Abstract
The paper studies a global CO2 recycling system which combines utilization of natural energy and CO2 recovered from combustion of fossil fuel. In the model, CO2 recovered at the place of energy demand is transported to the place where energy is produced, and from the CO2 fuels are synthesized by use of solar energy and transported to the place of energy demand. Facilities worth a large amount of money are required to transmit electric power generated by the photovoltaic power generation in the desert to the fuel synthesizing plant. Therefore, production of electrolytic hydrogen by the on-site power generation and transport by pipe may be considered. As a synthetic fuel being sent back by ocean transport, methanol is considered, and synthetic methane (LNG) can also be a candidate. CO2 is recovered as liquid carbon dioxide. Possibility of CO2 recycling is dependent on development of the desert solar base, as well as depletion of fossil fuel and price increase, CO2 penalty. It has still been difficult to say which of the fuel synthesis, CO2 tanker or securing of the solar base becomes a bottleneck. Entry of recycling fuels to the market will be possible in proportion to restrictions on fossil fuels,
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Citation Formats
None.
Trend survey of the global environment adaptation type industry technology. Feasibility study on CO2 global recycling system by using natural energy; Chikyu kankyo tekiogata sangyo gijutsu doko chosa. Shizen energy ni yoru CO2 global recycle system no kanosei-chosa.
Japan: N. p.,
1992.
Web.
None.
Trend survey of the global environment adaptation type industry technology. Feasibility study on CO2 global recycling system by using natural energy; Chikyu kankyo tekiogata sangyo gijutsu doko chosa. Shizen energy ni yoru CO2 global recycle system no kanosei-chosa.
Japan.
None.
1992.
"Trend survey of the global environment adaptation type industry technology. Feasibility study on CO2 global recycling system by using natural energy; Chikyu kankyo tekiogata sangyo gijutsu doko chosa. Shizen energy ni yoru CO2 global recycle system no kanosei-chosa."
Japan.
@misc{etde_10141788,
title = {Trend survey of the global environment adaptation type industry technology. Feasibility study on CO2 global recycling system by using natural energy; Chikyu kankyo tekiogata sangyo gijutsu doko chosa. Shizen energy ni yoru CO2 global recycle system no kanosei-chosa}
author = {None}
abstractNote = {The paper studies a global CO2 recycling system which combines utilization of natural energy and CO2 recovered from combustion of fossil fuel. In the model, CO2 recovered at the place of energy demand is transported to the place where energy is produced, and from the CO2 fuels are synthesized by use of solar energy and transported to the place of energy demand. Facilities worth a large amount of money are required to transmit electric power generated by the photovoltaic power generation in the desert to the fuel synthesizing plant. Therefore, production of electrolytic hydrogen by the on-site power generation and transport by pipe may be considered. As a synthetic fuel being sent back by ocean transport, methanol is considered, and synthetic methane (LNG) can also be a candidate. CO2 is recovered as liquid carbon dioxide. Possibility of CO2 recycling is dependent on development of the desert solar base, as well as depletion of fossil fuel and price increase, CO2 penalty. It has still been difficult to say which of the fuel synthesis, CO2 tanker or securing of the solar base becomes a bottleneck. Entry of recycling fuels to the market will be possible in proportion to restrictions on fossil fuels, and evaluation of the system depends almost on the rate of energy arriving from the energy-producing region. 112 refs., 70 figs. 36 tabs.}
place = {Japan}
year = {1992}
month = {Mar}
}
title = {Trend survey of the global environment adaptation type industry technology. Feasibility study on CO2 global recycling system by using natural energy; Chikyu kankyo tekiogata sangyo gijutsu doko chosa. Shizen energy ni yoru CO2 global recycle system no kanosei-chosa}
author = {None}
abstractNote = {The paper studies a global CO2 recycling system which combines utilization of natural energy and CO2 recovered from combustion of fossil fuel. In the model, CO2 recovered at the place of energy demand is transported to the place where energy is produced, and from the CO2 fuels are synthesized by use of solar energy and transported to the place of energy demand. Facilities worth a large amount of money are required to transmit electric power generated by the photovoltaic power generation in the desert to the fuel synthesizing plant. Therefore, production of electrolytic hydrogen by the on-site power generation and transport by pipe may be considered. As a synthetic fuel being sent back by ocean transport, methanol is considered, and synthetic methane (LNG) can also be a candidate. CO2 is recovered as liquid carbon dioxide. Possibility of CO2 recycling is dependent on development of the desert solar base, as well as depletion of fossil fuel and price increase, CO2 penalty. It has still been difficult to say which of the fuel synthesis, CO2 tanker or securing of the solar base becomes a bottleneck. Entry of recycling fuels to the market will be possible in proportion to restrictions on fossil fuels, and evaluation of the system depends almost on the rate of energy arriving from the energy-producing region. 112 refs., 70 figs. 36 tabs.}
place = {Japan}
year = {1992}
month = {Mar}
}