Authors :
Jayant Kumar; Dr. Praveen Kumar; Dr. Vaibhav Chandra
Volume/Issue :
RISEM–2025
Google Scholar :
https://tinyurl.com/2umhrutp
Scribd :
https://tinyurl.com/2warkctf
DOI :
https://doi.org/10.38124/ijisrt/25jul612
Abstract :
This research paper presented a review of different types of hydrogen storage technologies, current gaps and
challenges of the hydrogen storage system. Transportation of hydrogen is the biggest task that has been involved in
adoption of hydrogen as an import and export of clean energy. It has been categorized into three different approaches to
describe the current hydrogen storage technologies i.e. compressed gas storage, solid-state storage and liquid hydrogen
storage, and while liquid hydrogen storage relies on freezing temperatures to preserve hydrogen in liquid form,
compressed gas storage involves large concentrations of pressurized hydrogen. Higher energy densities and lower
operating pressures are potential benefits of solid-state storage, which is made up of metal hydrides, chemical hydrides,
and porous materials. This review paper combines a comprehensive study of hydrogen storage technologies and
approaches from various research studies. Furthermore, discuss on current gaps, challenges in hydrogen storage and
comparing the results, methodologies, and conclusions of several significant papers related to Hydrogen Storage
Technologies.
Keywords :
Solid-State Storage, Liquid Hydrogen Storage, Compressed Gas Storage.
This research paper presented a review of different types of hydrogen storage technologies, current gaps and
challenges of the hydrogen storage system. Transportation of hydrogen is the biggest task that has been involved in
adoption of hydrogen as an import and export of clean energy. It has been categorized into three different approaches to
describe the current hydrogen storage technologies i.e. compressed gas storage, solid-state storage and liquid hydrogen
storage, and while liquid hydrogen storage relies on freezing temperatures to preserve hydrogen in liquid form,
compressed gas storage involves large concentrations of pressurized hydrogen. Higher energy densities and lower
operating pressures are potential benefits of solid-state storage, which is made up of metal hydrides, chemical hydrides,
and porous materials. This review paper combines a comprehensive study of hydrogen storage technologies and
approaches from various research studies. Furthermore, discuss on current gaps, challenges in hydrogen storage and
comparing the results, methodologies, and conclusions of several significant papers related to Hydrogen Storage
Technologies.
Keywords :
Solid-State Storage, Liquid Hydrogen Storage, Compressed Gas Storage.
