2004
DOI: 10.1016/j.solener.2004.02.007
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Thermal performance of an air solar collector with an absorber plate made of recyclable aluminum cans

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Cited by 69 publications
(24 citation statements)
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“… The absorber of a plate absorption coefficient α = 0.95, the transparent cover transmittance τ = 0. 9 and absorptive of the glass covers, αg = 0.05; 16 Positions of thermocouple's connecter to plates and two thermocouples to outlet and inlet flow;  Five fins under absorber plate form of semi cylindrical longitudinal was 1.84 m (length) × 0.03 m (Radian); the distance between two adjacent fins and fins 120 mm, and 5 mm thickness. Figure 5 shows the temperature of the transparent cover as a function of length along the solar collector.…”
Section: Experimental Setup and Measurement Proceduresmentioning
confidence: 99%
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“… The absorber of a plate absorption coefficient α = 0.95, the transparent cover transmittance τ = 0. 9 and absorptive of the glass covers, αg = 0.05; 16 Positions of thermocouple's connecter to plates and two thermocouples to outlet and inlet flow;  Five fins under absorber plate form of semi cylindrical longitudinal was 1.84 m (length) × 0.03 m (Radian); the distance between two adjacent fins and fins 120 mm, and 5 mm thickness. Figure 5 shows the temperature of the transparent cover as a function of length along the solar collector.…”
Section: Experimental Setup and Measurement Proceduresmentioning
confidence: 99%
“…Alvarez et al [9] developed an efficient single-glass air solar collector with an absorber plate made of recyclable aluminum cans. They compared the thermal efficiency of the collector with the reported ones.…”
Section: Introductionmentioning
confidence: 99%
“…The main disadvantages are, nonetheless, its lower density and lower thermal capacity, as well as its lower heat conductivity [7][8][9]. To overcome this, extensive work is being developed to enhance heat transfer, through different designs of the solar air collector [5,7] and roughness of the absorber in the form of obstacles of different shapes and sizes, like ribs and fins [7,10].…”
Section: Introductionmentioning
confidence: 99%
“…Como consecuencia directa de ello se estimula a nivel gubernamental la exploración de fuentes alternativas de energía y el uso racional de la misma (URE) a partir de la apropiación y el desarrollo de herramientas tecnológicas que, por tanto, constituyen un tópico de marcada pertinencia para los diferentes campos de aplicación de la ingeniería. En este contexto, se destaca el interés por mejorar las características de eficiencia en los sistemas de generación de energía eléctrica sobre todo para casos en los cuales la energía proviene de fuentes alternativas como el viento (Burton & Davies, 1996) o la luz solar (Alvarez & Arce, 2003).…”
Section: Introductionunclassified
“…Las formas de onda a la salida del sistema de microgeneración son entonces el elemento crucial para valorar el desempeño del convertidor de potencia. Por tanto, el comportamiento del circuito puede describirse a partir de su evolución temporal transitoria y estacionaria dando cabida al análisis y el diseño de técnicas de control para manipular la dinámica del sistema de conversión de potencia a partir del control de activación (o disparo) de los dispositivos de conmutación asociados a la topología particular considerada (Alves de Melo & Bento, 2009;Jezernik, 2010;Yang & Wang, 2011;Iannelli, 2005;Sepulchre & Kokotovic, 1996;Scuadroni, 2002;RuizCruz et al, 2012).…”
Section: Introductionunclassified