Abstract
The present paper suggests chief measures to suppress and reduce global greenhouse gases. Under the control of artificial environments such as bioreactor, hydroponics and vegetable factory, a very high fixing rate of CO2 can be obtained, but CO2 generation accompanying electric power consumption is also large. It is preferable to use methane as resource by reforming reactions or selective oxidative reaction. In the recovery technique of fluorocarbon, 100% recovery is desirable. Techniques for decomposing recovered fluorocarbon and converting it to harmless material are the most backward ones. Understanding of essential structural relationship of coal is necessary for establishing combustion technique for the reduction of N2O. The integrated power generation system composed from solid electrolyte type fuel cell and coal-gasifying process, high-performance, superheat pump system form scientific technology imposing no burden on the global environment. Establishment of purification technique for industrial- or living-related drain inflowing to a closed water area system, establishment and reinforcement of inspection system for oil spill in the oceans in a global scale are required. 240 refs., 63 figs., 30 tabs.
Citation Formats
None.
Survey on chemical engineering technologies for the global environmental protection; Chikyu kankyo hozen no tame no kagaku kogakuteki taisaku gijutsu ni kansuru chosa.
Japan: N. p.,
1993.
Web.
None.
Survey on chemical engineering technologies for the global environmental protection; Chikyu kankyo hozen no tame no kagaku kogakuteki taisaku gijutsu ni kansuru chosa.
Japan.
None.
1993.
"Survey on chemical engineering technologies for the global environmental protection; Chikyu kankyo hozen no tame no kagaku kogakuteki taisaku gijutsu ni kansuru chosa."
Japan.
@misc{etde_10193950,
title = {Survey on chemical engineering technologies for the global environmental protection; Chikyu kankyo hozen no tame no kagaku kogakuteki taisaku gijutsu ni kansuru chosa}
author = {None}
abstractNote = {The present paper suggests chief measures to suppress and reduce global greenhouse gases. Under the control of artificial environments such as bioreactor, hydroponics and vegetable factory, a very high fixing rate of CO2 can be obtained, but CO2 generation accompanying electric power consumption is also large. It is preferable to use methane as resource by reforming reactions or selective oxidative reaction. In the recovery technique of fluorocarbon, 100% recovery is desirable. Techniques for decomposing recovered fluorocarbon and converting it to harmless material are the most backward ones. Understanding of essential structural relationship of coal is necessary for establishing combustion technique for the reduction of N2O. The integrated power generation system composed from solid electrolyte type fuel cell and coal-gasifying process, high-performance, superheat pump system form scientific technology imposing no burden on the global environment. Establishment of purification technique for industrial- or living-related drain inflowing to a closed water area system, establishment and reinforcement of inspection system for oil spill in the oceans in a global scale are required. 240 refs., 63 figs., 30 tabs.}
place = {Japan}
year = {1993}
month = {Mar}
}
title = {Survey on chemical engineering technologies for the global environmental protection; Chikyu kankyo hozen no tame no kagaku kogakuteki taisaku gijutsu ni kansuru chosa}
author = {None}
abstractNote = {The present paper suggests chief measures to suppress and reduce global greenhouse gases. Under the control of artificial environments such as bioreactor, hydroponics and vegetable factory, a very high fixing rate of CO2 can be obtained, but CO2 generation accompanying electric power consumption is also large. It is preferable to use methane as resource by reforming reactions or selective oxidative reaction. In the recovery technique of fluorocarbon, 100% recovery is desirable. Techniques for decomposing recovered fluorocarbon and converting it to harmless material are the most backward ones. Understanding of essential structural relationship of coal is necessary for establishing combustion technique for the reduction of N2O. The integrated power generation system composed from solid electrolyte type fuel cell and coal-gasifying process, high-performance, superheat pump system form scientific technology imposing no burden on the global environment. Establishment of purification technique for industrial- or living-related drain inflowing to a closed water area system, establishment and reinforcement of inspection system for oil spill in the oceans in a global scale are required. 240 refs., 63 figs., 30 tabs.}
place = {Japan}
year = {1993}
month = {Mar}
}