Optimal Design of Housing Attics With Integrated Solar Collectors

Álvarado, Rodrigo García; Campos, Pedro G.; Wegertseder, Paulina

doi:10.3992/1943-4618.12.4.1

Journal of Green Building

2017

DOI: 10.3992/1943-4618.12.4.1

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Optimal Design of Housing Attics With Integrated Solar Collectors

Rodrigo García Álvarado¹,

Pedro G. Campos²,

Paulina Wegertseder³

Abstract: In order to reduce the increasing energy consumption for the domestic demands of existing single-family housing and take advantage of frequent building enlargements, this paper presents a methodology and supporting software tool for determining the optimal design configuration of an attic with integrated solar collectors. The analysis procedure is based on parametric modeling, energy simulation and the use of evolutionary algorithms for finding optimal designs. It has been implemented as a Web-platform for pub… Show more

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Delta Winglets for Enhancing Solar Energy: Turbulent Strain Rate-Heat Convection Relationship

Yang¹,

Mohanakrishnan²,

Ting³

et al. 2021

Journal of Green Building

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Delta winglets are an effective means for enhancing heat exchange and thus the performance of renewable energy technologies, including solar energy. A pair of 0.1 mm thick, 15 mm high (h) and 30 mm long aluminum winglets separated with transversal spacing, s, of 2h, h and 0 were scrutinized in a closed-loop wind tunnel at a Reynolds number based on h of 6300. The turbulent flow was characterized using a 3D hotwire probe, and the heat convection augmentation was quantified in terms of the normalized Nusselt number (Nu/Nu0), indicating the heat transfer improvement compared to the reference case without the winglets. The interaction of the organized counter-rotational vortices intensifies and they become indiscernible at s = 0. The peak strain rate at 10h downstream increased from 390 s–1, to 478 s–1, to 514 s–1, when the spacing decreased from 2h to h to 0, respectively. The zero-spaced winglet pair provided the largest Nu/Nu0, of around 1.21, at X/h = 10 and Y/h = 0, approximately 21% higher than that of 2h-spaced winglet pair, due to the strongest strain rate and the absence of upwash flow. On the other hand, the 2h-spaced winglet pair provided the largest span-averaged Nu/Nu0, which is of practical significance.

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Delta Winglets for Enhancing Solar Energy: Turbulent Strain Rate-Heat Convection Relationship

Yang¹,

Mohanakrishnan²,

Ting³

et al. 2021

Journal of Green Building

View full text Add to dashboard Cite

show abstract

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Optimal Design of Housing Attics With Integrated Solar Collectors

Cited by 1 publication

References 17 publications

Delta Winglets for Enhancing Solar Energy: Turbulent Strain Rate-Heat Convection Relationship

Delta Winglets for Enhancing Solar Energy: Turbulent Strain Rate-Heat Convection Relationship

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