Abstract
This study is being progressed during a period from 1992 to 1999 as part of the NEDO`s clean coal technology program. This paper describes what has been discussed to date. The absorption method and the adsorption method may be used to recover CO2 as means to deal with the problem of global warming resulted from burning coals. These methods, however, have problems in economy caused from concentration of CO2 in flue gas being low. The present study is intended to raise the CO2 concentration in flue gas by using oxygen plus circulated flue gas in the place of combustion air, so that CO2 may be recovered as it is without being separated from the flue gas. Therefore, an oxygen-blown pulverized coal fired power generation plant having a cryogenic oxygen manufacturing equipment was designed to discuss the plant operability and economy, and the pulverized coal combustion technology by using a dynamic simulation. A large number of findings have been obtained already, and the study has reached a level at which grasping the whole image is now possible. 13 figs.
Kato, M;
[1]
Kiga, T;
Yamada, T;
[2]
Arai, K;
[3]
Mori, T;
[4]
Kimura, N;
Okawa, M
[5]
- Center for Coal Utilization, Japan, Tokyo (Japan)
- Ishikawajima-Harima Heavy Industries Co. Ltd., Tokyo (Japan)
- Nippon Sanso K.K., Tokyo (Japan)
- Inst. of Research and Innovation, Tokyo (Japan)
- Electric Power Development Co. Ltd., Tokyo (Japan)
Citation Formats
Kato, M, Kiga, T, Yamada, T, Arai, K, Mori, T, Kimura, N, and Okawa, M.
Study of the O2/CO2 combustion technology; Sanso nensho gijutsu ni kakawaru chosa kenkyu.
Japan: N. p.,
1996.
Web.
Kato, M, Kiga, T, Yamada, T, Arai, K, Mori, T, Kimura, N, & Okawa, M.
Study of the O2/CO2 combustion technology; Sanso nensho gijutsu ni kakawaru chosa kenkyu.
Japan.
Kato, M, Kiga, T, Yamada, T, Arai, K, Mori, T, Kimura, N, and Okawa, M.
1996.
"Study of the O2/CO2 combustion technology; Sanso nensho gijutsu ni kakawaru chosa kenkyu."
Japan.
@misc{etde_623061,
title = {Study of the O2/CO2 combustion technology; Sanso nensho gijutsu ni kakawaru chosa kenkyu}
author = {Kato, M, Kiga, T, Yamada, T, Arai, K, Mori, T, Kimura, N, and Okawa, M}
abstractNote = {This study is being progressed during a period from 1992 to 1999 as part of the NEDO`s clean coal technology program. This paper describes what has been discussed to date. The absorption method and the adsorption method may be used to recover CO2 as means to deal with the problem of global warming resulted from burning coals. These methods, however, have problems in economy caused from concentration of CO2 in flue gas being low. The present study is intended to raise the CO2 concentration in flue gas by using oxygen plus circulated flue gas in the place of combustion air, so that CO2 may be recovered as it is without being separated from the flue gas. Therefore, an oxygen-blown pulverized coal fired power generation plant having a cryogenic oxygen manufacturing equipment was designed to discuss the plant operability and economy, and the pulverized coal combustion technology by using a dynamic simulation. A large number of findings have been obtained already, and the study has reached a level at which grasping the whole image is now possible. 13 figs.}
place = {Japan}
year = {1996}
month = {Sep}
}
title = {Study of the O2/CO2 combustion technology; Sanso nensho gijutsu ni kakawaru chosa kenkyu}
author = {Kato, M, Kiga, T, Yamada, T, Arai, K, Mori, T, Kimura, N, and Okawa, M}
abstractNote = {This study is being progressed during a period from 1992 to 1999 as part of the NEDO`s clean coal technology program. This paper describes what has been discussed to date. The absorption method and the adsorption method may be used to recover CO2 as means to deal with the problem of global warming resulted from burning coals. These methods, however, have problems in economy caused from concentration of CO2 in flue gas being low. The present study is intended to raise the CO2 concentration in flue gas by using oxygen plus circulated flue gas in the place of combustion air, so that CO2 may be recovered as it is without being separated from the flue gas. Therefore, an oxygen-blown pulverized coal fired power generation plant having a cryogenic oxygen manufacturing equipment was designed to discuss the plant operability and economy, and the pulverized coal combustion technology by using a dynamic simulation. A large number of findings have been obtained already, and the study has reached a level at which grasping the whole image is now possible. 13 figs.}
place = {Japan}
year = {1996}
month = {Sep}
}