期刊文献+

基于分布式能源系统的工业热电负荷估算方法探讨 被引量:2

Study on Industrial Heating Load and Electric Power Load Estimation Method Based on Distributed Energy System
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摘要 得益于能源需求的规模性和稳定性,工业分布式能源系统是国外分布式能源应用的主流领域,在我国也已引起广泛关注。为了支撑工业分布式能源系统的合理规划与健康发展,工业热、电负荷的准确预测和评估至关重要。基于对我国能源统计年鉴数据的调研、评估,并通过与能耗统计较为细致、全面的日本在同类行业相关数据的对比分析,确立了各行业年总热、电消费指标值。在此基础上,考虑到分布式热电联产系统规划、设计的特定需求,提出了年总能源负荷的逐月、逐时分摊方法。 Industrial distributed energy system is mainstream area of international distributed energy application and it has caused wide concern in domestic market due to energy demand scale and stability. In order to support rational planning and healthy development of industrial distributed energy system, accurate prediction and evaluation of industrial heating load and electric power load is essesntial. Based on survey and evaluation of domestic energy statistics yearbook, through detailed and comprehensive samples comparative analysis in the same industry relevant date compared with energy statistics, it builds up annual heating consumption index and electric power consumption index in all kinds of industries. On the basis of this, considering specific requirements of distributed combined heating and power generation system planning and design, it puts forward annual total energy load allocation to monthly and hourly method.
出处 《上海节能》 2015年第9期492-496,共5页 Shanghai Energy Saving
关键词 分布式能源 工业 消费指标 分摊方法 Distributed Energy, Industrial, Consumption Index, Allocation Method
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  • 1李永安.建筑群空调冷负荷的确定[J].山东建筑大学学报,1992,18(3):34-38. 被引量:1
  • 2曹双华,曹家枞,李涛,沈晓青.基于小波变换的神经网络空调负荷预测研究[J].暖通空调,2005,35(4):13-17. 被引量:13
  • 3华贲,岳永魁,田中华,陈清林.考虑环境影响的分布式能源系统优化设计与运行策略研究[J].沈阳工程学院学报(自然科学版),2005,1(1):6-11. 被引量:8
  • 4王振铭.中国热电联产与分布式能源的新发展[J].沈阳工程学院学报(自然科学版),2006,2(1):1-5. 被引量:17
  • 5李辉,付林,杨巍巍,耿克诚.三联供系统中热电冷负荷的计算方法[A].2004年暖通空调制冷学术年会论文集[c].2004.498-501.
  • 6NISHITA,EDITOR. The investigation on energy consumption in Kyushu [D]. Kyushu Sangyo University, 1997.
  • 7YOMGJUN RUAN, QINGRONG LIU, WEIGUO ZHOU, TOSHIYUKI WATANABE, Evaluation on the viability of combined heat and power with different distributed generation technologies for various bindings in Japan [J]. Proceedings of World Academy of Science,Engineering and Technology. 2008,33 : 2070-3740.
  • 8YINGJUN RUAN,QINGRONG LIU,WEIGUO ZHOU,Ryan Firestone, Weijun Gao,Toshiyuki Watanabe, Optimal Option of Distributed Generation Technologies for Various Commercial Buildings[J]. Applied Energy, 2009. 1-13.
  • 9OJIMA LAB, EDITOR. Consumption unit for electricity,heating,cooling and hot water[D]. Waseda University ; 1995 [in Japanese].
  • 10DGJ08-115-2005-12-14,J10602-2005,分布式供能系统工程技术规程(试行)[s].上海市工程建设规范,2005.

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