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[1]穆云飞,姚泰昂,贾宏杰,等. 基于分布式能源的煤矿带式输送机与蓄电池协同经济调度策略[J].天津大学学报(自然科学与工程技术版),2020,53(09):951-958.[doi:10.11784/tdxbz201907004]
 Mu Yunfei,Yao Taiang,Jia Hongjie,et al. Coordinated Economic Scheduling Strategy for Coal Mine Belt Conveyor and Battery Based on Distributed Energy[J].Journal of Tianjin University(Science and Technology),2020,53(09):951-958.[doi:10.11784/tdxbz201907004]
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 基于分布式能源的煤矿带式输送机与蓄电池协同经济调度策略

参考文献/References:

 

[1] 中华人民共和国国家统计局. 中国统计年鉴2018[M]. 北京:中国统计出版社,2018.

National Bureau of Statistics of the People’s Republic of China. Statistical Yearbook of China 2018[M]. Beijing:China Statistics Press,2018(in Chinese).

[2] 高之翔. 节能导向的煤矿大型机电设备协同控制技术[D]. 淮南:安徽理工大学电子信息学院,2017.

Gao Zhixiang. Energy Saving Oriented Collaborative Con-trol Technology for Large Scale Electromechanical Equip-ment in Coal Mine[D]. Huainan:School of Electrical and Information Engineering,Anhui University of Sci-ence and Technology,2017(in Chinese).

[3] Mathaba T,Xia Xiaohua. A parametric energy model for energy management of long belt conveyors[J]. Energies,2015,8(12):13590-13608.

[4] Zhang Shirong,Xia Xioahua. Modeling and energy effi-ciency optimization of belt conveyors[J]. Applied Energy,2011,88(9):3061-3071.

[5] Luo Jia,Huang Weijian,Zhang Shirong. Energy cost optimal operation of belt conveyors using model predictive control methodology[J]. Journal of Cleaner Production,2015,105:196-205.

[6] He Daijie,Pang Yusong,Lodewijks G. Speed control of belt conveyors during transient operation[J]. Powder Technology,2016,301:622-631.

[7] He Daijie,Pang Yusong,Lodewijks G. Green opera-tions of belt conveyors by means of speed control[J]. Ap-plied Energy,2017,188:330-341.

[8] He Daijie,Pang Yusong,Lodewijks G,et al. Healthy speed control of belt conveyors on conveying bulk materi-als[J]. Powder Technology,2018,327:408-419.

[9] Mathaba T,Xia Xiaohua. Optimal and energy efficient operation of conveyor belt systems with downhill convey-ors[J]. Energy Efficiency,2016,10(2):1-13.

[10] Zhang Shirong,Xia Xiaohua. Optimal control of opera-tion efficiency of belt conveyor systems[J]. Applied En-ergy,2010,87(6):1929-1937.

[11] 茆美琴,丁?勇,王杨洋,等. 微网——未来能源互联网系统中的“有机细胞”[J]. 电力系统自动化,2017,41(19):1-11,45.

Mao Meiqin,Ding Yong,Wang Yangyang,et al. Mi-crogrid—an“organic cell” for future energy intercon-nection system[J]. Automation of Electric Power Systems,2017,41(19):1-11,45(in Chinese).

[12] 余贻鑫. 面向21世纪的智能电网[J]. 天津大学学报:自然科学与工程技术版,2020,53(6):551-556.

Yu Yixin. A brief discription of the basics of the smart grid[J]. Journal of Tianjin University:Science and Tech-nology,2020,53(6):551-556(in Chinese).

[13] 夏永洪,吴虹剑,辛建波,等. 考虑风/光/水/储多源互补特性的微网经济运行评价方法[J]. 电力自动化设备,2017,37(7):63-69.

Xia Yonghong,Wu Hongjian,Xin Jianbo,et al. Eval-uation of economic operation for microgrid with comple-mentary DGs and energy storage[J]. Electric Power Au-tomation Equipment,2017,37(7):63-69(in Chinese).

[14] 石庆均,江全元. 包含蓄电池储能的微网实时能量优化调度[J]. 电力自动化设备,2013,33(5):76-82.

Shi Qingjun,Jiang Quanyuan. Real-time optimal energy dispatch for microgrid with battery storage[J]. Electric Power Automation Equipment,2013,33(5):76-82(in Chinese).

