Add to ORKGThe following subjects are addressed: (1) the mechanism and kinetics of carbothermal reduction of simulated lunar ilmenite using carbon and, particularly, CO as reducing agents; (2) the determination of the rate-limiting steps; (3) the investigation of the effect of impurities, particularly magnesium; (4) the search for catalysts suitable for enhancement of the rate-limiting step; (5) the comparison of the kinetics of carbothermal reduction with those of hydrogen reduction; (6) the study of the combined use of CO and hydrogen as products of gasification of carbonaceous solids; (7) the development of reduction methods based on the use of waste carbonaceous compounds for the process; (8) the development of a carbothermal reaction path that ut...
The Carbotek/Shimizu process to produce oxygen from lunar soils has been successfully demonstrated o...
The Aerojet carbothermal process for the manufacture of oxygen from lunar materials has three essent...
The aim of the project was to establish the rate and mechanisms of solid stage reduction of titania ...
The overall objective of this project was to develop a novel carbothermal reduction process for prod...
In order to eliminate thermodynamic limitations during H₂ and CO reduction processes, a novel carbot...
The high temperature reduction of ilmenite by various reducing agents is investigated. The experimen...
In the past 20 years, considerable attention been paid to returning to our natural satellite with r...
Energy management opportunities in the process of hydrogen reduction of ilmenite for lunar oxygen pr...
The kinetics and mechanism of the reduction of simulants of the iron-bearing lunar minerals olivine ...
In the past 20 years, considerable attention been paid to returning to our natural satellite with ro...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
The Aerojet Carbothermal Process for the manufacture of oxygen from lunar resources has three essent...
Hydrogen reduction of ilmenite has been studied by a number of investigators as a potential means fo...
The generally accepted method for recovering oxygen on an extraterrestrial body is by thermal reduct...
The Carbotek/Shimizu process to produce oxygen from lunar soils has been successfully demonstrated o...
The Aerojet carbothermal process for the manufacture of oxygen from lunar materials has three essent...
The aim of the project was to establish the rate and mechanisms of solid stage reduction of titania ...
The overall objective of this project was to develop a novel carbothermal reduction process for prod...
In order to eliminate thermodynamic limitations during H₂ and CO reduction processes, a novel carbot...
The high temperature reduction of ilmenite by various reducing agents is investigated. The experimen...
In the past 20 years, considerable attention been paid to returning to our natural satellite with r...
Energy management opportunities in the process of hydrogen reduction of ilmenite for lunar oxygen pr...
The kinetics and mechanism of the reduction of simulants of the iron-bearing lunar minerals olivine ...
In the past 20 years, considerable attention been paid to returning to our natural satellite with ro...
Since March 1, 1989, attention was concentrated on the extraction of ilmenite from extraterrestrial ...
The most abundant element in lunar rocks and soils is oxygen which makes up approximately 45 percent...
The Aerojet Carbothermal Process for the manufacture of oxygen from lunar resources has three essent...
Hydrogen reduction of ilmenite has been studied by a number of investigators as a potential means fo...
The generally accepted method for recovering oxygen on an extraterrestrial body is by thermal reduct...
The Carbotek/Shimizu process to produce oxygen from lunar soils has been successfully demonstrated o...
The Aerojet carbothermal process for the manufacture of oxygen from lunar materials has three essent...
The aim of the project was to establish the rate and mechanisms of solid stage reduction of titania ...