Abstract
Processes that contain latent environmental problems are the massive generation of wastes (inorganic salt, acid catalyst, base catalyst, and huge quantities of wastewater), handling of dangerous substances (use of hydrogen fluoride, use of phosgene, and use of substances whose discharge is legally controlled), processes which consume much energy (circulation of quantities of raw materials, use of quantities of solvents, separation of products with difficulties, use of high pressure, and multiple stage reaction), and processes which are expected to use resources now remaining unexploited. As an element technology for the solution of problems, there is the development of a solid redox catalyst for liquid phase oxidation. As compared with a liquid phase homogeneous catalyst, it discharges less inorganic wastes, facilitates the separation, recovery, and treatment of inorganic salts, corrodes structural materials less, and is thermally stable. An alkane partial oxidation catalyst when developed will achieve more energy conservation than an alkene oxidation catalyst. In relation to acid/base reaction, the zeolite catalyst will be improved and ultrastrong acids and ultrastrong bases will be developed, and these will reduce wastes, mitigate corrosion, and facilitate product separation. The development of a process is also expected which will avoid the use of toxic phosgene. (NEDO)
Citation Formats
None.
Fiscal 1994 survey report. Survey of environmentally friendly chemical process (Ecochemistry); 1994 nendo kankyo ni yasashii kagaku hanno process (ecochemistry) ni kansuru chosa hokokusho.
Japan: N. p.,
1995.
Web.
None.
Fiscal 1994 survey report. Survey of environmentally friendly chemical process (Ecochemistry); 1994 nendo kankyo ni yasashii kagaku hanno process (ecochemistry) ni kansuru chosa hokokusho.
Japan.
None.
1995.
"Fiscal 1994 survey report. Survey of environmentally friendly chemical process (Ecochemistry); 1994 nendo kankyo ni yasashii kagaku hanno process (ecochemistry) ni kansuru chosa hokokusho."
Japan.
@misc{etde_20155400,
title = {Fiscal 1994 survey report. Survey of environmentally friendly chemical process (Ecochemistry); 1994 nendo kankyo ni yasashii kagaku hanno process (ecochemistry) ni kansuru chosa hokokusho}
author = {None}
abstractNote = {Processes that contain latent environmental problems are the massive generation of wastes (inorganic salt, acid catalyst, base catalyst, and huge quantities of wastewater), handling of dangerous substances (use of hydrogen fluoride, use of phosgene, and use of substances whose discharge is legally controlled), processes which consume much energy (circulation of quantities of raw materials, use of quantities of solvents, separation of products with difficulties, use of high pressure, and multiple stage reaction), and processes which are expected to use resources now remaining unexploited. As an element technology for the solution of problems, there is the development of a solid redox catalyst for liquid phase oxidation. As compared with a liquid phase homogeneous catalyst, it discharges less inorganic wastes, facilitates the separation, recovery, and treatment of inorganic salts, corrodes structural materials less, and is thermally stable. An alkane partial oxidation catalyst when developed will achieve more energy conservation than an alkene oxidation catalyst. In relation to acid/base reaction, the zeolite catalyst will be improved and ultrastrong acids and ultrastrong bases will be developed, and these will reduce wastes, mitigate corrosion, and facilitate product separation. The development of a process is also expected which will avoid the use of toxic phosgene. (NEDO)}
place = {Japan}
year = {1995}
month = {Mar}
}
title = {Fiscal 1994 survey report. Survey of environmentally friendly chemical process (Ecochemistry); 1994 nendo kankyo ni yasashii kagaku hanno process (ecochemistry) ni kansuru chosa hokokusho}
author = {None}
abstractNote = {Processes that contain latent environmental problems are the massive generation of wastes (inorganic salt, acid catalyst, base catalyst, and huge quantities of wastewater), handling of dangerous substances (use of hydrogen fluoride, use of phosgene, and use of substances whose discharge is legally controlled), processes which consume much energy (circulation of quantities of raw materials, use of quantities of solvents, separation of products with difficulties, use of high pressure, and multiple stage reaction), and processes which are expected to use resources now remaining unexploited. As an element technology for the solution of problems, there is the development of a solid redox catalyst for liquid phase oxidation. As compared with a liquid phase homogeneous catalyst, it discharges less inorganic wastes, facilitates the separation, recovery, and treatment of inorganic salts, corrodes structural materials less, and is thermally stable. An alkane partial oxidation catalyst when developed will achieve more energy conservation than an alkene oxidation catalyst. In relation to acid/base reaction, the zeolite catalyst will be improved and ultrastrong acids and ultrastrong bases will be developed, and these will reduce wastes, mitigate corrosion, and facilitate product separation. The development of a process is also expected which will avoid the use of toxic phosgene. (NEDO)}
place = {Japan}
year = {1995}
month = {Mar}
}