Abstract
Proposed is a global recycling system which controls CO{sub 2} and also transports natural energy existing in a remote place. In terms of resource volume, the sun is the most feasible for a direct use as a non-fossil energy source which aims at a complete substitution of fossil fuels, especially as a renewable natural energy source. The desert is a place suitable for utilization of the sun because it is an unused land and is rich in solar energy. For transportation of solar energy, it is effective to convert hydrogen to hydride for transport by tanker, in view of storage, initial capacity investment, maintenance and safety. For this, methanol is the most suitable as an energy carrier in terms of its hydrogen content and energy volume. Hydrogen is produced by electrolysis of water using electric power obtained from solar energy. Moreover, this system produces methanol by reducing CO{sub 2} sent from Japan with this hydrogen and transports it by tanker for the use in Japan. This system will succeed technically. 118 refs., 98 figs., 35 tabs.
Citation Formats
None.
Promotion of industrial technologies on the global environment. Feasibility study on CO{sub 2} global recycling system using natural energy; Chikyu kankyo sangyo gijutsu suishin jigyo. Shizen energy ni yoru CO{sub 2} global recycle system no kanosei chosa.
Japan: N. p.,
1991.
Web.
None.
Promotion of industrial technologies on the global environment. Feasibility study on CO{sub 2} global recycling system using natural energy; Chikyu kankyo sangyo gijutsu suishin jigyo. Shizen energy ni yoru CO{sub 2} global recycle system no kanosei chosa.
Japan.
None.
1991.
"Promotion of industrial technologies on the global environment. Feasibility study on CO{sub 2} global recycling system using natural energy; Chikyu kankyo sangyo gijutsu suishin jigyo. Shizen energy ni yoru CO{sub 2} global recycle system no kanosei chosa."
Japan.
@misc{etde_10120484,
title = {Promotion of industrial technologies on the global environment. Feasibility study on CO{sub 2} global recycling system using natural energy; Chikyu kankyo sangyo gijutsu suishin jigyo. Shizen energy ni yoru CO{sub 2} global recycle system no kanosei chosa}
author = {None}
abstractNote = {Proposed is a global recycling system which controls CO{sub 2} and also transports natural energy existing in a remote place. In terms of resource volume, the sun is the most feasible for a direct use as a non-fossil energy source which aims at a complete substitution of fossil fuels, especially as a renewable natural energy source. The desert is a place suitable for utilization of the sun because it is an unused land and is rich in solar energy. For transportation of solar energy, it is effective to convert hydrogen to hydride for transport by tanker, in view of storage, initial capacity investment, maintenance and safety. For this, methanol is the most suitable as an energy carrier in terms of its hydrogen content and energy volume. Hydrogen is produced by electrolysis of water using electric power obtained from solar energy. Moreover, this system produces methanol by reducing CO{sub 2} sent from Japan with this hydrogen and transports it by tanker for the use in Japan. This system will succeed technically. 118 refs., 98 figs., 35 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}
title = {Promotion of industrial technologies on the global environment. Feasibility study on CO{sub 2} global recycling system using natural energy; Chikyu kankyo sangyo gijutsu suishin jigyo. Shizen energy ni yoru CO{sub 2} global recycle system no kanosei chosa}
author = {None}
abstractNote = {Proposed is a global recycling system which controls CO{sub 2} and also transports natural energy existing in a remote place. In terms of resource volume, the sun is the most feasible for a direct use as a non-fossil energy source which aims at a complete substitution of fossil fuels, especially as a renewable natural energy source. The desert is a place suitable for utilization of the sun because it is an unused land and is rich in solar energy. For transportation of solar energy, it is effective to convert hydrogen to hydride for transport by tanker, in view of storage, initial capacity investment, maintenance and safety. For this, methanol is the most suitable as an energy carrier in terms of its hydrogen content and energy volume. Hydrogen is produced by electrolysis of water using electric power obtained from solar energy. Moreover, this system produces methanol by reducing CO{sub 2} sent from Japan with this hydrogen and transports it by tanker for the use in Japan. This system will succeed technically. 118 refs., 98 figs., 35 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}