Heat Transfer and Friction Factor Study for Triangular Duct Solar Air Heater Having Discrete V-Shaped Ribs
Authors: Varun
Abstract:
Solar energy is a good option among renewable energy resources due to its easy availability and abundance. The simplest and most efficient way to utilize solar energy is to convert it into thermal energy and this can be done with the help of solar collectors. The thermal performance of such collectors is poor due to less heat transfer from the collector surface to air. In this work, experimental investigations of single pass solar air heater having triangular duct and provided with roughness element on the underside of the absorber plate. V-shaped ribs are used for investigation having three different values of relative roughness pitch (p/e) ranges from 4- 16 for a fixed value of angle of attack (α), relative roughness height (e/Dh) and a relative gap distance (d/x) values are 60°, 0.044 and 0.60 respectively. Result shows that considerable augmentation in heat transfer has been obtained by providing roughness.
Keywords: Artificial roughness, Solar Air heater, Triangular duct, V-Shaped Ribs.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1338116
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[1] Incropera, F. and Dewitt, P.D., Introduction to heat transfer, 3rd edition, New York: John Wiley and sons Inc., (1996).
[2] Ministry of New and Renewable Energy (MNRE), Government of India, http://www.mnre.gov.in (accessed on Aug 2014)
[3] Goswami, D. Y., Krieth, Frank, and Kreider, Jan F., Principles of Solar Engineering, Philadelphia: Taylor & Francis, 2000.
[4] Momin, Saini J.S., Solanki S.C., “Heat Transfer and Friction in Solar Air Heater Duct with V Shaped Rib Roughness on Absorber Plate”, International Journal of Heat and Mass Transfer, 2002, vol.45, pp.3383- 3396.
[5] Leung, C.W., Chen, S., Wong, T.T. and Probert, S.D., Forced convection and pressure drop in a horizontal triangular-sectional duct with V-grooved (i.e. orthogonal to the mean flow) inner surfaces, Applied Energy 66 (2000), 199-211.
[6] Leung, C.W., Wong, T.T., and Kang, H.J., Forced convection of turbulent flow in triangular ducts with different angles and surface roughness, Heat and Mass Transfer 34 (1998), 63-68.
[7] Gaurav Bharadwaj, Varun, Thermo hydraulic performance of an equilateral triangular duct with artificial roughness used in solar air heater. International Journal of Mechanical and Industrial Engineering (IJMIE), 2012, Vol-2, ISSN No. 2231 –6477.
[8] Singh S., Chander S., Saini J.S., Heat transfer and friction factor correlations of solarair heater ducts artificially roughened with discrete V-down ribs, Energy 36 (2011), 5053-64.
[9] Verma S.K. and Prasad B.N., Investigation for the optimal Thermo hydraulic performance of artificially roughened solar air heaters, Renewable Energy 20 (2000) 19-36.