Research on the Low-Carbon Implementation Path of Regional Energy System Relying on the Linkage Mechanism of Multi-markets

Guotao ZHAO; Quan DING; Junhua FU; Guoming QIAN; Ying CHEN; Chao HUANG

doi:10.12204/j.issn.1000-7229.2021.03.003

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Electric Power Construction ›› 2021, Vol. 42 ›› Issue (3) : 19-26. DOI: 10.12204/j.issn.1000-7229.2021.03.003

Key Technologies and Applications of Integrated Energy Systems for Promoting the Consumption of Renewable Energy·Hosted by Dean PAN Ersheng and Associate Professor ZHANG Shenxi·

Research on the Low-Carbon Implementation Path of Regional Energy System Relying on the Linkage Mechanism of Multi-markets

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Abstract

Interconnection and environmental friendliness are important characteristics of regional energy system and inherent requirements for its low-carbon economic operation. Research has made some progress in system design and planning, simulation modeling and optimized dispatch, but less attention has been paid to environmental benefits from the perspective of openness. According to the practice of existing new energy micro-grid projects, this paper studies the correlation between market transaction and regional energy system , and introduces a method for constructing a carbon-neutrality management information system under linkage mechanism of multi-markets. This paper also gives the illustration for analyzing implementation process of low-carbon route under specific situations, which shows the green, low-carbon, collaborative and open characteristics of the carbon-neutralization management information system.

Key words

regional energy system / multi-markets / linkage mechanism / carbon neutrality / low-carbon

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Guotao ZHAO , Quan DING , Junhua FU , et al . Research on the Low-Carbon Implementation Path of Regional Energy System Relying on the Linkage Mechanism of Multi-markets[J]. Electric Power Construction. 2021, 42(3): 19-26 https://doi.org/10.12204/j.issn.1000-7229.2021.03.003

References

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

[1]	陈昕, 姜怡喆, 王雪, 等. 互联网视角下的能源互联网发展研究[J]. 中国电力, 2018,51(8):43-48. CHEN Xin, JIANG Yizhe, WANG Xue, et al. Research on the development of energy Internet from the perspective of Internet[J]. Electric Power, 2018,51(8):43-48. Cited in this article [1]

[2]

龚钢军, 杨晟, 王慧娟, 等. 综合能源服务区块链的网络架构、交互模型与信用评价[J]. 中国电机工程学报, 2020,40(18):5897-5910.

GONG

Gangjun

, YANG

Sheng

, WANG

Huijuan

, et al. The network architecture, interaction model and credit evaluation of integrated energy service blockchain[J]. Proceedings of the CSEE., 2020,40(18):5897-5910.

Cited in this article [1]

[3]	郭创新, 王惠如, 张伊宁, 等. 面向区域能源互联网的"源-网-荷"协同规划综述[J]. 电网技术, 2019,43(9):3071-3080. GUO Chuangxin, WANG Huiru, ZHANG Yining, et al. Review of “source-grid-load” co-planning orienting to regional energy Internet[J]. Power System Technology, 2019,43(9):3071-3080. Cited in this article [1]

[4]	曾鸣, 刘英新, 王星, 等. 区域综合能源系统仿真平台研发现状及技术路线初探[J]. 中国电力, 2019,52(6):87-93. ZENG Ming, LIU Yingxin, WANG Xing, et al. Research status and technical route of regional integrated energy system simulation platform[J]. Electric Power, 2019,52(6):87-93. Cited in this article [1]

[5]	齐世雄, 王秀丽, 邵成成, 等. 计及弹性恢复的区域综合能源系统多目标优化调度[J]. 中国电力, 2019,52(6):19-26. QI Shixiong, WANG Xiuli, SHAO Chengcheng, et al. Multi-objective optimal dispatch of district integrated energy system considering resilience[J]. Electric Power, 2019,52(6):19-26. Cited in this article [1]

[6]

胡静哲, 王旭, 蒋传文, 等. 计及综合能源服务商参与的电力系统低碳经济调度[J]. 电网技术, 2020,44(2):514-522.

Jingzhe

, WANG

, JIANG

Chuanwen

, et al. Low-carbon economic dispatch of power system considering participation of integrated energy service providers[J]. Power System Technology, 2020,44(2):514-522.

Cited in this article [1]

[7]	尤石, 宋鹏翔. 丹麦区域能源互联网发展综述[J]. 供用电, 2017,34(12):2-7. YOU Shi, SONG Pengxiang. A review of development of integrated district energy system in Denmark[J]. Distribution & Utilization, 2017,34(12):2-7. Cited in this article [1]

[8]	杨晓巳, 陶新磊. 综合能源技术路线研究[J]. 华电技术, 2019,41(11):22-25. YANG Xiaosi, TAO Xinlei. Research on integrated energy technical route[J]. Huadian Technology, 2019,41(11):22-25. Cited in this article [1]

