Optimum Thermal Design of Radiative-Conductive Systems

R. W. Palmquist; W. A. Beckman

Source: Journal of Manufacturing Science and Engineering:;1972:;volume( 094 ):;issue: 002::page 373

Author:

R. W. Palmquist

W. A. Beckman

DOI: 10.1115/1.3428165

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: In applying nonlinear programming to optimization of temperatures in a system with radiation and conduction heat transfer, design requirements on the temperatures are translated into mathematical functions in which the design variables are the radiation surface properties, infrared emmittance and solar absorptance. Physical limitations in the surface properties and design objectives form the constraints of the nonlinear programming problem. A mathematical model of a radiative-conductive system employs a nodal analysis. Radiative heat transfer is treated under the semi-gray assumption and a total exchange factor allows surfaces to be specular-diffuse reflectors. Two types of design problems formulated consider (a) the case in which components of a system must operate within certain temperature limits and (b) a system in which uncertainty in the parameters produces uncertainty in the temperatures.

keyword(s): Design , Temperature , Radiation (Physics) , Surface properties , Nonlinear programming , Uncertainty , Functions , Optimization , Solar energy , Heat conduction , Optical mirrors , Heat transfer AND Radiative heat transfer ,

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Optimum Thermal Design of Radiative-Conductive Systems

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contributor author	R. W. Palmquist
contributor author	W. A. Beckman
date accessioned	2017-05-09T01:35:11Z
date available	2017-05-09T01:35:11Z
date copyright	May, 1972
date issued	1972
identifier issn	1087-1357
identifier other	JMSEFK-27572#373_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/163119
description abstract	In applying nonlinear programming to optimization of temperatures in a system with radiation and conduction heat transfer, design requirements on the temperatures are translated into mathematical functions in which the design variables are the radiation surface properties, infrared emmittance and solar absorptance. Physical limitations in the surface properties and design objectives form the constraints of the nonlinear programming problem. A mathematical model of a radiative-conductive system employs a nodal analysis. Radiative heat transfer is treated under the semi-gray assumption and a total exchange factor allows surfaces to be specular-diffuse reflectors. Two types of design problems formulated consider (a) the case in which components of a system must operate within certain temperature limits and (b) a system in which uncertainty in the parameters produces uncertainty in the temperatures.
publisher	The American Society of Mechanical Engineers (ASME)
title	Optimum Thermal Design of Radiative-Conductive Systems
type	Journal Paper
journal volume	94
journal issue	2
journal title	Journal of Manufacturing Science and Engineering
identifier doi	10.1115/1.3428165
journal fristpage	373
journal lastpage	380
identifier eissn	1528-8935
keywords	Design
keywords	Temperature
keywords	Radiation (Physics)
keywords	Surface properties
keywords	Nonlinear programming
keywords	Uncertainty
keywords	Functions
keywords	Optimization
keywords	Solar energy
keywords	Heat conduction
keywords	Optical mirrors
keywords	Heat transfer AND Radiative heat transfer
tree	Journal of Manufacturing Science and Engineering:;1972:;volume( 094 ):;issue: 002
contenttype	Fulltext

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