Optimization of Supply and Demand Balancing in Park-Level Energy Systems Considering Comprehensive Utilization of Hydrogen under P2G-CCS Coupling

The park-level integrated energy system (PIES) is essential for achieving carbon neutrality by managing multi-energy supply and demand while enhancing renewable energy integration. However, current carbon trading mechanisms lack sufficient incentives for emission reductions, and traditional optimiza...

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Published in	Energy engineering Vol. 122; no. 5; pp. 1919 - 1948
Main Authors	Zhang, Zhiyuan, Wu, Yongjun, Li, Xiqin, Song, Minghui, Zhang, Guangwu, Wang, Ziren, Li, Wei
Format	Journal Article
Language	English
Published	Atlanta Tech Science Press 2025
Subjects	Algorithms Carbon Carbon content Convergence Coupling Electric power demand Emissions control Emissions trading Energy Energy management Energy utilization Fuel cells Hydrogen Hydrogen fuels Industrial parks Integrated energy systems Natural gas Operating costs Optimization Renewable energy Renewable resources Supply & demand
Online Access	Get full text
ISSN	1546-0118 0199-8595 1546-0118
DOI	10.32604/ee.2025.063178

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Abstract	The park-level integrated energy system (PIES) is essential for achieving carbon neutrality by managing multi-energy supply and demand while enhancing renewable energy integration. However, current carbon trading mechanisms lack sufficient incentives for emission reductions, and traditional optimization algorithms often face challenges with convergence and local optima in complex PIES scheduling. To address these issues, this paper introduces a low-carbon dispatch strategy that combines a reward-penalty tiered carbon trading model with P2G-CCS integration, hydrogen utilization, and the Secretary Bird Optimization Algorithm (SBOA). Key innovations include: (1) A dynamic reward-penalty carbon trading mechanism with coefficients (μ = 0.2, λ = 0.15), which reduces carbon trading costs by 47.2% (from $694.06 to $366.32) compared to traditional tiered models, incentivizing voluntary emission reductions. (2) The integration of P2G-CCS coupling, which lowers natural gas consumption by 41.9% (from $4117.20 to $2389.23) and enhances CO2 recycling efficiency, addressing the limitations of standalone P2G or CCS technologies. (3) The SBOA algorithm, which outperforms traditional methods (e.g., PSO, GWO) in convergence speed and global search capability, avoiding local optima and achieving 24.39% faster convergence on CEC2005 benchmark functions. (4) A four-energy PIES framework incorporating electricity, heat, gas, and hydrogen, where hydrogen fuel cells and CHP systems improve demand response flexibility, reducing gas-related emissions by 42.1% and generating $13.14 in demand response revenue. Case studies across five scenarios demonstrate the strategy’s effectiveness: total operational costs decrease by 14.7% (from $7354.64 to $6272.59), carbon emissions drop by 49.9% (from 5294.94 to 2653.39 kg), and renewable energy utilization increases by 24.39% (from 4.82% to 8.17%). These results affirm the model’s ability to reconcile economic and environmental goals, providing a scalable approach for low-carbon transitions in industrial parks.
AbstractList	The park-level integrated energy system (PIES) is essential for achieving carbon neutrality by managing multi-energy supply and demand while enhancing renewable energy integration. However, current carbon trading mechanisms lack sufficient incentives for emission reductions, and traditional optimization algorithms often face challenges with convergence and local optima in complex PIES scheduling. To address these issues, this paper introduces a low-carbon dispatch strategy that combines a reward-penalty tiered carbon trading model with P2G-CCS integration, hydrogen utilization, and the Secretary Bird Optimization Algorithm (SBOA). Key innovations include: (1) A dynamic reward-penalty carbon trading mechanism with coefficients (μ = 0.2, λ = 0.15), which reduces carbon trading costs by 47.2% (from $694.06 to $366.32) compared to traditional tiered models, incentivizing voluntary emission reductions. (2) The integration of P2G-CCS coupling, which lowers natural gas consumption by 41.9% (from $4117.20 to $2389.23) and enhances CO2 recycling efficiency, addressing the limitations of standalone P2G or CCS technologies. (3) The SBOA algorithm, which outperforms traditional methods (e.g., PSO, GWO) in convergence speed and global search capability, avoiding local optima and achieving 24.39% faster convergence on CEC2005 benchmark functions. (4) A four-energy PIES framework incorporating electricity, heat, gas, and hydrogen, where hydrogen fuel cells and CHP systems improve demand response flexibility, reducing gas-related emissions by 42.1% and generating $13.14 in demand response revenue. Case studies across five scenarios demonstrate the strategy’s effectiveness: total operational costs decrease by 14.7% (from $7354.64 to $6272.59), carbon emissions drop by 49.9% (from 5294.94 to 2653.39 kg), and renewable energy utilization increases by 24.39% (from 4.82% to 8.17%). These results affirm the model’s ability to reconcile economic and environmental goals, providing a scalable approach for low-carbon transitions in industrial parks.
Author	Zhang, Zhiyuan Zhang, Guangwu Wang, Ziren Wu, Yongjun Li, Xiqin Song, Minghui Li, Wei
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SubjectTerms	Algorithms Carbon Carbon content Convergence Coupling Electric power demand Emissions control Emissions trading Energy Energy management Energy utilization Fuel cells Hydrogen Hydrogen fuels Industrial parks Integrated energy systems Natural gas Operating costs Optimization Renewable energy Renewable resources Supply & demand
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Title	Optimization of Supply and Demand Balancing in Park-Level Energy Systems Considering Comprehensive Utilization of Hydrogen under P2G-CCS Coupling
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