FINITE-ELEMENT ANALYSIS OF CONJUGATE HEAT TRANSFER IN AXISYMMETRIC PIPE FLOWS Academic Article

abstract

• A Galerkin-type finite-element approach was used to study the effect of two-dimensional wall conduction on laminar convective heat transfer inside pipe flows. This conjugate heat transfer problem was studied for cases in which the external surface of the pipe is subjected to constant wall heat flux and constant wall temperature conditions. The wall conduction effects were found to be more significant for low Peclet number flows than their high Peclet number counterparts. The extent of preheating extends as far as 22 radii and 7 radii for constant wall heat flux and constant wall temperature conditions, respectively. 1988 Taylor 8 Francis Group, LLC.

authors

• Anand, N. K.

published proceedings

• Numerical Heat Transfer

author list (cited authors)

• Fithen, R. M., & Anand, N. K.

citation count

• 13

complete list of authors

• Fithen, RM||Anand, NK

publication date

• January 1988

publisher

• Taylor & Francis  Publisher

published in

• Numerical Heat Transfer  Journal

Digital Object Identifier (DOI)

• 10.1080/10407788808913611

start page

• 189

end page

• 203

volume

• 13

issue

• 2

URL

• http://dx.doi.org/10.1080/10407788808913611