[9]	刘永成, 李川, 曹喆, 等. 区域综合能源发展评估指标体系[J]. 电气应用, 2020,39(2):64-72. LIU Yongcheng, LI Chuan, CAO Zhe, et al. Evaluation index system of regional comprehensive energy development[J]. Electrotechnical Application, 2020,39(2):64-72. Cited in this article [1]

[10]	何大春, 黄俊辉, 李志杰, 等. 港口综合能源系统的AHP-模糊综合评价法[J]. 上海海事大学学报, 2020,41(2):85-89. HE Dachun, HUANG Junhui, LI Zhijie, et al. AHP-fuzzy comprehensive evaluation method of port integrated energy system[J]. Journal of Shanghai Maritime University, 2020,41(2):85-89. Cited in this article [1]

[11]

田世明, 栾文鹏, 张东霞, 等. 能源互联网技术形态与关键技术[J]. 中国电机工程学报, 2015,35(14):3482-3494.

https://doi.org/10.13334/j.0258-8013.pcsee.2015.14.002

http://www.pcsee.org/CN/abstract/abstract27855.shtml

Abstract

目前,互联网技术已经得到广泛应用,云计算和大数据技术正逐步与能源技术相融合,将推动可再生清洁能源发展。文章针对能源互联网前期已开展项目和学术观点展开深入分析,首先分析欧洲、美国和我国开展的能源互联网科研和实践工作,然后提出能源互联网的技术内涵和技术特征,并分析能源互联网的技术要素和技术形态,最后提出能源互联网关键技术,以期为我国能源互联网的发展提供参考。

TIAN

Shiming

, LUAN

Wenpeng

, ZHANG

Dongxia

, et al. Technical forms and key technologies on energy Internet[J]. Proceedings of the CSEE, 2015,35(14):3482-3494.

Cited in this article [1]

[12]

卫志农, 张思德, 孙国强, 等. 基于碳交易机制的电-气互联综合能源系统低碳经济运行[J]. 电力系统自动化, 2016,40(15):9-16.

WEI

Zhinong

, ZHANG

Side

, SUN

Guoqiang

, et al. Carbon trading based low-carbon economic operation for integrated electricity and natural gas energy system[J]. Automation of Electric Power Systems, 2016,40(15):9-16.

Cited in this article [1]

[13]	吴柳. 碳交易与节能量认证交易在建筑领域中的协调应用研究[D]. 重庆: 重庆大学, 2016. WU Liu. Coordination application of carbon emission trading scheme and energy certification trading scheme in China’s construction field[D]. Chongqing: Chongqing University, 2016. Cited in this article [1]

[14]

王秀云, 冯旭, 刘天琪, 等. 含用能权的风电电力系统低碳经济调度[J]. 太阳能学报, 2020,41(1):255-263.

WANG

Xiuyun

, FENG

, LIU

Tianqi

, et al. A low-carbon economic dispatching for power grid integrated with wind power system considering right of using energy[J]. Acta Energiae Solaris Sinica, 2020,41(1):255-263.

Cited in this article [1]

[15]

吴朝霞, 葛冰馨. 排污权交易试点的波特效应研究: 基于中国11个试点省市的数据[J]. 湘潭大学学报(哲学社会科学版), 2018,42(6):37-40,54.

Zhaoxia

, GE

Bingxin

. Study on the potter effect in pilot projects of emissions trading: Based on the data of eleven pilot provinces and cities in China[J]. Journal of Xiangtan University (Philosophy and Social Sciences), 2018,42(6):37-40,54.

Cited in this article [1]

[16]	蒋春来, 宋晓晖, 钟悦之, 等. 基于排污许可证的碳排放权交易体系研究[J]. 环境污染与防治, 2018,40(10):1198-1202. JIANG Chunlai, SONG Xiaohui, ZHONG Yuezhi, et al. Research on the emission permit-based carbon emission trading system[J]. Environmental Pollution & Control, 2018,40(10):1198-1202. Cited in this article [1]

[17]

帅云峰, 周春蕾, 李梦, 等. 美国碳市场与电力市场耦合机制研究: 以区域温室气体减排行动(RGGI)为例[J]. 电力建设, 2018,39(7):41-47.

SHUAI

Yunfeng

, ZHOU

Chunlei

, LI

Meng

, et al. Coupling mechanism of US carbon market and electricity market: A case study of regional greenhouse gas initiative[J]. Electric Power Construction, 2018,39(7):41-47.

Cited in this article [1]

[18]	冯天天. 绿证交易及碳交易对电力市场的耦合效应分析模型研究[D]. 北京: 华北电力大学, 2016. FENG Tiantian. Coupling induction analysis model of tradable green certificates and carbon emission trading acting on electricity market in China[D]. Beijing: North China Electric Power University, 2016. Cited in this article [1]

[19]	刘明明. 论构建中国用能权交易体系的制度衔接之维[J]. 中国人口·资源与环境, 2017,27(10):217-224. LIU Mingming. China’s energy-consuming right trading scheme: From the dimension of institutional linkage[J]. China Population,Resources and Environment, 2017,27(10):217-224. Cited in this article [1]