Construction Scheme and Application Analysis of Comprehensive Application Scheme for Large Users

Jianwei LIU; Hao ZHAO; Xuebin LI; Jian LIU

doi:10.16513/j.2096-2185.DE.2002009

TSINGHUA JOURNALS HOME

Source Journal for Chinese Scientific and Technical Papers and Citations

RCCSE Chinese Core Academic Journals

Classification Catalogue of High Quality Scientific Journals in the field of Energy and Power

Classification Catalogue of High Quality Scientific Journals in Coal Field

PDF(2866 KB)

Distributed Energy ›› 2020, Vol. 5 ›› Issue (4) : 35-42. DOI: 10.16513/j.2096-2185.DE.2002009

Integrated Energy Column

Construction Scheme and Application Analysis of Comprehensive Application Scheme for Large Users

Author information +

History +

Abstract

With the rapid development of source-grid-load-storage coordinated and optimized operation mode of comprehensive energy, it has become a trend for large users to adopt new energy power generation, energy storage, ground source heat pump and other forms of comprehensive utilization of energy. Both the energy supply system and the energy consumption system abandon the low efficiency and extensive application mode, and turn to the efficient and intelligent comprehensive energy application mode. This paper introduces in detail the energy consumption system and characteristics of large users, the user-centered integrated energy system architecture, and the integrated energy management system for large users. Taking a large-scale user's comprehensive energy construction scheme as an example, this paper introduces the energy utilization system of large-scale users in detail. A variety of energy efficiency analysis is carried out to verify the rationality of the scheme, which can provide reference for large users' comprehensive energy construction application and strategy control

Key words

comprehensive energy / large user / system configuration / service mode

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

Jianwei LIU , Hao ZHAO , Xuebin LI , et al. Construction Scheme and Application Analysis of Comprehensive Application Scheme for Large Users[J]. Distributed Energy Resources. 2020, 5(4): 35-42 https://doi.org/10.16513/j.2096-2185.DE.2002009

References

List( Publishing order | Descend order by publishing year | Descend order by cited within ) Chart analysis

[1]

郑国太，李昊，赵宝国，等. 基于供需能量平衡的用户侧综合能源系统电/热储能设备综合优化配置[J]. 电力系统保护与控制，2018, 46(16): 8-18.

ZHENG

Guotai

, LI

Hao

, ZHAO

Baoguo

, et al. Comprehensive optimization of electrical/ thermal energy storage equipments for integrated energy system near user side based on energy supply and demand balance[J]. Power System Protection and Control, 2018, 46(16): 8-18.

Cited in this article [1]

[2]	郭创新，丁筱. 综合能源系统优化运行研究现状及展望[J]. 发电技术，2020, 41(1): 2-8. GUO Chuangxin, DING Xiao. Research Status and Prospect of Optimal Operation of Integrated Energy System[J]. Power Generation Technology, 2020, 41(1): 2-8. Cited in this article [1]

[3]	闫湖，黄碧斌，洪博文，等. 分布式能源商业模式重构与创新展望[J]. 分布式能源，2019, 4(2): 16-22. YAN Hu, HUANG Bibin, HONG Bowen, et al. Outlook of distributed energy business model reconstruction and innovation[J]. Distributed Energy, 2019, 4(2): 16-22. Cited in this article [1]

[4]	SMITH M, TON D. Key connections: The U. S. department of energy's microgrid initiative[J]. IEEE Power & Energy Magazine, 2013, 11(4): 22-27. Cited in this article [1]

[5]	E-Energy model region[EB/OL]. (2016-06-28)[2017-03-01]. http://www.digi-tale-technologien.de/ Cited in this article [1]

[6]	NAKANISHI H. Japan's approaches to smart community[EB/OL]. (2014-10-09)[2017-03-01]. http://www.ieee-smartgridcomm.org/2010/down-loads/Keynotes/nist.pdf Cited in this article [1]

[7]	许志斌，王玕，欧阳春明. 考虑CHP设备补贴的楼宇型综合能源系统规划[J]. 可再生能源，2018, 36(12): 1806-1811. XU Zhibin, WANG Gan, OUYANG Chunm. Configuration of building integrated energy system considering subsidy of CHP facilities[J]. Renewable Energy Resources, 2018, 36(12): 1806-1811. Cited in this article [1]

