Three-Dimensional Optical and Thermal Numerical Model of Solar Tubular Receivers in Parabolic Trough Concentrators

Men Wirz; Aldo Steinfeld; Matthew Roesle

Source: Journal of Solar Energy Engineering:;2012:;volume( 134 ):;issue: 004::page 41012

Author:

Men Wirz

Aldo Steinfeld

Matthew Roesle

DOI: 10.1115/1.4007494

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Monte Carlo ray tracing, coupled to a finite volume solver, is used to model 3D heat transfer in a parabolic trough solar concentrator system. The nonuniform distribution of the incident solar radiation, the radiative exchange between the various receiver surfaces, and the heat gain/loss around the receiver’s circumference and along the system’s axis are determined for spectral radiative properties of the receiver and concentrator surfaces. The computed heat losses and thermal efficiencies agree well with experimental data. Besides the beneficial information on peak temperatures and heat flux, the 3D model is able to predict glass temperatures more accurately than previous gray models and temperature correlations.

keyword(s): Temperature , Heat transfer , Solar radiation , Glass , Radiation (Physics) , Solar energy , Heat losses , Parabolic troughs , Heat , Borosilicate glasses , Coating processes AND Coatings ,

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Three-Dimensional Optical and Thermal Numerical Model of Solar Tubular Receivers in Parabolic Trough Concentrators

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contributor author	Men Wirz
contributor author	Aldo Steinfeld
contributor author	Matthew Roesle
date accessioned	2017-05-09T00:54:17Z
date available	2017-05-09T00:54:17Z
date copyright	November, 2012
date issued	2012
identifier issn	0199-6231
identifier other	JSEEDO-926222#041012_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/150196
description abstract	Monte Carlo ray tracing, coupled to a finite volume solver, is used to model 3D heat transfer in a parabolic trough solar concentrator system. The nonuniform distribution of the incident solar radiation, the radiative exchange between the various receiver surfaces, and the heat gain/loss around the receiver’s circumference and along the system’s axis are determined for spectral radiative properties of the receiver and concentrator surfaces. The computed heat losses and thermal efficiencies agree well with experimental data. Besides the beneficial information on peak temperatures and heat flux, the 3D model is able to predict glass temperatures more accurately than previous gray models and temperature correlations.
publisher	The American Society of Mechanical Engineers (ASME)
title	Three-Dimensional Optical and Thermal Numerical Model of Solar Tubular Receivers in Parabolic Trough Concentrators
type	Journal Paper
journal volume	134
journal issue	4
journal title	Journal of Solar Energy Engineering
identifier doi	10.1115/1.4007494
journal fristpage	41012
identifier eissn	1528-8986
keywords	Temperature
keywords	Heat transfer
keywords	Solar radiation
keywords	Glass
keywords	Radiation (Physics)
keywords	Solar energy
keywords	Heat losses
keywords	Parabolic troughs
keywords	Heat
keywords	Borosilicate glasses
keywords	Coating processes AND Coatings
tree	Journal of Solar Energy Engineering:;2012:;volume( 134 ):;issue: 004
contenttype	Fulltext

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