TY - JOUR VL - 10 JF - Journal of Applied Sciences A1 - Nour, U.M. A1 - Awad, S. A1 - Yusup, S. A1 - Sufian, S. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-77953517922&doi=10.3923%2fjas.2010.1200.1203&partnerID=40&md5=af9806f2d22cec72ed9b78c951862968 N1 - cited By 7 Y1 - 2010/// SP - 1200 PB - Asian Network for Scientific Information AV - none ID - scholars1399 EP - 1203 SN - 18125654 N2 - With the decline of global fossil fuel reserve and the increasing demand for energy, there is a sincere need to develop alternative fuels for automobiles. Hydrogen is an environmentally friendly and renewable energy source. It has been considered an ideal fuel for replacing fossil fuels. Currently, Liquid Hydrogen (LH2) system (with a density of 51 kg m-3 and 14 wt.) is close to practical use. However, the cost of using LH2 as a transportation fuel is nearly twice that of Gaseous Hydrogen (GH2), due to the liquefaction process, increased fuel transportation costs and more complex manipulation of the fuel. If the intention is to use hydrogen on a large scale, storage is a key problem. Researchers have shown that hydrogen could be stored as: compressed gas, cryogenic hydrogen and metal hydrides. However, the number of alternative methods is growing, including the use of carbon novel materials, chemical hydrides and glass microspheres. This are also being considered. The present is study reviews the different solutions for hydrogen storage and highlights the promising technology for vehicle use. © 2010 Asian Network for Scientific Information. IS - 12 KW - Alternative fuels; Carbon; Cryogenics; Fossil fuels; Fuels; Hydrides; Hydrogen; Liquefied gases; Proven reserves; Renewable energy resources; Storage (materials) KW - Compressed gas; Fuel transportations; Glass microspheres; Hydrogen storage technologies; Liquefaction process; Renewable energy source; Technical evaluation; Transportation fuels KW - Hydrogen storage TI - Technical evaluation of current hydrogen storage technologies for vehicles ER -