Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response
The integrated energy system (IES), known for its flexibility and environmental friendliness, is a promising solution for low-carbon economies and energy efficiency. However, existing IES modeling methods are limited in their ability to explore the synergistic coupling of hydrogen energy across mult...
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| Format: | Article |
| Language: | zho |
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Editorial Department of Electric Power Engineering Technology
2025-05-01
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| Series: | 电力工程技术 |
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| Online Access: | https://doi.org/10.12158/j.2096-3203.2025.03.004 |
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| author | Changchun CAI Yaoyao HE Qinglun SHI Shixi HOU Bin WANG |
| author_facet | Changchun CAI Yaoyao HE Qinglun SHI Shixi HOU Bin WANG |
| author_sort | Changchun CAI |
| collection | DOAJ |
| description | The integrated energy system (IES), known for its flexibility and environmental friendliness, is a promising solution for low-carbon economies and energy efficiency. However, existing IES modeling methods are limited in their ability to explore the synergistic coupling of hydrogen energy across multiple devices, and the scheduling strategies lack market mechanism support. To address this, an optimal scheduling strategy of hydrogen-containing IES is proposed, which comprehensively considers green certificate trading, tiered carbon emission trading, and demand response. Firstly, a hydrogen multi-utilization model based on two-stage power-to-gas is established to promote the use of renewable energy. Secondly, a green certificate-carbon joint trading mechanism is developed to reduce reliance on fossil fuels through market incentives. Finally, an IES optimal scheduling model is constructed with the objective of minimizing economic operating costs, incorporating comprehensive demand response to optimize user-side energy consumption. The model is solved using the CPLEX solver. The results demonstrate that the proposed model effectively achieves multi-energy coupling within IES, enhances the absorption capacity of renewable energy, and reduces carbon emissions. |
| format | Article |
| id | doaj-art-24e75be57bae4b539a5d0f8471576bc8 |
| institution | OA Journals |
| issn | 2096-3203 |
| language | zho |
| publishDate | 2025-05-01 |
| publisher | Editorial Department of Electric Power Engineering Technology |
| record_format | Article |
| series | 电力工程技术 |
| spelling | doaj-art-24e75be57bae4b539a5d0f8471576bc82025-08-20T02:32:03ZzhoEditorial Department of Electric Power Engineering Technology电力工程技术2096-32032025-05-01443435210.12158/j.2096-3203.2025.03.004caichangchunLow-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand responseChangchun CAI0Yaoyao HE1Qinglun SHI2Shixi HOU3Bin WANG4College of Artificial Intelligence and Automation, Hohai University, Changzhou 213022, ChinaJiangsu Key Laboratory of Power Transmission & Distribution Equipment Technology (Hohai University), Changzhou 213022, ChinaCollege of Artificial Intelligence and Automation, Hohai University, Changzhou 213022, ChinaCollege of Artificial Intelligence and Automation, Hohai University, Changzhou 213022, ChinaState Grid Taicang Power Supply Company of Jiangsu Electric Power Co., Ltd., Taicang 215400, ChinaThe integrated energy system (IES), known for its flexibility and environmental friendliness, is a promising solution for low-carbon economies and energy efficiency. However, existing IES modeling methods are limited in their ability to explore the synergistic coupling of hydrogen energy across multiple devices, and the scheduling strategies lack market mechanism support. To address this, an optimal scheduling strategy of hydrogen-containing IES is proposed, which comprehensively considers green certificate trading, tiered carbon emission trading, and demand response. Firstly, a hydrogen multi-utilization model based on two-stage power-to-gas is established to promote the use of renewable energy. Secondly, a green certificate-carbon joint trading mechanism is developed to reduce reliance on fossil fuels through market incentives. Finally, an IES optimal scheduling model is constructed with the objective of minimizing economic operating costs, incorporating comprehensive demand response to optimize user-side energy consumption. The model is solved using the CPLEX solver. The results demonstrate that the proposed model effectively achieves multi-energy coupling within IES, enhances the absorption capacity of renewable energy, and reduces carbon emissions.https://doi.org/10.12158/j.2096-3203.2025.03.004integrated energy system (ies)hydrogen multi-utilizationgreen certificate tradingcarbon emission tradingcarbon emissiondemand responseoptimal dispatching |
| spellingShingle | Changchun CAI Yaoyao HE Qinglun SHI Shixi HOU Bin WANG Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response 电力工程技术 integrated energy system (ies) hydrogen multi-utilization green certificate trading carbon emission trading carbon emission demand response optimal dispatching |
| title | Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response |
| title_full | Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response |
| title_fullStr | Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response |
| title_full_unstemmed | Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response |
| title_short | Low-carbon optimal dispatching of hydrogen-containing IES considering joint green certificate-carbon emission trading and demand response |
| title_sort | low carbon optimal dispatching of hydrogen containing ies considering joint green certificate carbon emission trading and demand response |
| topic | integrated energy system (ies) hydrogen multi-utilization green certificate trading carbon emission trading carbon emission demand response optimal dispatching |
| url | https://doi.org/10.12158/j.2096-3203.2025.03.004 |
| work_keys_str_mv | AT changchuncai lowcarbonoptimaldispatchingofhydrogencontainingiesconsideringjointgreencertificatecarbonemissiontradinganddemandresponse AT yaoyaohe lowcarbonoptimaldispatchingofhydrogencontainingiesconsideringjointgreencertificatecarbonemissiontradinganddemandresponse AT qinglunshi lowcarbonoptimaldispatchingofhydrogencontainingiesconsideringjointgreencertificatecarbonemissiontradinganddemandresponse AT shixihou lowcarbonoptimaldispatchingofhydrogencontainingiesconsideringjointgreencertificatecarbonemissiontradinganddemandresponse AT binwang lowcarbonoptimaldispatchingofhydrogencontainingiesconsideringjointgreencertificatecarbonemissiontradinganddemandresponse |