Design and operation of a hydrogen supply chain considering CO2 mitigation strategies - A case study of the United Arab Emirates

2015 IEEE International Conference on Smart Energy Grid Engineering (SEGE) Pub Date : 2015-11-12 DOI:10.1109/SEGE.2015.7324585

A. Almansoori

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Abstract

A mixed integer linear programming (MILP) model for the optimal design and operation of a hydrogen supply chain (HSC) under CO2 emission constraints is presented. The mathematical model includes carbon capture and storage (CCS) methods and carbon tax as CO2 mitigation strategies. A case study of a future hydrogen supply chain in the United Arab Emirates (UAE) is analyzed. The optimization objective consists of the minimization of the total network cost, both in terms of capital and operating expenditures, under techno-economic and environmental constraints. The optimization problem was formulated in the General Algebraic Modeling System (GAMS®). The aim of this work is to determine the optimal design and operation of a future hydrogen supply chain in the United Arab Emirates with and without CO2 emission regulations. Also, the model determines the most suitable delivered product form (i.e., gaseous or liquid) into the market. The optimization results show that the mathematical model is a valuable tool for designing the optimal hydrogen supply chain of the country, minimize the supply chain costs, and reduce the CO2 emissions.

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考虑二氧化碳减排战略的氢供应链设计和运行——阿拉伯联合酋长国案例研究

提出了二氧化碳排放约束下氢供应链优化设计与运行的混合整数线性规划模型。该数学模型包括碳捕集与封存(CCS)方法和碳税作为二氧化碳减排策略。本文以阿拉伯联合酋长国(UAE)的未来氢供应链为例进行了分析。优化目标包括在技术经济和环境约束下，在资本和运营支出方面使总网络成本最小化。优化问题是在通用代数建模系统(GAMS®)中制定的。这项工作的目的是确定阿拉伯联合酋长国未来氢气供应链的最佳设计和运行，无论是否有二氧化碳排放法规。此外，该模型确定了最适合交付的产品形式(即，气体或液体)进入市场。优化结果表明，该数学模型对于设计国家最优氢供应链，实现供应链成本最小化，减少二氧化碳排放具有重要的参考价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE International Conference on Smart Energy Grid Engineering (SEGE)

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