COMBINED FORCED CONVECTION AND RADIATION HEAT TRANSFER IN ASYMMETRICALLY HEATED PARALLEL PLATE CHANNELS

ST LIU ST, Richard Thorsen

Research output: Chapter in Book/Report/Conference proceedingChapter

Abstract

A general formulation is presented for treating combined forced convection, gas and/or surface radiation effects in laminar or turbulent flow in parallel plate channels of finite length. Arbitrarily prescribed wall heat generation, which can be different in the two surfaces, is treated. Without prescribing the convection heat transfer coefficient a priori the formulation results in coupled integro-differential equations for the temperature distributions of the two surfaces. The gas temperaturefield and local Nusselt numbers are determined in terms of these surface temperature distributions. Numerical results are obtained for a transparent gas over a range of surface emissivity and wall heat generation for laminar flow.

Original languageEnglish (US)
Title of host publicationUnknown Host Publication Title
Pages32-44
Number of pages13
StatePublished - 1970
EventProc of the 1970 heat transfer and fluid mech inst, 22nd Meet, Monterey -
Duration: Jun 10 1970Jun 12 1970

Other

OtherProc of the 1970 heat transfer and fluid mech inst, 22nd Meet, Monterey
Period6/10/706/12/70

Fingerprint

Forced convection
Heat radiation
Heat generation
Laminar flow
Temperature distribution
Gases
Integrodifferential equations
Radiation effects
Nusselt number
Heat transfer coefficients
Turbulent flow

ASJC Scopus subject areas

  • Engineering(all)

Cite this

COMBINED FORCED CONVECTION AND RADIATION HEAT TRANSFER IN ASYMMETRICALLY HEATED PARALLEL PLATE CHANNELS. / LIU ST, ST; Thorsen, Richard.

Unknown Host Publication Title. 1970. p. 32-44.

Research output: Chapter in Book/Report/Conference proceedingChapter

LIU ST, ST & Thorsen, R 1970, COMBINED FORCED CONVECTION AND RADIATION HEAT TRANSFER IN ASYMMETRICALLY HEATED PARALLEL PLATE CHANNELS. in Unknown Host Publication Title. pp. 32-44, Proc of the 1970 heat transfer and fluid mech inst, 22nd Meet, Monterey, 6/10/70.
@inbook{a324c77f25384505862f7d37fcbba23a,
title = "COMBINED FORCED CONVECTION AND RADIATION HEAT TRANSFER IN ASYMMETRICALLY HEATED PARALLEL PLATE CHANNELS",
abstract = "A general formulation is presented for treating combined forced convection, gas and/or surface radiation effects in laminar or turbulent flow in parallel plate channels of finite length. Arbitrarily prescribed wall heat generation, which can be different in the two surfaces, is treated. Without prescribing the convection heat transfer coefficient a priori the formulation results in coupled integro-differential equations for the temperature distributions of the two surfaces. The gas temperaturefield and local Nusselt numbers are determined in terms of these surface temperature distributions. Numerical results are obtained for a transparent gas over a range of surface emissivity and wall heat generation for laminar flow.",
author = "{LIU ST}, ST and Richard Thorsen",
year = "1970",
language = "English (US)",
pages = "32--44",
booktitle = "Unknown Host Publication Title",

}

TY - CHAP

T1 - COMBINED FORCED CONVECTION AND RADIATION HEAT TRANSFER IN ASYMMETRICALLY HEATED PARALLEL PLATE CHANNELS

AU - LIU ST, ST

AU - Thorsen, Richard

PY - 1970

Y1 - 1970

N2 - A general formulation is presented for treating combined forced convection, gas and/or surface radiation effects in laminar or turbulent flow in parallel plate channels of finite length. Arbitrarily prescribed wall heat generation, which can be different in the two surfaces, is treated. Without prescribing the convection heat transfer coefficient a priori the formulation results in coupled integro-differential equations for the temperature distributions of the two surfaces. The gas temperaturefield and local Nusselt numbers are determined in terms of these surface temperature distributions. Numerical results are obtained for a transparent gas over a range of surface emissivity and wall heat generation for laminar flow.

AB - A general formulation is presented for treating combined forced convection, gas and/or surface radiation effects in laminar or turbulent flow in parallel plate channels of finite length. Arbitrarily prescribed wall heat generation, which can be different in the two surfaces, is treated. Without prescribing the convection heat transfer coefficient a priori the formulation results in coupled integro-differential equations for the temperature distributions of the two surfaces. The gas temperaturefield and local Nusselt numbers are determined in terms of these surface temperature distributions. Numerical results are obtained for a transparent gas over a range of surface emissivity and wall heat generation for laminar flow.

UR - http://www.scopus.com/inward/record.url?scp=0014929141&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=0014929141&partnerID=8YFLogxK

M3 - Chapter

AN - SCOPUS:0014929141

SP - 32

EP - 44

BT - Unknown Host Publication Title

ER -