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An International Journal |
ISSN for PRINT: 1093-3611
Institutional price: |
$604.00 |
Issues per year: |
4 |
2007, Volume11
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164 pages |
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Issue price - $168.00
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QUASI-ONE-DIMENSIONAL APPROACH TO THE FALLING FILM REACTOR FOR THE PLASMA-BASED SMELTING- REDUCTION OF THE IRON ORE
P.P.
Ivanov
Science and Engineering Center for Energy-Efficient Processes and Equipment of Joint Institute for High Temperatures of Russian Academy of Sciences Izhorskaya 13/19, Moscow, 127412, Russia
E. Kh.
Isakaev
Science and Engineering Center for Energy-Efficient Processes and Equipment of Joint, Institute for High Temperatures of Russian Academy of Sciences Izhorskaya 13/19, Moscow, 127412, Russia
O. A.
Sinkevich
Science Technological Center of Associated Institute for High Temperature, Russian Academy of Science and Moscow Power Engineering Institute (Technical University), Russia
ABSTRACT
As a first step towards a computer simulation of the fluid dynamics in the falling film plasma reactor, two-temperature swirl flow equations are developed allowing the detailed handling of the working gas using the code for thermodynamic equilibrium in a multi-component system and for the electrical and thermal conductivity in a gas. There is an easy way to incorporate the detailed radiation data into the integration process. It is important because radiation heat loss dominates over the convective one at a substantial length of a plasmatron of the kind under consideration. The matching of the calculated data to the available experimental data is obtained using quite reasonable coefficients in the heat transfer terms.
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Article price - $35.00 |
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