Abstract
This paper investigates a chemical method among CO{sub 2} fixation technologies. The chemical fixation of CO{sub 2} is basically reduction. It is well known that useful chemical intermediates such as methanol, ethanol, low-grade hydrocarbon, etc. can be synthesized from CO{sub 2} by catalytic hydrogenation. A large amount of energy is required for chemical separation of oxygen from CO{sub 2}. In the future methanol synthesis from CO{sub 2} instead of CO is also expected to be commercialized. CO{sub 2} reduction to hydrocarbon requires more hydrogen than CO reduction (Ficher-Tropsch method) but development of its new process hereafter will make fixation of a great deal of CO{sub 2} possible. Various studies are made on electrochemical, photochemical and photosynthetical CO{sub 2} reduction to hydrocarbon and on CO{sub 2} reduction to methane by anaerobic bacteria. For chemical fixation and utilization of CO{sub 2}, it is needed not only to develop elemental technologies, but to make a comprehensive consideration of volume, exergy, environment and economy. 327 refs., 75 figs., 68 tabs.
Citation Formats
None.
Survey on fixation and utilization of carbon dioxide by catalytic hydrogenation; CO{sub 2} koteika{center_dot}yuko riyo gijutsu ni kansuru chosa (sesshoku suisoka hanno riyo CO{sub 2} koteika{center_dot}yuko riyo gijutsu).
Japan: N. p.,
1991.
Web.
None.
Survey on fixation and utilization of carbon dioxide by catalytic hydrogenation; CO{sub 2} koteika{center_dot}yuko riyo gijutsu ni kansuru chosa (sesshoku suisoka hanno riyo CO{sub 2} koteika{center_dot}yuko riyo gijutsu).
Japan.
None.
1991.
"Survey on fixation and utilization of carbon dioxide by catalytic hydrogenation; CO{sub 2} koteika{center_dot}yuko riyo gijutsu ni kansuru chosa (sesshoku suisoka hanno riyo CO{sub 2} koteika{center_dot}yuko riyo gijutsu)."
Japan.
@misc{etde_10120512,
title = {Survey on fixation and utilization of carbon dioxide by catalytic hydrogenation; CO{sub 2} koteika{center_dot}yuko riyo gijutsu ni kansuru chosa (sesshoku suisoka hanno riyo CO{sub 2} koteika{center_dot}yuko riyo gijutsu)}
author = {None}
abstractNote = {This paper investigates a chemical method among CO{sub 2} fixation technologies. The chemical fixation of CO{sub 2} is basically reduction. It is well known that useful chemical intermediates such as methanol, ethanol, low-grade hydrocarbon, etc. can be synthesized from CO{sub 2} by catalytic hydrogenation. A large amount of energy is required for chemical separation of oxygen from CO{sub 2}. In the future methanol synthesis from CO{sub 2} instead of CO is also expected to be commercialized. CO{sub 2} reduction to hydrocarbon requires more hydrogen than CO reduction (Ficher-Tropsch method) but development of its new process hereafter will make fixation of a great deal of CO{sub 2} possible. Various studies are made on electrochemical, photochemical and photosynthetical CO{sub 2} reduction to hydrocarbon and on CO{sub 2} reduction to methane by anaerobic bacteria. For chemical fixation and utilization of CO{sub 2}, it is needed not only to develop elemental technologies, but to make a comprehensive consideration of volume, exergy, environment and economy. 327 refs., 75 figs., 68 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}
title = {Survey on fixation and utilization of carbon dioxide by catalytic hydrogenation; CO{sub 2} koteika{center_dot}yuko riyo gijutsu ni kansuru chosa (sesshoku suisoka hanno riyo CO{sub 2} koteika{center_dot}yuko riyo gijutsu)}
author = {None}
abstractNote = {This paper investigates a chemical method among CO{sub 2} fixation technologies. The chemical fixation of CO{sub 2} is basically reduction. It is well known that useful chemical intermediates such as methanol, ethanol, low-grade hydrocarbon, etc. can be synthesized from CO{sub 2} by catalytic hydrogenation. A large amount of energy is required for chemical separation of oxygen from CO{sub 2}. In the future methanol synthesis from CO{sub 2} instead of CO is also expected to be commercialized. CO{sub 2} reduction to hydrocarbon requires more hydrogen than CO reduction (Ficher-Tropsch method) but development of its new process hereafter will make fixation of a great deal of CO{sub 2} possible. Various studies are made on electrochemical, photochemical and photosynthetical CO{sub 2} reduction to hydrocarbon and on CO{sub 2} reduction to methane by anaerobic bacteria. For chemical fixation and utilization of CO{sub 2}, it is needed not only to develop elemental technologies, but to make a comprehensive consideration of volume, exergy, environment and economy. 327 refs., 75 figs., 68 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}