[8]	龚钢军，陈志敏，陆俊，等. 智能用电用户行为分析的聚类优选策略[J]. 电力系统自动化，2018, 42(2): 58-63. GONG Gangjun, CHEN Zhimin, LU Jun, et al. Clustering optimization strategy for electricity consumption behavior analysis in smart grid[J]. Automation of Electric Power Systems, 2018, 42(2): 58-63. Cited in this article [1]

[9]	江承潮. 基于大用户能效的需求响应系统研究[D]. 南京：东南大学，2017. JIANG Chengchao. Research of demand response mechanism incorporating energy efficiency punishment of large industry customers[D]. Nanjing: Southeast University, 2017. Cited in this article [1]

[10]	白牧可，唐巍，吴邦旭. 用户侧综合能源系统评估指标体系及其应用[J]. 分布式能源，2018, 3(4): 41-46. BAI Muke, TANG Wei, WU Bangxu. Evaluation indexes of user side integrated energy system and its application[J]. Distributed Energy, 2018, 3(4): 41-46. Cited in this article [1]

[11]	张铁峰，顾明迪. 电力用户负荷模式提取技术及应用综述[J]. 电网技术，2016, 40(3): 804-811. ZHANG Tiefeng, GU Mingdi. Overview of electricity customer load pattern extraction technology and its application[J]. Power System Technology, 2016, 40(3): 804-811. Cited in this article [1]

[12]

马天男，王超，彭丽霖，等. 多源异构大数据下综合能源系统用户用能行为预测分析研究[J]. 智慧电力，2018, 46(10): 86-95.

Tiannan

, WANG

Chao

, PENG

Lilin

, et al. Research on consumer energy use behavior forecasting and analysis of integrated energy system under multi-source heterogeneous data[J]. Smart Power, 2018, 46(10): 86-95.

Cited in this article [1]

[13]

王琪鑫，刘涤尘，吴军，等. 计及用户行为分析的多能协同综合能源系统供需双侧综合优化[J]. 电力自动化设备，2017, 37(6): 179-185.

WANG

Qixin

, LIU

Dichen

, WU

Jun

, et al. Comprehensive optimization including user behavior analysis for supply and demand sides of IES-MEC[J]. Electric Power Automation Equipment, 2017, 37(6): 179-185.

Cited in this article [1]

[14]

金文德，江艺宝，丁一. 以用户为中心的综合能源系统优化管理关键问题研究现状及展望[J]. 浙江电力，2016, 35(10): 73-80.

JIN

Wende

, JIANG

Yibao

, DING

. Study on critical issues correlated to optimization and management in customer-centered integrated energy system and the prospect[J]. Zhejiang Electric Power, 2016, 35(10): 73-80.

Cited in this article [1]

[15]	刘丽媛，欧阳森，安晓华，等. 分布式综合供能系统发展综述[J]. 电力需求侧管理，2016, 18(4): 31-35. LIU Liyuan, OUYANG Sen, AN Xiaohua, et al. Review on the development of distributed energy supply system[J]. Power Demand Side Management, 2016, 18(4): 31-35. Cited in this article [1]

[16]

任江波，孙仲民，顾乔根，等. 计及储能全寿命周期运维的综合能源系统优化配置[J]. 广东电力，2019, 32(10): 71-78.

REN

Jiangbo

, SUN

Zhongmin

, GU

Qiaogen

, et al. Optimizing configuration of integrated energy system considering full life cycle operation and maintenance of energy storage[J]. Guangdong Electric Power, 2019, 32(10): 71-78.

Cited in this article [1]

[17]	陈中豪，林晓明，陈丽萍，等. 社区级综合能源系统多目标模糊日前优化调度模型[J]. 广东电力，2019, 32(1): 93-99. CHEN Zhonghao, LIN Xiaoming, CHEN Liping, et al. Multi-objective fuzzy optimal day-ahead dispatching model for integrated community energy system[J]. Guangdong Electric Power, 2019, 32(1): 93-99. Cited in this article [1]