Analysis of Flow and Heat Transfer in a Flat Solar Collector with Rectangular and Cylindrical Geometry Using CFD

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Jesús Ángel Marroquín-De
Juan Manuel Olivares-Ramírez
Omar Jiménez-Sandoval
Marco Antonio Zamora-Antuñano
Armando Encinas-Oropesa

Resumen

The present investigation describes the construction and experimentation of two solar energy absorbersusing water as working fluid and its simulation in Computational Fluid Dynamics (CFD). For Absorber A with rectangular cross section and Absorber B with circular cross section, water temperature was calculated using solar radiation and ambient temperature measurements showing increases of up to 62.5°C for both absorbers. The maximum thermosiphonic flow measurement in Absorber A was 70l/h and 79l/h in Absorber B. On this basis, finite element method and CFD were used to analyze the difference between both flows, with 45, 50, 55, 60, 65 and 70 l/h as simulation values. With the simulation results the Reynolds numbers were determined, finding that the maximum flow (70 l/h) gives the largest Reynolds number variation: 25 ≤ Re ≤ 115 for Absorber A and 199 ≤ Re ≤ 235 for Absorber B. With a smaller variation in Absorber B, the flow at all ducts turns out to be more uniform, which results in more ducts transferring heat to the working fluid.

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Cómo citar
Marroquín-De, J. Ángel, Olivares-Ramírez, J. M., Jiménez-Sandoval, O., Zamora-Antuñano, M. A., & Encinas-Oropesa, A. (2015). Analysis of Flow and Heat Transfer in a Flat Solar Collector with Rectangular and Cylindrical Geometry Using CFD. Ingeniería Investigación Y Tecnología, 14(4). Recuperado a partir de https://www.revistas.unam.mx/index.php/ingenieria/article/view/42011