1 |
A. P. Watikinson and J. K. Bhmacombe : 'Limestone calcinations in a rotary kiln', Met. Trans. B, 13B, 369-378 (1982)
|
2 |
A. Mantius, E. Kurcyusz and W. Kawecld : 'Mathematical model of the aluminum oxide rotary kiln', I & EC Process Design and Development, 13(2), 132-142 (1974)
DOI
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|
3 |
J. B. Riffaud, B. Koehret and B. Coupal : 'Modelling and simulation of an alumina kiln', British Chem. Eng. & Process Technology, 17(5), 413-418 (1972)
|
4 |
M. S. Lee : 'A mathematical model of rotary kiln for the calcination of limestone', J. of the Korean Institute of Metals and Materials, 35(12), 1724-1733 (1997)
|
5 |
L. Formanek, H. Eichberger and H. Serbent : 'Energy utilization in direct reduction using rotary kilns', Metallurgical Plant and Technology, 2, 9-16 (1988)
|
6 |
V. Venkateswaran and J. K. Brimacombe ' 'Mathematical model of the SL/RN direct reduction process', Met. Trans. B, 8B, 387-398 (1977)
|
7 |
A. Sass : 'Simulation of the heat-transfer phenomena in a rotary kiln', I & EC Process Design and Development, 6(4), 532-535 (1967)
DOI
|
8 |
P. K. Mukhopadhyay, A. V. Sathe and A. Chatterjee : 'A mathematical model of direct reduction of iron oxides in rotary kilns using the TDR process', Trans. of the Indian Institute of Metals, 37(6), 721-729 (1984)
|
9 |
V. Ramakhshnan and P. S. T. Sai : 'Matheinatical modeling of pneumatic char injection in a direct reduction rotarykiln', Met. and Materials Trans. B, 30B, 969-977 (1999)
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