基于风−氢−甲醇−碳捕集一体化的综合能源系统经济运行建模分析
摘要:针对风电消纳和传统高压储氢方式存储成本较高等问题,提出了一种基于风−氢−甲醇−碳捕集一体化的综合能源系统经济运行模型,实现更为安全经济的储氢模式。首先,构建一体化综合能源系统(integrated energy system, IES)的结构模型,通过氢转甲醇和甲醇重整制氢系统替代传统储氢模式,并与碳捕集设备配合实现碳资源循环利用。其次,综合考虑系统运行经济成本、环境成本,建立了基于风−氢−甲醇−碳捕集一体化的综合能源系统多目标经济运行模型;最后,通过算例对比了4 种不同的经济运行方案,验证了所提模型的可行性。
Abstract:Aiming to address the challenge of wind power consumption and high storage costs in traditional hydrogen storage methods, an economic model for integrated energy systems based on the integration of wind-hydrogen-methanol-carbon capture was proposed to establish a safer and more economical hydrogen storage mode. First, a structural model of an integrated energy system (IES) was developed to replace the traditional hydrogen storage mode through a hydrogen to methanol and methanol reforming hydrogen production system. By Cooperating with carbon capture equipment, carbon resource recycling was realized. Secondly, the economic and environmental costs of the system operation were comprehensively considered, leading to the establishment of an economic operation model for the system. Finally, the feasibility of the proposed model was verified by comparing four operation scenarios.
标题:基于风−氢−甲醇−碳捕集一体化的综合能源系统经济运行建模分析
英文标题:Economic Operation Modeling Analysis of Integrated Energy System Based on Integration of Wind-Hydrogen-Methanol-Carbon Capture
