低温环境下移动加氢站的技术创新与控制方法研究

王琎磊 ,  张明明

现代工业与技术 ›› 2024, Vol. 1 ›› Issue (7) : 4 -7.

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现代工业与技术 ›› 2024, Vol. 1 ›› Issue (7) : 4 -7. DOI: 10.12349/mit.v1i7.5412

低温环境下移动加氢站的技术创新与控制方法研究

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Research on technological innovation and control method of mobile hydrogenation station in low temperature environment

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摘要

随着氢能源汽车的迅速发展,加氢站的建设与运营成为氢能源产业链中的关键环节。本文介绍了一种适用于低温环境的移动加氢站及其控制方法,旨在解决传统加氢站在低温环境下运行效率低的问题。通过技术创新,该移动加氢站能够在极端气候条件下高效、安全地运行,为氢能源汽车提供可靠的能源供应。该加氢站采用先进的温控系统和模块化设计,确保在低温环境下仍能保持稳定的氢气供应和加注效率。此外,其移动性特点使其能够灵活部署于不同地区,尤其适用于偏远或气候恶劣的区域。这一技术突破不仅提升了加氢站的适应性,也为氢能源汽车的普及提供了重要支持,推动了氢能源产业链的进一步完善。

Abstract

With the rapid development of hydrogen fuel cell vehicles, the construction and operation of hydrogen refueling stations have become a critical link in the hydrogen energy industry chain. This paper introduces a mobile hydrogen refueling station suitable for low-temperature environments and its control methods, aiming to address the issue of low operational efficiency at traditional hydrogen refueling stations in cold climates. Through technological innovation, this mobile hydrogen refueling station can operate efficiently and safely under extreme weather conditions, providing reliable energy supply for hydrogen fuel cell vehicles. The station employs advanced temperature control systems and modular design to ensure stable hydrogen supply and refueling efficiency even in low-temperature environments. Additionally, its mobility allows it to be flexibly deployed in different regions, especially in remote or harsh climates. This technological breakthrough not only enhances the adaptability of hydrogen refueling stations but also provides significant support for the widespread adoption of hydrogen fuel cell vehicles, promoting further improvements in the hydrogen energy industry chain.

关键词

移动加氢站 / 低温环境 / 技术创新

Key words

mobile hydrogen refueling station / low-temperature environment / technological innovation

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王琎磊,张明明. 低温环境下移动加氢站的技术创新与控制方法研究[J]. 现代工业与技术, 2024, 1(7): 4-7 DOI:10.12349/mit.v1i7.5412

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参考文献

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清华大学车辆与运载学院. 氢能出行关键技术研发及冬奥示范[J]. 清华大学学报(自然科学版), 2022, 62(1): 1-10.

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中国航天科技集团六院101所. 液态储氢加氢系统关键技术突破[J]. 航天制造技术, 2023, 42(2): 45-50.

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中车青岛四方车辆研究所 耐低温自动加氢机器人系统开发[J]. 中国铁道科学, 2024, 45(3): 123-129

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