JMMCE  Vol.8 No.3 , March 2009
Finite Element Modeling of Heat Transfer in Salt Bath Furnaces
ABSTRACT
Heat flow patterns in two salt bath furnaces were studied in this work using finite element(FE) analysis. The implications of the heat flows on long term stability of furnace performance were evaluated. One design had a purely silica brick back-up after the embedded heating element with asbestos and glass-wool fiber insulation just before the outer steel shell. The other had an additional air-gap insulation formed by cylindrical steel belts with spacers placed after the silica back-up. It was observed that the design with additional air-gap insulation had tremendous insulation effect, necessitating a drastic thinning down of the silica brick thickness and glasswool fiber.

Cite this paper
O. Oluwole, P. Atanda and B. Imasogie, "Finite Element Modeling of Heat Transfer in Salt Bath Furnaces," Journal of Minerals and Materials Characterization and Engineering, Vol. 8 No. 3, 2009, pp. 229-236. doi: 10.4236/jmmce.2009.83020.
References
[1]   [1] Heine, R.W., Coper, C.R. and Rosenthal P.C (1976): “Principles of Engineering alloys”, 2nd ed. Tata Mcgraw – Hill, New Delhi

[2]   [2] John, V. B. (1992): “Introduction to Engineering Materials” 3rd ed. Macmillian press Ltd, London.

[3]   [3] Walton, C.F and Opar, T.J. (1981): “Iron casting handbook covering data on Grey, Malleable and ductile iron, Iron casting Society Inc. New York.

[4]   [4] Smith, W.F., (1993): “Structure and properties of Engineering alloys”, 2nd ed. McGraw- Hill, New York

[5]   [5] Ductile Iron Society (2006) “Ductile Iron Data for Design Engineers”, http://www.ductile.org/didata/Section3/3part2.htm#Fracture%20Behaviour

 
 
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