Hydride compressor
A hydride compressor is a hydrogen compressor based on metal hydrides with absorption of hydrogen at low pressure, releasing heat, and desorption of hydrogen at high pressure, absorbing heat, by raising the temperature with an external heat source like a heated waterbed or electric coil.[1][2][3][4]
Advantages of the hydride compressor are the high volumetric density, no moving parts, simplicity in design and operation, the possibility to consume waste heat instead of electricity[5] and reversible absorption/desorption, disadvantages are the high cost of the metal hydride and weight.
History
The first applications of metal hydrides were made by NASA to demonstrate long-term hydrogen storage for use in space propulsion. In the 1970s, automobiles, vans, and forklifts were demonstrated.[6] The metal hydrides were used for hydrogen storage, separation, and refrigeration. An example of current use are hydrogen sorption cryocoolers[7] and portable metal hydride compressors.[8]
See also
- Electrochemical hydrogen compressor
- Guided-rotor compressor – Type of positive-displacement rotary gas compressor
- Hydrogen storage – Methods of storing hydrogen for later use
- Ionic liquid piston compressor
- Linear compressor – Gas compressor where the piston is driven by a linear actuator
- Sodium aluminium hydride – chemical compound
- Timeline of hydrogen technologies
References
- Metal hydride thermal sorption compressor
- Hydride compressor Archived 2012-05-03 at the Wayback Machine
- Popeneciu, G.; Almasan, V.; Coldea, I.; Lupu, D.; Misan, I.; Ardelean, O. (2009). "Investigation on a three-stage hydrogen thermal compressor based on metal hydrides". Journal of Physics: Conference Series. 182 (1): 012053. Bibcode:2009JPhCS.182a2053P. doi:10.1088/1742-6596/182/1/012053. S2CID 250673292.
- Wang, X.; Bei, Y.; Song, X.; Fang, G.; Li, S.; Chen, C.; Wang, Q. (2007). "Investigation on high-pressure metal hydride hydrogen compressors". International Journal of Hydrogen Energy. 32 (16): 4011–4015. doi:10.1016/j.ijhydene.2007.03.002.
- Lototskyy, M.V.; Yartys, V.A.; Pollet, B.G.; Bowman, R.C. (4 April 2012). "Metal hydride hydrogen compressors: A review". International Journal of Hydrogen Energy. 39 (11): 5818–5851. doi:10.1016/j.ijhydene.2014.01.158.
- Chandra, Dhanesh; Reilly, James J.; Chellappa, Raja (2006). "Metal hydrides for vehicular applications: The state of the art". JOM. 58 (2): 26–32. Bibcode:2006JOM....58b..26C. doi:10.1007/s11837-006-0005-0. S2CID 136414547.
- Bowman, R. C.; Prina, M.; Barber, D. S.; Bhandari, P.; Crumb, D.; Loc, A. S.; Morgante, G.; Reiter, J. W.; Schmelzel, M. E. (2003). "Evaluation of Hydride Compressor Elements for the Planck Sorption Cryocooler". Cryocoolers 12. pp. 627–635. doi:10.1007/0-306-47919-2_83. ISBN 978-0-306-47714-0.
- Metal hydride compressor Archived 2009-10-01 at the Wayback Machine