[15] 甘?霖,陈瑜玮,刘育权,等. 含可再生能源的微网冷-热-电多能流协同优化与案例分析[J]. 电力自动化设备,2017,37(6):275-281.

Gan Lin,Chen Yuwei,Liu Yuquan,et al. Coordinative optimization of multiple energy flows for microgrid with renewable energy resources and case study[J]. Electric Power Automation Equipment,2017,37(6):275-281(in Chinese).

[16] 朱泽锋,赵晋泉,魏文辉,等. 主动配电网中电池储能系统最优充放电策略[J]. 电力系统自动化,2016,40(20):47-53.

Zhu Zefeng,Zhao Jinquan,Wei Wenhui,et al. Optimal charging and discharging scheme of battery energy storage system in active distribution network[J]. Automation of Electric Power Systems,2016,40(20):47-53(in Chi-nese).

[17] 许?健,刘?念,于?雷,等. 计及重要负荷的工业光伏微电网储能优化配置[J]. 电力系统保护与控制,2016,44(9):29-37.

Xu Jian,Liu Nian,Yu Lei,et al. Optimal allocation of energy storage system of PV microgrid for industries con-sidering important load[J]. Power System Protection and Control,2016,44(9):29-37(in Chinese).

[18] 茆美琴,金?鹏,张榴晨,等. 工业用光伏微网运行策略优化与经济性分析[J]. 电工技术学报,2014,29(2):35-45.

Mao Meiqin,Jin Peng,Zhang Liuchen,et al. Optimi-zation of operation strategies and economic analysis of PV microgrids for industries[J]. Transactions of China Elec-trotechnical Society,2014,29(2):35-45(in Chinese).

[19] 岳吉祥,孙殿新,张宝伟,等. 风力发电驱动直线电机电潜泵应用研究[J]. 石油机械,2015,43(7):84-86.

Yue Jixiang,Sun Dianxin,Zhang Baowei,et al. Appli-cation research on wind power driven linear motor-based electric submersible pump[J]. China Petroleum Machin-ery,2015,43(7):84-86(in Chinese).

[20] International Organization for Standardization. ISO 5048 Continuous Mechanical Handling Equipment-Belt Con-veyors with Carrying Idlers-Calculation of Operating Power and Tensile Forces[S]. Switzerland,1989.

[21] German Industrial Standard. DIN 22102 Continuous Conveyors-Belt Conveyors for Loose Bulk Materials-Basis for Calculation and Dimensioning[S]. Germany,2002.

[22] Japanese Industrial Standard. JIS B 8805 Rubber Belt Conveyors with Carrying Idlers-Calculation of Operating Power and Tensile Forces[S]. Japan,Japanese Standards Association,1992.

[23] 杨志鹏,张?峰,梁?军,等. 含热泵和储能的冷热电联供型微网经济运行[J]. 电网技术,2018,42(6):1735-1743.

Yang Zhipeng,Zhang Feng,Liang Jun,et al. Econom-ic generation scheduling of CCHP microgrid with heat pump and energy storage[J]. Power System Technology,2018,42(6):1735-1743(in Chinese).

[24] 靳小龙,穆云飞,贾宏杰,等. 融合需求侧虚拟储能系统的冷热电联供楼宇微网优化调度方法[J]. 中国电机工程学报,2017,37(2):581-591.

Jin Xiaolong,Mu Yunfei,Jia Hongjie,et al. Optimal scheduling method for a combined cooling,heating and power building microgrid considering virtual storage sys-tem at demand side[J]. Proceedings of the CSEE,2017,37(2):581-591(in Chinese).

[25] 张忠会,胡国宝,李瑞欣. 考虑电动汽车接入的分布式电源出力优化[J]. 电力系统保护与控制,2018,46(6):120-127.

Zhang Zhonghui,Hu Baoguo,Li Ruixin. Optimization of distributed generation output in electric vehicles inte-grating into distribution network[J]. Power System Pro-tection and Control,2018,46(6):120-127(in Chi-nese).

[26] Adefarati T,Bansal R C. Reliability and economic as-sessment of a microgrid power system with the integration of renewable energy resources[J]. Applied Energy,2017,206:911-933.

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备注/Memo

 通信作者:穆云飞,yunfeimu@tju.edu.cn.

更新日期/Last Update: 2020-08-30