Synthesis of fibrous activated carbons and monoliths for hydrogen storage
For a future energy sector, hydrogen is considered a clean alternative to other fuels. As an ideal secondary energy carrier it can be produced from renewable energy sources (e.g., solar, wind, biomass, etc.), and converted very efficiently to electricity in fuel cells, emitting only water. However,...
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| container_title | Boletín del Grupo Español del carbón |
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| creator | Kunowsky, M |
| description | For a future energy sector, hydrogen is considered a
clean alternative to other fuels. As an ideal secondary
energy carrier it can be produced from renewable
energy sources (e.g., solar, wind, biomass, etc.),
and converted very efficiently to electricity in fuel
cells, emitting only water. However, one of the
main obstacles which impedes the introduction of
this technology is the absence of efficient storage
solutions. This is strongly related to the low density of
hydrogen, which exists as a supercritical fluid under
normal conditions. In order to use hydrogen as a fuel,
a number of different technologies are considered
today. Among them, the high pressure storage in
adsorbent materials is a promising technology. The
adsorbents for such kind of application require very
specific features, depending on the thermophysical
storage conditions. |
| format | Article |
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clean alternative to other fuels. As an ideal secondary
energy carrier it can be produced from renewable
energy sources (e.g., solar, wind, biomass, etc.),
and converted very efficiently to electricity in fuel
cells, emitting only water. However, one of the
main obstacles which impedes the introduction of
this technology is the absence of efficient storage
solutions. This is strongly related to the low density of
hydrogen, which exists as a supercritical fluid under
normal conditions. In order to use hydrogen as a fuel,
a number of different technologies are considered
today. Among them, the high pressure storage in
adsorbent materials is a promising technology. The
adsorbents for such kind of application require very
specific features, depending on the thermophysical
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clean alternative to other fuels. As an ideal secondary
energy carrier it can be produced from renewable
energy sources (e.g., solar, wind, biomass, etc.),
and converted very efficiently to electricity in fuel
cells, emitting only water. However, one of the
main obstacles which impedes the introduction of
this technology is the absence of efficient storage
solutions. This is strongly related to the low density of
hydrogen, which exists as a supercritical fluid under
normal conditions. In order to use hydrogen as a fuel,
a number of different technologies are considered
today. Among them, the high pressure storage in
adsorbent materials is a promising technology. The
adsorbents for such kind of application require very
specific features, depending on the thermophysical
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clean alternative to other fuels. As an ideal secondary
energy carrier it can be produced from renewable
energy sources (e.g., solar, wind, biomass, etc.),
and converted very efficiently to electricity in fuel
cells, emitting only water. However, one of the
main obstacles which impedes the introduction of
this technology is the absence of efficient storage
solutions. This is strongly related to the low density of
hydrogen, which exists as a supercritical fluid under
normal conditions. In order to use hydrogen as a fuel,
a number of different technologies are considered
today. Among them, the high pressure storage in
adsorbent materials is a promising technology. The
adsorbents for such kind of application require very
specific features, depending on the thermophysical
storage conditions.</abstract><oa>free_for_read</oa></addata></record> |
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| source | Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Dialnet |
| title | Synthesis of fibrous activated carbons and monoliths for hydrogen storage |
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