氢储存技术的进步:与可再生能源和创新解决方案相结合,实现可持续的未来

IF 3.6
Yasin Khalili , Sara Yasemi , Mohammadreza Bagheri , Ali Sanati
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引用次数: 0

摘要

氢气存储可实现大规模能源存储、平衡可再生能源波动并确保各种应用的稳定供应,在实现净零排放方面发挥着至关重要的作用。本研究对储氢技术进行了全面分析,尤其关注盐洞、枯竭气藏和含水层等地质构造中的地下储氢。这些地层提供了高容量的储氢解决方案,其中盐穴可储存高达 6 太瓦时的氢气,而枯竭气藏每个地点可储存超过 1 太瓦时的氢气。领先项目的案例研究证明了地下储氢(UHS)在减少能源间歇性和提高供应安全性方面的可行性。氢气泄漏、地下水污染、诱发地震和经济限制等挑战仍然是关键问题。我们的研究结果强调了将 UHS 纳入石油和天然气行业的技术、经济和监管方面的考虑因素,并强调了其在可持续能源转型和去碳化战略中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Advancements in hydrogen storage technologies: Integrating with renewable energy and innovative solutions for a sustainable future

Advancements in hydrogen storage technologies: Integrating with renewable energy and innovative solutions for a sustainable future
Hydrogen storage plays a crucial role in achieving net-zero emissions by enabling large-scale energy storage, balancing renewable energy fluctuations, and ensuring a stable supply for various applications. This study provides a comprehensive analysis of hydrogen storage technologies, with a particular focus on underground storage in geological formations such as salt caverns, depleted gas reservoirs, and aquifers. These formations offer high-capacity storage solutions, with salt caverns capable of holding up to 6 TWh of hydrogen and depleted gas reservoirs exceeding 1 TWh per site. Case studies from leading projects demonstrate the feasibility of underground hydrogen storage (UHS) in reducing energy intermittency and enhancing supply security. Challenges such as hydrogen leakage, groundwater contamination, induced seismicity, and economic constraints remain critical concerns. Our findings highlight the technical, economic, and regulatory considerations for integrating UHS into the oil and gas industry, emphasizing its role in sustainable energy transition and decarbonization strategies.
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CiteScore
8.20
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