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ISSN 1000-7229
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ELECTRIC POWER CONSTRUCTION ›› 2021, Vol. 42 ›› Issue (4): 49-58.doi: 10.12204/j.issn.1000-7229.2021.04.006
• Energy Internet • Previous Articles Next Articles
GAO Yang1, XI Xiao1, LIU Xiaohui2, WANG Xiaojun2
Received:
2020-10-20
Online:
2021-04-01
Published:
2021-03-30
Supported by:
CLC Number:
GAO Yang, XI Xiao, LIU Xiaohui, WANG Xiaojun. Integrated Energy System Planning Method for Industrial Parks Considering the Price Elasticity of Biomass Supply[J]. ELECTRIC POWER CONSTRUCTION, 2021, 42(4): 49-58.
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[1] | 冯泳程, 郁鸿凌, 桂萌溪, 等. 我国秸秆直燃发电技术的发展现状[J]. 节能, 2018,37(12):14-18. |
FENG Yongcheng, YU Hongling, GUI Mengxi, et al. Current situation and countermeasures of straw power generation in China[J]. Energy Conservation, 2018,37(12):14-18. | |
[2] | 赵贵玉, 吕洋. 吉林省农作物秸秆发电经济效益分析[J]. 资源开发与市场, 2017,33(2):199-202. |
ZHAO Guiyu, LÜ Yang. Analysis on economic benefits of straw power generation in Jilin province[J]. Resource Development & Market, 2017,33(2):199-202. | |
[3] | KARSH R K, DEBNATH R, SOREN N, et al. Optimal economical analysis and performance assessment of wind-biomass hybrid energy system[C]// 2019 International Conference on Automation, Computational and Technology Management (ICACTM). London, UK: IEEE, 2019: 473-478. |
[4] | 房梦. 秸秆发电企业成本与补偿研究[D]. 北京: 华北电力大学, 2016. |
FANG Meng. Research on the costs and compensation of straw power generation business[D]. Beijing: North China Electric Power University, 2016. | |
[5] |
LI Z, WANG C F, LI B W, et al. Probability-interval-based optimal planning of integrated energy system with uncertain wind power[J]. IEEE Transactions on Industry Applications, 2020,56(1):4-13.
doi: 10.1109/TIA.28 URL |
[6] | 郇嘉嘉, 赵瑾, 曾诚玉, 等. 园区综合能源系统规划影响因素分析及优化配置方案设计[J]. 现代电力, 2020,37(6):303-309. |
HUAN Jiajia, ZHAO Jin, ZENG Chengyu, et al. Influencing factors analysis and optimal allocation schemes design of integrated energy system planning in parks[J]. Modern Electric Power, 2020,37(6):303-309. | |
[7] | 权超, 董晓峰, 姜彤. 基于CCHP耦合的电力、天然气区域综合能源系统优化规划[J]. 电网技术, 2018,42(8):2456-2466. |
QUAN Chao, DONG Xiaofeng, JIANG Tong. Optimization planning of integrated electricity-gas community energy system based on coupled CCHP[J]. Power System Technology, 2018,42(8):2456-2466. | |
[8] |
WANG Y L, WANG Y D, HUANG Y J, et al. Planning and operation method of the regional integrated energy system considering economy and environment[J]. Energy, 2019,171:731-750.
doi: 10.1016/j.energy.2019.01.036 URL |
[9] | 王松, 邱晓燕, 徐建, 等. 风力-生物质能联合发电系统在微电网中的扩展规划[J]. 可再生能源, 2012,30(1):42-46. |
WANG Song, QIU Xiaoyan, XU Jian, et al. Expansion planning of wind-biomass cogenerating system in the micro-grid[J]. Renewable Energy Resources, 2012,30(1):42-46. | |
[10] |
BAMISILE O, HUANG Q, DAGBASI M, et al. Steady-state and process modeling of a novel wind-biomass comprehensive energy system: An energy conservation, exergy and performance analysis[J]. Energy Conversion and Management, 2020,220:113139.
doi: 10.1016/j.enconman.2020.113139 URL |
[11] | 周志超, 郭力, 王成山, 等. 风柴储生物质独立微电网系统的优化规划设计[J]. 电力系统自动化, 2014,38(7):16-22. |
ZHOU Zhichao, GUO Li, WANG Chengshan, et al. Optimal planning and design of a wind/biomass/diesel/battery stand-alone microgrid[J]. Automation of Electric Power Systems, 2014,38(7):16-22. | |
[12] |
SINGH S, KAUSHIK S C. Optimal sizing of grid integrated hybrid PV-biomass energy system using artificial bee colony algorithm[J]. IET Renewable Power Generation, 2016,10(5):642-650.
