Abstract
This study aims to develop a model which is able to evaluate a scenario for the future development of CO{sub 2} fixation/ effective utilization technology from the aspect of its effects on Japan{prime}s energy supply and demand structure and on reduction of CO{sub 2} emission. The whole scenario is framed, and related data are collected. In the electric power generation sector, high-temperature gas turbines and combined cycles which improve efficiency of thermal power generation are introduced, and the amount of electric power generation per fuel is forecast to augment. As new energy technologies, introduced are photovoltaic power generation, laege-scale wind power generation, etc. Supply of synthesized fuel using coal and natural gas as raw materials is considered. In large-energy-consumption industries such as iron steel, chemistry, paper pulp and ceramics, introduction of energy-saving technology and improvement of equipment are made, and on-site fuel cells, which are new energy, and photovoltaic power generation are introduced. In consumer-use and transportation sectors, use of new energy except fossil fuels is expected to increase. 25 figs., 40 tabs.
Citation Formats
None.
Study of a scenario for introducing CO{sub 2} fixation technology in the energy sector; Energy bumon ni okeru tansan gas koteika gijutsu donyu scenario chosa.
Japan: N. p.,
1991.
Web.
None.
Study of a scenario for introducing CO{sub 2} fixation technology in the energy sector; Energy bumon ni okeru tansan gas koteika gijutsu donyu scenario chosa.
Japan.
None.
1991.
"Study of a scenario for introducing CO{sub 2} fixation technology in the energy sector; Energy bumon ni okeru tansan gas koteika gijutsu donyu scenario chosa."
Japan.
@misc{etde_10126862,
title = {Study of a scenario for introducing CO{sub 2} fixation technology in the energy sector; Energy bumon ni okeru tansan gas koteika gijutsu donyu scenario chosa}
author = {None}
abstractNote = {This study aims to develop a model which is able to evaluate a scenario for the future development of CO{sub 2} fixation/ effective utilization technology from the aspect of its effects on Japan{prime}s energy supply and demand structure and on reduction of CO{sub 2} emission. The whole scenario is framed, and related data are collected. In the electric power generation sector, high-temperature gas turbines and combined cycles which improve efficiency of thermal power generation are introduced, and the amount of electric power generation per fuel is forecast to augment. As new energy technologies, introduced are photovoltaic power generation, laege-scale wind power generation, etc. Supply of synthesized fuel using coal and natural gas as raw materials is considered. In large-energy-consumption industries such as iron steel, chemistry, paper pulp and ceramics, introduction of energy-saving technology and improvement of equipment are made, and on-site fuel cells, which are new energy, and photovoltaic power generation are introduced. In consumer-use and transportation sectors, use of new energy except fossil fuels is expected to increase. 25 figs., 40 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}
title = {Study of a scenario for introducing CO{sub 2} fixation technology in the energy sector; Energy bumon ni okeru tansan gas koteika gijutsu donyu scenario chosa}
author = {None}
abstractNote = {This study aims to develop a model which is able to evaluate a scenario for the future development of CO{sub 2} fixation/ effective utilization technology from the aspect of its effects on Japan{prime}s energy supply and demand structure and on reduction of CO{sub 2} emission. The whole scenario is framed, and related data are collected. In the electric power generation sector, high-temperature gas turbines and combined cycles which improve efficiency of thermal power generation are introduced, and the amount of electric power generation per fuel is forecast to augment. As new energy technologies, introduced are photovoltaic power generation, laege-scale wind power generation, etc. Supply of synthesized fuel using coal and natural gas as raw materials is considered. In large-energy-consumption industries such as iron steel, chemistry, paper pulp and ceramics, introduction of energy-saving technology and improvement of equipment are made, and on-site fuel cells, which are new energy, and photovoltaic power generation are introduced. In consumer-use and transportation sectors, use of new energy except fossil fuels is expected to increase. 25 figs., 40 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}