HYDRODYNAMIC COMPUTATIONAL EVALUATION IN SOLAR TUBULAR PHOTOBIOREACTORS BENDS

HYDRODYNAMIC COMPUTATIONAL EVALUATION IN SOLAR TUBULAR PHOTOBIOREACTORS BENDS

In this article, the hydrodynamic behavior of a single-phase flow in various solar collectors with diffe-rent cross sections (circular, octagonal, hexagonal and square), with same hydraulic diameter and longitudinal profile was analyzed. Secondary flow, pressure drop and shear stress were evaluated,...

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Veröffentlicht in:C T & F : ciencia, tecnología y futuro tecnología y futuro, 2011-12, Vol.4 (4), p.59-72
Hauptverfasser: Ramírez-Duque, José-Luis, Ramos-Lucumi, Mabel-Angélica
Format: Artikel
Sprache:eng ; por
Schlagworte:
Biomasa microalgal
Biomassa microalgal
Colectores solares
Computational fluid dynamic
Dinámica de fluidos computacional
Dinâmica de fluidos computacional
ENGINEERING, MULTIDISCIPLINARY
Esforços cortantes
Esfuerzos cortantes
Fotobio-rreator tubular
Fotobiorreactor tubular
Microalgae
Microalgal biomass
Microalgas
Shear stress
Solar collector
Tubular photobioreactor
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Zusammenfassung:In this article, the hydrodynamic behavior of a single-phase flow in various solar collectors with diffe-rent cross sections (circular, octagonal, hexagonal and square), with same hydraulic diameter and longitudinal profile was analyzed. Secondary flow, pressure drop and shear stress were evaluated, because the photosynthetic efficiency and microalgae endurance depend on these properties. These parameters were reviewed at six different culture inlet rates in the collector (from 0,25 m/s to 0,5 m/s), emphasizing in the bends regions. A higher speed and agitation was pre-sent in the square solar collector, contrary to what happened to the circular one. Despite this, the circular solar collector remains the best option for the industrial implementation phase. However, the shear stress generated in the culture -as it passes through the 180° bend of the solar collector- affects the microalgae growth, as stated in the literature.
ISSN:2382-4581
0122-5383