Abstract
This paper makes a feasibility study mainly on subterranean disposal and storage technology of CO{sub 2} recovered from exhaust gas, etc. As for utilization of subterranean caves or spaces, the capacity is too small for long-term storage and disposal. The use of subterranean strata is feasible, but detailed study is needed on site selection, environmental effects and CO{sub 2} behaviors in the subterranean stratum. Regarding the use of subterranean water, a considerable amount of CO{sub 2} disposal or storage is possible because CO{sub 2} can be dissolved easily in subterranean water, if any feasible site is found. The use of subterranean water in water soluble gas fields, especially, is significant in consideration of the ground subsidence problem. Concerning geothermal power stations, CO{sub 2} utilization to protect scaling is feasible, but a large amount of CO{sub 2} disposal is not expected. Oil and gas fields are already utilized as a miscible flooding in enhanced oil recovery, but the problem is that in Japan there are few feasible sites and the disposal capacity is limited. Further studies should be made on subterranean behaviors of CO{sub 2}, evaluation of applicability to Japan and abroad and demonstration tests. 60 refs., 35 figs., 31 tabs.
Citation Formats
None.
Survey on subterranean disposal and storage technology of CO{sub 2}; Chichu wo riyoshita tansan gas no shori hoho ni kansuru chosa.
Japan: N. p.,
1991.
Web.
None.
Survey on subterranean disposal and storage technology of CO{sub 2}; Chichu wo riyoshita tansan gas no shori hoho ni kansuru chosa.
Japan.
None.
1991.
"Survey on subterranean disposal and storage technology of CO{sub 2}; Chichu wo riyoshita tansan gas no shori hoho ni kansuru chosa."
Japan.
@misc{etde_10120480,
title = {Survey on subterranean disposal and storage technology of CO{sub 2}; Chichu wo riyoshita tansan gas no shori hoho ni kansuru chosa}
author = {None}
abstractNote = {This paper makes a feasibility study mainly on subterranean disposal and storage technology of CO{sub 2} recovered from exhaust gas, etc. As for utilization of subterranean caves or spaces, the capacity is too small for long-term storage and disposal. The use of subterranean strata is feasible, but detailed study is needed on site selection, environmental effects and CO{sub 2} behaviors in the subterranean stratum. Regarding the use of subterranean water, a considerable amount of CO{sub 2} disposal or storage is possible because CO{sub 2} can be dissolved easily in subterranean water, if any feasible site is found. The use of subterranean water in water soluble gas fields, especially, is significant in consideration of the ground subsidence problem. Concerning geothermal power stations, CO{sub 2} utilization to protect scaling is feasible, but a large amount of CO{sub 2} disposal is not expected. Oil and gas fields are already utilized as a miscible flooding in enhanced oil recovery, but the problem is that in Japan there are few feasible sites and the disposal capacity is limited. Further studies should be made on subterranean behaviors of CO{sub 2}, evaluation of applicability to Japan and abroad and demonstration tests. 60 refs., 35 figs., 31 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}
title = {Survey on subterranean disposal and storage technology of CO{sub 2}; Chichu wo riyoshita tansan gas no shori hoho ni kansuru chosa}
author = {None}
abstractNote = {This paper makes a feasibility study mainly on subterranean disposal and storage technology of CO{sub 2} recovered from exhaust gas, etc. As for utilization of subterranean caves or spaces, the capacity is too small for long-term storage and disposal. The use of subterranean strata is feasible, but detailed study is needed on site selection, environmental effects and CO{sub 2} behaviors in the subterranean stratum. Regarding the use of subterranean water, a considerable amount of CO{sub 2} disposal or storage is possible because CO{sub 2} can be dissolved easily in subterranean water, if any feasible site is found. The use of subterranean water in water soluble gas fields, especially, is significant in consideration of the ground subsidence problem. Concerning geothermal power stations, CO{sub 2} utilization to protect scaling is feasible, but a large amount of CO{sub 2} disposal is not expected. Oil and gas fields are already utilized as a miscible flooding in enhanced oil recovery, but the problem is that in Japan there are few feasible sites and the disposal capacity is limited. Further studies should be made on subterranean behaviors of CO{sub 2}, evaluation of applicability to Japan and abroad and demonstration tests. 60 refs., 35 figs., 31 tabs.}
place = {Japan}
year = {1991}
month = {Mar}
}