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Potential of nuclear energy for steelmaking

Journal Article · · Ind. Heat., v. 61, no. 11, pp. 30-32, 34-36
OSTI ID:4074952
The prospects of applying nuclear heat to steelmaking processes are reviewed. The high-temp. gas-cooled reactor can heat He gas to 1400$sup 0$F which can then be used for endothermic chemical processes. Steam reforming of a light hydrocarbon, such as natural gas, naptha or liquefied coal, will provide a reducing gas, composed of CO and H. This gas could be used to reduce iron oxide which in turn could be melted in an electric furnace powered by the energy of the reactor. A second system utilizes H which could be obtained by either the electrolysis of water or chemical conversion of water. The H could be heated to approximately 1200$sup 0$F (649$sup 0$C) in the reactor for the direct reduction of Fe ore. The third system involves the use of nuclear energy to generate electricity and steam for the coke-oven-blast-furnace-B. O. F. plant. The activities in Europe and Japan, as well as various studies and research programmes, are reviewed. (Metals Abstr.)
Research Organization:
Originating Research Org. not identified
NSA Number:
NSA-33-027953
OSTI ID:
4074952
Journal Information:
Ind. Heat., v. 61, no. 11, pp. 30-32, 34-36, Journal Name: Ind. Heat., v. 61, no. 11, pp. 30-32, 34-36; ISSN INHTA
Country of Publication:
United States
Language:
English

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Related Subjects

*PROCESS HEAT REACTORS-- SMELTING
210900* --Nuclear Power Plants--Process Heat Reactors
HTGR TYPE REACTORS
N77000* --Reactor Technology & Regulation
NUCLEAR ENERGY
STEELS
USES