Evaluating the feasibility and economics of hydrogen storage in large-scale renewable deployment for decarbonization

IF 7.9 2区 工程技术 Q1 ENERGY & FUELS Energy Strategy Reviews Pub Date : 2024-09-01 DOI:10.1016/j.esr.2024.101545
Yuan-Shin Fu , I-Yun Lisa Hsieh
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Abstract

Renewable energy (RE) is pivotal for achieving a net-zero future, with energy storage systems essential for maximizing its utility. This study introduces a modeling framework that simulates large-scale RE deployment in Taiwan, emphasizing hydrogen as a primary storage medium. Utilizing hourly time steps, the model assesses various energy generation and storage configurations to demonstrate the technical feasibility of meeting Taiwan's 2050 net-zero target, which calls for a 60 % RE share primarily through solar and wind resources. However, achieving this target and the ambitious goal of 100 % RE penetration requires substantial enhancements in both generation capacity and storage solutions. The research evaluates the economic impacts by analyzing the levelized cost of energy (LCOE), revealing that optimal configurations, such as a wind capacity of 30 GW with a 5 % minimum capacity factor constraint on electrolyzers, significantly reduce LCOE to $0.176/kWh, underscoring the cost-effectiveness of hydrogen storage compared to battery alternatives in large-scale settings. The study underscores the necessity for ongoing investigations into replacing thermal power plants and maintaining grid stability amidst high RE penetration. To fully harness Taiwan's RE potential and contribute to global sustainability, effective deployment of hydrogen storage will require robust stakeholder support, continual technological advancements, and enabling policies. This framework, while tailored to Taiwan's power system, offers insights applicable to various global contexts.
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评估大规模可再生能源部署中氢气储存的可行性和经济性,以实现去碳化
可再生能源(RE)是实现未来净零排放的关键,而储能系统则是实现其效用最大化的关键。本研究介绍了一个模拟台湾大规模可再生能源部署的建模框架,强调氢气作为主要的储能介质。该模型利用每小时的时间步长,对各种发电和储能配置进行评估,以证明实现台湾 2050 年净零排放目标的技术可行性,该目标要求主要通过太阳能和风能资源实现 60% 的可再生能源份额。然而,要实现这一目标以及可再生能源渗透率达到 100% 的宏伟目标,需要大幅提高发电能力和储能解决方案。研究通过分析平准化能源成本(LCOE)来评估经济影响,结果表明,最佳配置(例如风力发电能力为 30 千兆瓦,电解槽的最低容量因数限制为 5%)可将 LCOE 显著降至 0.176 美元/千瓦时,从而强调了在大规模环境中,与电池替代品相比,氢气存储的成本效益。这项研究强调,在可再生能源高度渗透的情况下,有必要对替代火力发电厂和维持电网稳定进行持续调查。要充分利用台湾的可再生能源潜力并为全球可持续发展做出贡献,有效部署氢存储将需要利益相关者的大力支持、持续的技术进步以及有利的政策。本框架虽然针对台湾的电力系统,但提供了适用于各种全球环境的见解。
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来源期刊
Energy Strategy Reviews
Energy Strategy Reviews Energy-Energy (miscellaneous)
CiteScore
12.80
自引率
4.90%
发文量
167
审稿时长
40 weeks
期刊介绍: Energy Strategy Reviews is a gold open access journal that provides authoritative content on strategic decision-making and vision-sharing related to society''s energy needs. Energy Strategy Reviews publishes: • Analyses • Methodologies • Case Studies • Reviews And by invitation: • Report Reviews • Viewpoints
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