The Hydrogen Challenge: Requirements for Future Materials

IF 0.3 Q4 THERMODYNAMICS

HTM-Journal of Heat Treatment and Materials Pub Date : 2023-08-01 DOI:10.1515/htm-2023-0014

R. Fechte-Heinen, D. Fuhrländer, A. Mehner, H. Decho, M. Castens, K. Burkart, R. Tinscher, T. Stührmann

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Abstract

Abstract The use of hydrogen as a climate-friendly energy source is gaining strongly in importance, as it represents the only solution for short- to medium-term decarbonization for some industrial sectors, such as the steel and basic materials industries. Increasing innovation density and scaling of electrolysis is creating a broader range of uses and applications. So-called green hydrogen can be used as a raw material (basic industry), process gas (direct steel reduction), burner gas (heat treatment) or energy carrier (e.g. transport, energy storage). Depending on the application, hydrogen acts in a cryogenic liquid or gaseous state on the materials with which it comes into contact. This gives rise to various technical requirements that need to be controlled. For the application of hydrogen in large-scale and mass production, appropriate materials and processes will have to be developed that can be used economically and scalably. Considerable R&D activities will be required in the future, from the processing of the starting materials, their property adjustment by heat treatment and coating, to manufacturing processes and testing. This article highlights the current status for selected areas and discusses future material requirements and development potential.

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氢挑战:对未来材料的要求

氢作为一种气候友好型能源的使用正变得越来越重要，因为它代表了一些工业部门(如钢铁和基础材料工业)短期到中期脱碳的唯一解决方案。不断增加的创新密度和电解的规模正在创造更广泛的用途和应用。所谓绿色氢，可以作为原料(基础工业)、工艺气体(钢铁直接还原)、燃烧器气体(热处理)或能量载体(如运输、储能)。根据不同的应用，氢以低温液态或气态作用于与之接触的材料。这就产生了需要控制的各种技术要求。为了在大规模和大规模生产中应用氢，必须开发能够经济和大规模使用的适当材料和工艺。未来将需要大量的研发活动，从原材料的加工，通过热处理和涂层调整其性能，到制造工艺和测试。本文重点介绍了所选领域的现状，并讨论了未来的材料需求和发展潜力。

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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来源期刊

HTM-Journal of Heat Treatment and Materials THERMODYNAMICS-

CiteScore

1.50

自引率

33.30%

发文量