Optimal dispatching of integrated energy system considering complementation of carbon capture and integrated demand response

被引：0

作者：

Qi X. ^{[1
]}

Jiang Z. ^{[1
]}

Zhang J. ^{[1
]}

Hua Y. ^{[2
]}

机构：

[1] Anhui Province Key Laboratory of Renewable Energy Utilization and Energy Saving, Hefei University of Technology, Hefei

[2] Institute of Energy, Hefei Comprehensive National Science Center, Hefei

来源：

Dianli Zidonghua Shebei/Electric Power Automation Equipment | 2023年 / 43卷 / 07期

关键词：

carbon capture; integrated demand response; integrated energy system; ladder-type carbon trading mechanism; wind power consumption;

D O I：

10.16081/j.epae.202208026

中图分类号：

学科分类号：

摘要：

Energy industry is the main source of the carbon emission at present，it is urgent for the energy industry to reduce its carbon emission to meet the“dual carbon”goal. Based on the background，an optimal dispatching method for the integrated energy system with source-load low-carbon complementation under the ladder-type carbon trading mechanism is proposed. The low-carbon complementary mechanism of source-side carbon capture and load-side integrated demand response is analyzed. The ladder-type carbon trading mechanism is then introduced，and the optimal dispatching model with source-load low-carbon complementa⁃ tion is built，which takes the minimum overall operating cost of integrated energy system as the objective. To deal with the uncertainty of wind power generation when solving the model，the sequence calculation theory is adopted to discrete the probability distribution of wind power，so that the chance constraint is transformed into the deterministic constraint. Case study analysis verifies that the proposed dispatching model can optimize the electric and heating load curves under different carbon trading mechanisms，improve the consumption level of wind power and reduce carbon emissions，and the model has better low-carbon economic characteristics under the ladder-type carbon trading mechanism. © 2023 Electric Power Automation Equipment Press. All rights reserved.

引用

页码：133 / 141

页数：8

共 17 条

[1]

YU Xiaobao, ZHENG Dandan, YANG Kang, Et al., Opportuni⁃ ties and challenges faced by energy and power industry with the goal of carbon neutrality and carbon peak［J］, Huadian Technology, 43, 6, pp. 21-32, (2021)

[2]

PEI Zheyi, WANG Xinlei, DONG Cun, Et al., Analysis of im⁃ pact of CHP plant on renewable energy accommodation in Northeast China and thermoelectric decoupling measures［J］, Power System Technology, 41, 6, pp. 1786-1792, (2017)

[3]

WEE J H., A review on carbon dioxide capture and storage technology using coal fly ash［J］, Applied Energy, 106, pp. 143-151, (2013)

[4]

HUANG Zhongyuan, LI Jin, AN Hongguang, Et al., Study on the thermal energy integration of post-combustion CO<sub>2</sub> cap⁃ ture in natural gas combined cycle plant［J］, Proceedings of the CSEE, 37, 9, pp. 2644-2652, (2017)

[5]

High-power wind energy conversion systems：state-of-the-art and emerging technologies［J］, Proceedings of the IEEE, 103, 5, pp. 740-788, (2015)

[6]

ZHOU Renjun, SUN Hong, TANG Xiafei, Et al., Low-carbon economic dispatch based on virtual power plant made up of carbon capture unit and wind power under double carbon constraint ［J］, Proceedings of the CSEE, 38, 6, pp. 1675-1683, (2018)

[7]

ZHOU Di, LIU Yichun, Impact of China’s carbon emission trading policy on the performance of urban carbon emission and its mechanism［J］, China Environmental Science, 40, 1, pp. 453-464, (2020)

[8]

CHEN Jinpeng, HU Zhijian, CHEN Yingguang, Et al., Thermo⁃ electric optimization of integrated energy system considering ladder-type carbon trading mechanism and electric hydrogen production［J］, Electric Power Automation Equipment, 41, 9, pp. 48-55, (2021)

[9]

ZHANG Xiaohui, LIU Xiaoyan, ZHONG Jiaqing, Integrated energy system planning considering a reward and punishment ladder-type carbon trading and electric-thermal transfer load uncertainty［J］, Proceedings of the CSEE, 40, 19, pp. 6132-6142, (2020)

[10]

Yang CUI, ZENG Peng, ZHONG Wuzhi, Et al., Low-carbon eco⁃ nomic dispatch of electricity-gas-heat integrated energy sys⁃ tem based on ladder-type carbon trading［J］, Electric Power Automation Equipment, 41, 3, pp. 10-17, (2021)

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