doi: 10.1049/rpg2.v10.5 URL |
[13] | 苏仲培. 基于生物质能与太阳能的冷热电联供系统优化配置与调度研究[D]. 济南: 山东大学, 2017. |
SU Zhongpei. Optimal configuration and scheduling for the CCHP system based on biomass and solar energy[D]. Ji’nan: Shandong University, 2017. | |
[14] |
GONZALEZ A, RIBA J R, ESTEBAN B, et al. Environmental and cost optimal design of a biomass-Wind-PV electricity generation system[J]. Renewable Energy, 2018,126:420-430.
doi: 10.1016/j.renene.2018.03.062 URL |
[15] | 曹溢, 沈辉. 秸秆发电过程中原料收集的成本分析[J]. 电力与能源, 2012,33(5):463-466. |
CAO Yi, SHEN Hui. A research on collection cost in the process of straw power generation[J]. Power & Energy, 2012,33(5):463-466. | |
[16] | 吴金卓, 林文树, 王立海. 秸秆发电企业燃料供应成本优化模型及应用[J]. 物流技术, 2015,34(3):257-261. |
WU Jinzhuo, LIN Wenshu, WANG Lihai. Application of fuel supply cost optimization model by stalk-burning power plants[J]. Logistics Technology, 2015,34(3):257-261. | |
[17] | SURVILO J, BERYOZKINA S. Optimal territory of renewable fuel collection for cogeneration plant[C]// 2016 57th International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON). Riga, Latvia: IEEE, 2016: 1-4. |
[18] | 赵浩亮, 张旭, 翟明岭. 秸秆直燃生物质电厂动态发电成本分析[J]. 动力工程学报, 2015,35(5):412-417. |
ZHAO Haoliang, ZHANG Xu, ZHAI Mingling. Analysis on dynamic cost of straw direct combustion power generation[J]. Journal of Chinese Society of Power Engineering, 2015,35(5):412-417. | |
[19] | KOHANSAL M, SADEGHI-MOBARAKEH A, MOHSENIAN-RAD H. A data-driven analysis of supply bids in California ISO market: Price elasticity and impact of renewables[C]// 2017 IEEE International Conference on Smart Grid Communications (SmartGridComm). Dresden, Germany: IEEE, 2017: 58-63. |
[20] | 杨晴, 张磊. 中国煤炭供给价格弹性的估算与应用[J]. 中国矿业大学学报(社会科学版), 2019,21(2):75-90. |
YANG Qing, ZHANG Lei. Estimation and application of China’s coal price elasticity of supply[J]. Journal of China University of Mining & Technology (Social Sciences), 2019,21(2):75-90. | |
[21] |
COGLIANESE J, DAVIS L W, KILIAN L, et al. Anticipation, tax avoidance, and the price elasticity of gasoline demand[J]. Journal of Applied Econometrics, 2017,32(1):1-15.
doi: 10.1002/jae.v32.1 URL |
[22] | 王兆阳 . 我国棉花供给价格弹性的实证分析及政策启示[J]. 中国物价, 2003(3):35-38. |
[23] | 程林, 张靖, 黄仁乐, 等. 基于多能互补的综合能源系统多场景规划案例分析[J]. 电力自动化设备, 2017,37(6):282-287. |
CHENG Lin, ZHANG Jing, HUANG Renle, et al. Case analysis of multi-scenario planning based on multi-energy complementation for integrated energy system[J]. Electric Power Automation Equipment, 2017,37(6):282-287. | |
[24] | 余晓丹, 徐宪东, 陈硕翼, 等. 综合能源系统与能源互联网简述[J]. 电工技术学报, 2016,31(1):1-13. |
YU Xiaodan, XU Xiandong, CHEN Shuoyi, et al. A brief review to integrated energy system and energy Internet[J]. Transactions of China Electrotechnical Society, 2016,31(1):1-13. | |
[25] | 臧雪飞, 姜雪, 撒同颖 . 生物质热电联产的前景与主要问题的研究[J]. 科技信息, 2013(23):395. |
[26] | 施泉生, 丁建勇, 刘坤, 等. 含电、气、热3种储能的微网综合能源系统经济优化运行[J]. 电力自动化设备, 2019,39(8):269-276,293. |
SHI Quansheng, DING Jianyong, LIU Kun, et al. Economic optimal operation of microgrid integrated energy system with electricity, gas and heat storage[J]. Electric Power Automation Equipment, 2019,39(8):269-276,293. | |
[27] | 赵贵玉, 齐艳玲, 吕洋. 农作物秸秆发电经济效益分析[J]. 农学学报, 2017,7(3):86-90. |
ZHAO Guiyu, QI Yanling, LÜ Yang. Economic benefit of crop straw power generation[J]. Journal of Agriculture, 2017,7(3):86-90. |
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