(2):219-223(in Chinese).
- [22]秦小华,李志威,王亮.我国水电的碳减排累积效应与未来预期[J].中国农村水利水电,2013(1):140-143.Qin Xiaohua,Li Zhiwei,Wang Liang.Cumulative effect and future anticipation on carbon emission reduction of hydroelectric power in China[J].China Rural Water and Hydropower,2013(1):140-143(in Chinese).
- [23]李泓泽,郭森,王宝.基于遗传改进蚁群聚类算法的电力客户价值评价[J].电网技术,2012,36(12):256-261.Li Hongze,Guo Sen,Wang Bao.Evaluation on power customer value based on ants colony clustering algorithm optimized by genetic algorithm[J].Power System Technology,2012,36(12):256-261(in Chinese).