工业园区综合能源系统的运营模式综合评估方法
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摘要
随着电力市场的改革及能源互联网技术的发展,具有清洁高效、能源利用率高等优点的综合能源系统受到高度重视。以多种能源形式的工业园区综合能源系统为研究对象,提出了包含经济、政策等因素的评价指标体系并建立了运营模式评估的层次结构模型。根据综合权重选择出最优的运营模式。最后,以综合能源系统实际工程为例,分析了运营模式的综合评估过程,为工业园区综合能源系统的发展提供了运营模式参考。
With the reform of the electricity market and the development of energy Internet technology, integrated energy system(IES)has been attracted important attention, and has the advantages of cleanness, high efficiency and high utilization rate of energy. Taking IES with multiple energy forms of industrial park as a study object, three alternative operation modes are proposed.Moreover, the influencing factors are analyzed, and the evaluation index system including economic, policy factors of user is proposed. The hierarchical structure model evaluation is established,and the optimal operation mode is selected according to the comprehensive weight through the analysis of the influence factors. Finally, taking the practical project of integrated energy system as an example, the comprehensive evaluation process of the operation mode is analyzed, which provides a reference for the development of IES in the industrial park.
With the reform of the electricity market and the development of energy Internet technology, integrated energy system(IES)has been attracted important attention, and has the advantages of cleanness, high efficiency and high utilization rate of energy. Taking IES with multiple energy forms of industrial park as a study object, three alternative operation modes are proposed.Moreover, the influencing factors are analyzed, and the evaluation index system including economic, policy factors of user is proposed. The hierarchical structure model evaluation is established,and the optimal operation mode is selected according to the comprehensive weight through the analysis of the influence factors. Finally, taking the practical project of integrated energy system as an example, the comprehensive evaluation process of the operation mode is analyzed, which provides a reference for the development of IES in the industrial park.
引文
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[10]马溪原,周长城,刘育权,等.工业园区用户侧电池储能系统运营模式及其经济性分析[J].南方电网技术,2018,12(3),44-51.MAXiyuan,ZHOUChangcheng,LIUYuquan,etal.Business mode and economy analysis of battery storage at user’s side in industrial park[J]. Southern Power System Technology,2018,12(3), 44-51.
[11]叶珍.基于AHP的模糊综合评价方法研究及应用[D].广州:华南理工大学,2010.YE Zhen. Study and application of fuzzy comprehensive evaluation based on AHP[D]. Guangzhou:South China University of Technology, 2010.
[12]魏晓曼,余昆,陈星莺,等.基于Affinity propagation和K-means算法的电力大用户细分方法分析[J].电力需求侧管理,2018,20(1):15-19,35.WEI Xiaoman, YU Kun, CHEN Xingying, et al. Analysis of power large user segmentation based on Affinity propagation and K-means algorithm[J]. Power Demand Side Management, 2018, 20(1):15-19,35.
[2]文劲宇,方家琨.能源互联网中的关键设备与支撑技术[J].南方电网技术,2016,10(3):1-10.WEN Jinyu, FANG Jiakun. Key facilities and supportive technologies in energy Internet[J]. Southern Power System Technology,2016,10(3):1-10.
[3]宋健京,陈永华,杨冬梅,等.售电侧放开后新型售电市场运营机制研究[J].电力需求侧管理,2018,20(5):20-24.SONG Jianjing, CHEN Yonghua, YANG Dongmei, et al.Research of new retail electricity market operation mechanism after the opening of retail electricity side[J]. Power Demand Side Management, 2018, 20(5):20-24.
[4]彭钰茗,曾方迪,李更丰.综合能源服务商参与多能源市场的决策建模研究[J].供用电,2018,35(11):27-33,42.PENG Yuming, ZENG Fangdi, LI Gengfeng. Research on decision modeling of multi-energy players participating in multi-energymarkets[J].Distribution&Utilization,2018,35(11):27-33,42.
[5] MASSRUR H R, NIKNAM T, FOTUHI-FIRUZABAD M.Investigation of carrier demand response uncertainty on energy flow of renewable-based integrated electricity-gasheat systems[J]. IEEE Transactions on Industrial Informatics,2018,14(11):5133–5142.
[6]胡浩,王英瑞,曾博,等.基于CVaR理论的综合能源系统经济优化调度[J].电力自动化设备,2017,37(6):209-219.HU Hao, WANG Yingrui, ZENG Bo, et al. CVaR-based economic optimal dispatch of integrated energy system[J].Electric Power Automation Equipment, 2017,37(6):209-219.
[7]王英瑞,曾博,郭经,等.电-热-气综合能源系统多能流计算方法[J].电网技术,2016,40(10):2 942-2 950.WANG Yingrui, ZENG Bo, GUO Jing, et al. Multi-energy flow calculation method for integrated energy system containing electricity, heat and gas[J]. Power System Technology, 2016, 40(10):2 942-2 950.
[8]王乾,王彬,方建勇,等.工业园区多能直供运营模式案例研究[J].电力自动化设备,2017,37(6):268-274.WANG Qian, WANG Bin, FANG Jianyong, et al. Study of MEDS operating mode for industrial park[J]. Electric Power Automation Equipment, 2017, 37(6):268-274.
[9]马溪原,郭晓斌,周长城,等.电网公司投资分布式光伏发电系统的典型运营模式分析[J].南方电网技术,2018,12(3):52-59.MA Xiyuan, GUO Xiaobin, ZHOU Changcheng, et al. Typical operation mode analysis for distributed photovoltaic generation system invested by the electric power utility[J].Southern Power System Technology, 2018, 12(3):52-59.
[10]马溪原,周长城,刘育权,等.工业园区用户侧电池储能系统运营模式及其经济性分析[J].南方电网技术,2018,12(3),44-51.MAXiyuan,ZHOUChangcheng,LIUYuquan,etal.Business mode and economy analysis of battery storage at user’s side in industrial park[J]. Southern Power System Technology,2018,12(3), 44-51.
[11]叶珍.基于AHP的模糊综合评价方法研究及应用[D].广州:华南理工大学,2010.YE Zhen. Study and application of fuzzy comprehensive evaluation based on AHP[D]. Guangzhou:South China University of Technology, 2010.
[12]魏晓曼,余昆,陈星莺,等.基于Affinity propagation和K-means算法的电力大用户细分方法分析[J].电力需求侧管理,2018,20(1):15-19,35.WEI Xiaoman, YU Kun, CHEN Xingying, et al. Analysis of power large user segmentation based on Affinity propagation and K-means algorithm[J]. Power Demand Side Management, 2018, 20(1):15-19,35.
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