Geometric optimization of parabolic trough solar collector based on the local concentration ratio using the Monte Carlo method

• The main components of parabolic trough collector were studied for different sizes. • Geometric optimization is carried out with the Monte Carlo method. • Increasing rim angle and reducing width aperture increase the optical efficiency. • Increasing rim angle and reducing receiver diameter increas...
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Autor*in:	Hoseinzadeh, Hamed [verfasserIn] Kasaeian, Alibakhsh Behshad Shafii, Mohammad

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2018

Schlagwörter:	Monte Carlo LCR Collector geometry Parabolic trough collector

Umfang:	10

Übergeordnetes Werk:	Enthalten in: Preparation and catalytic properties of the triphenylarsine and triphenylstibine-stabilized tri-heteroleptic NHC - Yang, Jin ELSEVIER, 2019, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:175 ; year:2018 ; day:1 ; month:11 ; pages:278-287 ; extent:10

Links:	Volltext

DOI / URN:	10.1016/j.enconman.2018.09.001

Katalog-ID:	ELV044119062

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author	Hoseinzadeh, Hamed
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topic_title	540 VZ 35.00 bkl Geometric optimization of parabolic trough solar collector based on the local concentration ratio using the Monte Carlo method Monte Carlo Elsevier LCR Elsevier Collector geometry Elsevier Parabolic trough collector Elsevier
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title	Geometric optimization of parabolic trough solar collector based on the local concentration ratio using the Monte Carlo method
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title_full	Geometric optimization of parabolic trough solar collector based on the local concentration ratio using the Monte Carlo method
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title_sort	geometric optimization of parabolic trough solar collector based on the local concentration ratio using the monte carlo method
title_auth	Geometric optimization of parabolic trough solar collector based on the local concentration ratio using the Monte Carlo method
abstract	• The main components of parabolic trough collector were studied for different sizes. • Geometric optimization is carried out with the Monte Carlo method. • Increasing rim angle and reducing width aperture increase the optical efficiency. • Increasing rim angle and reducing receiver diameter increase the collision density.
abstractGer	• The main components of parabolic trough collector were studied for different sizes. • Geometric optimization is carried out with the Monte Carlo method. • Increasing rim angle and reducing width aperture increase the optical efficiency. • Increasing rim angle and reducing receiver diameter increase the collision density.
abstract_unstemmed	• The main components of parabolic trough collector were studied for different sizes. • Geometric optimization is carried out with the Monte Carlo method. • Increasing rim angle and reducing width aperture increase the optical efficiency. • Increasing rim angle and reducing receiver diameter increase the collision density.
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Geometric optimization of parabolic trough solar collector based on the local concentration ratio using the Monte Carlo method

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