AlH3 as High-Energy Fuels for Solid Propellants: Synthesis, Thermodynamics, Kinetics, and Stabilization

Compounds Pub Date : 2024-03-26 DOI:10.3390/compounds4020012
Youhai Liu, Fusheng Yang, Yang Zhang, Zhen Wu, Zao-xiao Zhang
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Abstract

Aluminum hydride (AlH3) has attracted wide attention due to its high gravimetric and volumetric hydrogen capacity. AlH3 can easily release hydrogen when heated at relatively low temperature. Such high hydrogen density and low dehydrogenation temperature make it one of the most promising high-energy fuels for solid propellants. In particular, AlH3 as a component of solid propellants may greatly increase the specific impulse of rocket engines. However, AlH3 exhibits low chemical and thermal stability in an ambient atmosphere. In this paper, the research progress about the synthesis, dehydrogenation thermodynamics, and kinetics, the stabilization of AlH3 over the past decades are reviewed, with the aim of exploring more a economical synthesis and suitable stabilization methods for large-scale use in solid propellants. Finally, some suggestions regarding future research directions in this filed are proposed.
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AlH3 作为固体推进剂的高能燃料:合成、热力学、动力学和稳定性
氢化铝(AlH3)因其较高的氢容量和体积容量而受到广泛关注。AlH3 在相对较低的温度下加热时很容易释放氢气。这种高氢气密度和低脱氢温度使其成为最有前途的固体推进剂高能燃料之一。特别是,作为固体推进剂的一种成分,AlH3 可以大大提高火箭发动机的比冲。然而,AlH3 在环境大气中的化学稳定性和热稳定性较低。本文回顾了过去几十年来有关 AlH3 的合成、脱氢热力学和动力学、稳定化等方面的研究进展,旨在探索更经济的合成方法和适合大规模用于固体推进剂的稳定化方法。最后,就该领域未来的研究方向提出了一些建议。
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