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This paper presents preliminary results of a CFD analysis of passive solar air collector. The geometry used in simulation is a representation of a prototype solar air collector which has been investigated experimentally in laboratory of Heat Engineering and Refrigeration Department of Koszalin University of Technology. The external dimensions of collector are 2 x 1 m (heigth x width). The absorber plate is flat. The set of experimental results is used in validation the numerical approximations of the flow field. Most notably, the mean velocity at inlet and temperatures can be easily compared between these two data sets, leading to a comprehensive conclusions. The numerical results are in agreement with experiment. The results revealed a behavior of fluid in the discussed geometry that promotes backflows and may be the cause of momentum loss.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
27--31
Opis fizyczny
Bibliogr. 11 poz., rys., wykr.
Twórcy
autor
- Technical University of Koszalin, Department of Heat Enginnering and Refrigeration, Koszalin, Poland
autor
- Technical University of Koszalin, Department of Heat Enginnering and Refrigeration, Koszalin, Poland
Bibliografia
- Aghaie, A. Z., Rahimi, A. B., & Akbarzadeh, A., 2015, A general optimized geometry of angled ribs for enhancing the thermo-hydraulic behavior of a solar air heater channel - A Taguchi approach, Renewable Energy, 83, 47-54
- Dutkowski K., Piątkowski P., 2015, Experimental investigation of a prototype passive solar air collector with polycarbonate cellular cover, Instal, 3,360, 17-22
- Fiuk J., Dutkowski K., 2016, Experimental prototype research of passive solar air collector, Ciepłownictwo Ogrzewnictwo Wentylacja, 47/4, 135-141
- Hamid, M. O. A., & Zhang, B., 2015, Field synergy analysis for turbulent heat transfer on ribs roughened solar air heater, Renewable Energy, 83, 1007-1019
- Hirsch, C., 2007, Numerical computation of internal & external flows. Volume 1 Fundamentals of Computational Fluid Dynamics. Second Edition., Elsevier
- Jin, D., Zhang, M., Wang, P., & Xu, S., 2015, Numerical investigation of heat transfer and fluid flow in a solar air heater duet with multi V-shaped ribs on the absorber plate, Energy, 89, 178-190
- Kulkarni, K„ Afzal, A., & Kim, K.-Y., 2015, Multi- objective optimization of solar air heater with obstacles on absorber plate Solar Energy, 114, 364-377
- Kumar, A., 2014, Analysis of heat transfer and fluid flow in different shaped roughness elements on the absorber plate solar air heater duet, Energy Procedia, 57, 2102-2111
- Kumar, A., Saini, R. P., Saini, J. S., 2014, A review of thermohydraulic performance of artificially roughened solar air heaters, Renewable and Sustainable Energy Reviews, 37, 100-122
- Lanjewar, A. M., Bhagoria, J. L., Agrawal, M. K., 2015, Review of development of artificial roughness in solar air heater and performance evaluation of different orientations for double arc rib roughness, Renewable and Sustainable Energy Reviews. Vol. 43, p. 1214-1223
- Singh, S., Singh, B., Hans, V. S., & Gill, R. S., 2015, CFD (computational fluid dynamics) investigation on Nusselt number and friction factor of solar air heater duet roughened with non-uniform cross- section transverse rib, Energy, 84, 509-517
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5ec51c09-23f3-4e16-9646-6a78368ae0da