Conveners
M3Or2D: Hydrogen Technologies and Compatible Materials
- Muhammad Edgar Bratasena (Yokohama National University)
- H. Alan Mantooth (University of Arkansas)
The Cryogenic Flux Capacitor (CFC) is a cold, dense energy storage core that is being studied in the cryo-compressed, about 300 bar and 80K, region of gaseous hydrogen (GH2) storage and liquid hydrogen (LH2) region near the normal boiling point. The hydrogens storage is improved by physically bonding the molecules within the nanoscale pores of the aerogel composite...
The abundance and diversity of end-use applications for hydrogen necessitates continued and accelerated research into advanced storage technologies. Traditionally, hydrogen has been stored in one of two ways: as a high-pressure, warm gas; or a low-pressure, cryogenic liquid. Methods such as cryo-supercritical (i.e. cryo-compressed) and cryo-adsorbed have also been explored, but are not yet...
Energy from hydrogen is an appropriate technological choice in the context of sustainable development and for a future CO2-neutral society. Within the framework of the national hydrogen lead projects, Karlsruhe Institute of Technology (KIT) is working with project partners of the technology platform "TransHyDE" in the lead project "AppLHy!" on the transport and application of liquid hydrogen...
There is rapidly growing interest in the aviation sector for the use of liquid hydrogen (LH2) as a zero emissions fuel for commercial aircraft, with major OEMs committing to hydrogen aircraft by 2035. Currently metallic tanks are used to store the LH2, which are much heavier than those used for conventional fuels resulting in significantly reduced operational range and/or payloads. Hence,...
