Abstract
Research and development is conducted about the Fe-Cl-based cycle from an engineering viewpoint, and endeavors are focused on four items, which are (1) the development of a process simulator, (2) the comprehension of the characteristics of reaction of Fe-Cl system elements when placed under pressure, (3) the basic plan of a solid/gas reaction unit, and (4) process improvement for the Fe-Cl-based cycle. Under item (1), the initial goals which are the simplification of data origination, the enlargement of the scope of objects of computation including hybrid processes, tempering with separation energy, setting of computation conditions, and alteration made easier to perform, etc., are satisfied as the result of extensive expansion of the system. Under item (2), pressure tests up to 30kg/cm{sup 2}/G are conducted for the hydrolysis of ferrous chloride and high-temperature chlorination of triiron tetroxide, and basic data are acquired for building an apparatus to work under pressure. Under item (3), a basic plan is worked out for a multi-stage fluidized bed test unit of the heat medium particle circulation type. Under item (4), an Fe-Cu-Cl cycle is found in which chlorine generation is replaced by cupric chloride decomposition. A conclusion is reached that the technology is promising in
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None.
Achievement report for fiscal 1975 on Sunshine Program. Research and development of hydrogen production technology using thermochemical process; 1975 nendo netsukagakuho ni yoru suiso seizo gijutsu no kenkyu kaihatsu seika hokokusho.
Japan: N. p.,
1976.
Web.
None.
Achievement report for fiscal 1975 on Sunshine Program. Research and development of hydrogen production technology using thermochemical process; 1975 nendo netsukagakuho ni yoru suiso seizo gijutsu no kenkyu kaihatsu seika hokokusho.
Japan.
None.
1976.
"Achievement report for fiscal 1975 on Sunshine Program. Research and development of hydrogen production technology using thermochemical process; 1975 nendo netsukagakuho ni yoru suiso seizo gijutsu no kenkyu kaihatsu seika hokokusho."
Japan.
@misc{etde_20102458,
title = {Achievement report for fiscal 1975 on Sunshine Program. Research and development of hydrogen production technology using thermochemical process; 1975 nendo netsukagakuho ni yoru suiso seizo gijutsu no kenkyu kaihatsu seika hokokusho}
author = {None}
abstractNote = {Research and development is conducted about the Fe-Cl-based cycle from an engineering viewpoint, and endeavors are focused on four items, which are (1) the development of a process simulator, (2) the comprehension of the characteristics of reaction of Fe-Cl system elements when placed under pressure, (3) the basic plan of a solid/gas reaction unit, and (4) process improvement for the Fe-Cl-based cycle. Under item (1), the initial goals which are the simplification of data origination, the enlargement of the scope of objects of computation including hybrid processes, tempering with separation energy, setting of computation conditions, and alteration made easier to perform, etc., are satisfied as the result of extensive expansion of the system. Under item (2), pressure tests up to 30kg/cm{sup 2}/G are conducted for the hydrolysis of ferrous chloride and high-temperature chlorination of triiron tetroxide, and basic data are acquired for building an apparatus to work under pressure. Under item (3), a basic plan is worked out for a multi-stage fluidized bed test unit of the heat medium particle circulation type. Under item (4), an Fe-Cu-Cl cycle is found in which chlorine generation is replaced by cupric chloride decomposition. A conclusion is reached that the technology is promising in terms of thermal efficiency. (NEDO)}
place = {Japan}
year = {1976}
month = {May}
}
title = {Achievement report for fiscal 1975 on Sunshine Program. Research and development of hydrogen production technology using thermochemical process; 1975 nendo netsukagakuho ni yoru suiso seizo gijutsu no kenkyu kaihatsu seika hokokusho}
author = {None}
abstractNote = {Research and development is conducted about the Fe-Cl-based cycle from an engineering viewpoint, and endeavors are focused on four items, which are (1) the development of a process simulator, (2) the comprehension of the characteristics of reaction of Fe-Cl system elements when placed under pressure, (3) the basic plan of a solid/gas reaction unit, and (4) process improvement for the Fe-Cl-based cycle. Under item (1), the initial goals which are the simplification of data origination, the enlargement of the scope of objects of computation including hybrid processes, tempering with separation energy, setting of computation conditions, and alteration made easier to perform, etc., are satisfied as the result of extensive expansion of the system. Under item (2), pressure tests up to 30kg/cm{sup 2}/G are conducted for the hydrolysis of ferrous chloride and high-temperature chlorination of triiron tetroxide, and basic data are acquired for building an apparatus to work under pressure. Under item (3), a basic plan is worked out for a multi-stage fluidized bed test unit of the heat medium particle circulation type. Under item (4), an Fe-Cu-Cl cycle is found in which chlorine generation is replaced by cupric chloride decomposition. A conclusion is reached that the technology is promising in terms of thermal efficiency. (NEDO)}
place = {Japan}
year = {1976}
month = {May}
}