Journal of Composites Science (Mar 2023)

An Overview of the Recent Advances in Composite Materials and Artificial Intelligence for Hydrogen Storage Vessels Design

  • Mourad Nachtane,
  • Mostapha Tarfaoui,
  • Mohamed amine Abichou,
  • Alexandre Vetcher,
  • Marwane Rouway,
  • Abdeouhaed Aâmir,
  • Habib Mouadili,
  • Houda Laaouidi,
  • Hassan Naanani

DOI
https://doi.org/10.3390/jcs7030119
Journal volume & issue
Vol. 7, no. 3
p. 119

Abstract

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The environmental impact of CO2 emissions is widely acknowledged, making the development of alternative propulsion systems a priority. Hydrogen is a potential candidate to replace fossil fuels for transport applications, with three technologies considered for the onboard storage of hydrogen: storage in the form of a compressed gas, storage as a cryogenic liquid, and storage as a solid. These technologies are now competing to meet the requirements of vehicle manufacturers; each has its own unique challenges that must be understood to direct future research and development efforts. This paper reviews technological developments for Hydrogen Storage Vessel (HSV) designs, including their technical performance, manufacturing costs, safety, and environmental impact. More specifically, an up-to-date review of fiber-reinforced polymer composite HSVs was explored, including the end-of-life recycling options. A review of current numerical models for HSVs was conducted, including the use of artificial intelligence techniques to assess the performance of composite HSVs, leading to more sophisticated designs for achieving a more sustainable future.

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