The article describes the necessity of developing an energy source suitable for domestic applications such as photovoltaic panels. Since photovoltaic panels have the highest efficiency during lunch when at least people are present in the home, a suitable energy carrier is needed to store them in household. The paper describes a hydrogen technology laboratory equipped with a photovoltaic system connected to hydrogen production by electrolysis of water. Subsequently, this hydrogen is deposited. In order to increase the amount of deposited hydrogen, a heat pump hydrogen compressor was developed to use the waste heat to absorb hydrogen into the metal hydride. This heat is used to increase the pressure in the absorbed hydrogen reservoir to compress it and release it to a higher degree of compression. Hydralloy C0 and TiCrMn0.55Fe0.3V0.15, whose properties and PCT curves show the desired properties for successful hydrogen compression, are considered in the construction of the compressor. By using the Hydralloy C0 - TiCrMn0.55Fe0.3V0.15 combination, it is possible to increase the hydrogen pressure from about 20 bar to about 200 bar in a temperature range of about from 15 to 65°C. Hydrogen compression with metal hydrides in temperature swing operation is a promising component for future hydrogen systems, as they have the capability of compressing hydrogen to high pressures without moving parts and do not require mechanical energy, but only heat.

1.
O.V.
Marchenko
. and
S.V.
Solomin
,
Int. J. Hydrogen Energy
,
40
,
3801
3805
(
2015
).
2.
M.
Ball
and
M.
Wietschel
,
Int. J. Hydrogen Energy
,
34
,
615
627
(
2009
).
3.
M.V.
Lototskyy
,
V.A.
Yartys
,
B.G.
Pollet
and
R.C.
Bowman
,
Int. J. Hydrogen Energy
,
34
,
5018
5051
(
2014
).
4.
J.
Graetz
,
Chemical Society Reviews
,
38
,
73
82
(
2009
).
5.
M.T.
Hagström
,
J.P.
Vanhanen
and
P.D.
Lund
,
Advanced Energy Systems
,
269
,
288
293
(
1997
).
This content is only available via PDF.
You do not currently have access to this content.