LOW-CARBON ECONOMIC DISPATCHING OF REGIONAL INTEGRATED ENERGY SYSTEM WITH CHP-CCS-P2G COUPLING BASED ON CARBON TRADE-GREEN CERTIFICATE JOINT TRADING MECHANISM

被引：0

作者：

Yang X. ^{[1
]}

Deng Y. ^{[1
]}

Wang X. ^{[1
]}

Deng F. ^{[1
]}

Zhang Z. ^{[1
]}

Mei L. ^{[1
]}

机构：

[1] School of Information Engineering, Nanchang University, Nanchang

来源：

Taiyangneng Xuebao/Acta Energiae Solaris Sinica | 2024年 / 45卷 / 06期

关键词：

carbon trading; cogeneration of heat and power; green certificate trading; regional integrated energy system; renewable energy consumption;

D O I：

10.19912/j.0254-0096.tynxb.2023-0304

中图分类号：

学科分类号：

摘要：

The paper proposes a low-carbon economic dispatching model of regional integrated energy system based on carbon trade-green certificate joint trading mechanism,which includes cogeneration units,carbon capture and power-to-gas equipment combined operation. Firstly,the operating principle of carbon trading and green certificate trading mechanism is analyzed and built its model. At the same time,the influence of green certificate trading price changes on the consumption of renewable energy is studied. Then,carbon capture and power-to-gas equipment are introduced into the cogeneration unit,and a model of joint operation of the cogeneration unit, carbon capture and power-to-gas equipment is constructed. The carbon trade-green certificate joint trading mechanism is introduced into the model,and the coupling characteristics of power and heat under the joint operation mode of the cogeneration unit are analyzed. Finally,in the example,by setting different scheduling scenarios for comparative analysis,the results show that this strategy can effectively reduce carbon emissions,expand the online space for renewable energy,and make the operation of the system more economical. © 2024 Science Press. All rights reserved.

引用

页码：244 / 254

页数：10

共 25 条

[1] MI J F, MA X F., Development trend analysis of carbon capture,utilization and storage technology in China, Proceedings of the CSEE, 39, 9, pp. 2537-2544, (2019)
[2] CUI Y, ZENG P, WANG Z, Et al., Low-carbon economic dispatch of electricity-gas-heat integrated energy system with carbon capture equipment considering price-based demand response, Power system technology, 45, 2, pp. 447-461, (2021)
[3] SHANG N, CHEN Z, LU Z L, Et al., Interaction principle and cohesive mechanism between electricity market, carbon market and green power certificate market, Power system technology, 47, 1, pp. 142-154, (2023)
[4] PENG Q, ZHOU X J, YANG R., Design of coordination and balance mechanism between national green power certificate trading market and provincial day-ahead power market [J], Power system technology, 44, 7, pp. 2565-2571, (2020)
[5] ZENG M, LIU Y X, ZHOU P C, Et al., Review and prospects of integrated energy system modeling and benefit evaluation, Power system technology, 42, 6, pp. 1697-1708, (2018)
[6] LYU J W, ZHANG S X, CHENG H Z, Et al., Review on district-level integrated energy system planning considering interconnection and interaction, Proceedings of the CSEE, 41, 12, pp. 4001-4021, (2021)
[7] HU X, SHANG C, CHEN D W, Et al., Multi-objective planning method for regional integrated energy systems considering energy quality, Automation of electric power systems, 43, 19, pp. 22-31, (2019)
[8] YANG H Z, LI M L, JIANG Z Y, Et al., Optimal operation of regional integrated energy system considering demand side electricity heat and natural-gas loads response, Power system protection and control, 48, 10, pp. 30-37, (2020)
[9] ZHANG T, GUO Y T, LI Y H, Et al., Optimization scheduling of regional integrated energy systems based on electric-thermal-gas integrated demand response, Power system protection and control, 49, 1, pp. 52-61, (2021)
[10] GUO Z, LI G Y, ZHOU M, Et al., Two-stage robust optimal scheduling of regional integrated energy system considering network constraints and uncertainties in source and load, Power system technology, 43, 9, pp. 3090-3100, (2019)

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