A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications

I. Hischier; A. Steinfeld; P. Poživil

Source: Journal of Solar Energy Engineering:;2012:;volume( 134 ):;issue: 001::page 11004

Author:

I. Hischier

A. Steinfeld

P. Poživil

DOI: 10.1115/1.4005107

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A high-temperature pressurized air-based receiver is considered as a module for power generation via solar-driven gas turbines. A set of silicon carbide cavity-receivers attached to a compound parabolic concentrator (CPC) are tested on a solar tower at stagnation conditions for 35 kW solar radiative power input under mean solar concentration ratios of 2000 suns and nominal temperatures up to 1600 K. A heat transfer model coupling radiation, conduction, and convection is formulated by Monte Carlo ray-tracing, finite volume, and finite element techniques, and validated in terms of experimentally measured temperatures. The model is applied to elucidate the effect of material properties, geometry, and reflective coatings on the cavity’s thermal and structural performances.

keyword(s): Temperature , Materials properties , Solar energy , Cavities , High temperature , Coatings , Ceramics , Radiation (Physics) , Temperature distribution , Heat transfer AND Convection ,

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A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications

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contributor author	I. Hischier
contributor author	A. Steinfeld
contributor author	P. Poživil
date accessioned	2017-05-09T00:54:24Z
date available	2017-05-09T00:54:24Z
date copyright	February, 2012
date issued	2012
identifier issn	0199-6231
identifier other	JSEEDO-28453#011004_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/150238
description abstract	A high-temperature pressurized air-based receiver is considered as a module for power generation via solar-driven gas turbines. A set of silicon carbide cavity-receivers attached to a compound parabolic concentrator (CPC) are tested on a solar tower at stagnation conditions for 35 kW solar radiative power input under mean solar concentration ratios of 2000 suns and nominal temperatures up to 1600 K. A heat transfer model coupling radiation, conduction, and convection is formulated by Monte Carlo ray-tracing, finite volume, and finite element techniques, and validated in terms of experimentally measured temperatures. The model is applied to elucidate the effect of material properties, geometry, and reflective coatings on the cavity’s thermal and structural performances.
publisher	The American Society of Mechanical Engineers (ASME)
title	A Modular Ceramic Cavity-Receiver for High-Temperature High-Concentration Solar Applications
type	Journal Paper
journal volume	134
journal issue	1
journal title	Journal of Solar Energy Engineering
identifier doi	10.1115/1.4005107
journal fristpage	11004
identifier eissn	1528-8986
keywords	Temperature
keywords	Materials properties
keywords	Solar energy
keywords	Cavities
keywords	High temperature
keywords	Coatings
keywords	Ceramics
keywords	Radiation (Physics)
keywords	Temperature distribution
keywords	Heat transfer AND Convection
tree	Journal of Solar Energy Engineering:;2012:;volume( 134 ):;issue: 001
contenttype	Fulltext

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