Performance of Single Pass Down Stream Solar Air Collector with Inclined Multiple V-Ribs
Solar air heater is a type of heat exchanger which
transforms solar radiation into heat energy. The thermal performance
of conventional solar air heater has been found to be poor because of
the low convective heat transfer coefficient from the absorber plate to
the air. It is attributed to the formation of a very thin boundary layer
at the absorber plate surface commonly known as viscous sub-layer.
Thermal efficiency of solar air heater can be improved by providing
the artificial roughness on absorber plate is the most efficient
technique. In this paper an attempt is made to provide artificial
roughness by incorporating inclined multiple V-ribs in the underside
of the absorber plate. 60˚V – ribs are arranged inclined to the
direction of air flow. Performance of collector estimated theoretically
and experimentally. Results of the investigation reveal that thermal
efficiency of collector with multiple V-ribs increased by 14%.
[1] ASHRAE standard 93-77. Method of testing to determine the thermal
performance of solar collector; 1977.
[2] Akpinar E.K., Koçyigit F., “Experimental investigation of thermal
performance of solar air heater having different obstacles on absorber
plates”, Int Commun Heat Mass, 37(4), pp.416–21, 2010.
[3] Bhagoria J.L, Saini J.S, Solanki S.C., “Heat transfer coefficient and
friction factor correlations for rectangular solar air heater duct having
transverse wedge shaped rib roughness on the absorber plate”
Renewable Energy 25 341–369, 2002.
[4] Ebru Kavak Akpinar, Fatih Kocyigit, “Experimental investigation on
solar air heater having different obstacles on absorber plates”,
International Communications in Heat and Mass Transfer, 37 416-421,
2010.
[5] El-Sawi A.M., Wifi A.S., Younan M.Y., Elsayed E.A., Basily B.B., “
Application of folded sheet metal in flat bed solar air collectors” Applied
Thermal Engineering 30 864–871, 2010.
[6] El-Sebaii A.A., Aboul-Enein S., Ramadan M.R.I., Shalaby S.M.,
Moharramb B.M., “Investigation of thermal performance of-double
pass-flat and v-corrugated plate solar air heaters”, Energy 36 1076-1086,
2011.
[7] Hikmet Esen, “Experimental energy and exergy analysis of double flow
solar air heater having different obstacles on absorber plates”, Building
and Environment 43 1046-1054, 2008.
[8] Hans V.S., Saini R.P., Saini J.S., “Heat transfer and friction factor
correlations for a solar air heater duct roughened artificially with
multiple v-ribs” Solar Energy 84 898–911, 2010.
[9] Jaurker A.R., Saini J.S., Gandhi B.K., “Heat transfer and friction
characteristics of rectangular solar air heater duct using rib-grooved
artificial roughness”, Solar Energy 80 895–907, 2006.
[10] Kamali R., and Binesh A.R., “The importance of rib shape effects on the
local heat transfer and flow friction characteristics of square ducts with
ribbed internal surfaces” International Communications in Heat and
Mass Transfer 35 1032-1040, 2008.
[11] Karsli S., “Performance analysis of new-design solar air collectors for
drying applications” Renewable Energy, 32(10), pp.1645–60, 2007.
[12] Lanjewar A.M., Bhagoria J.L., and Sarviya R.M., “Thermohydraulic
performance of solar air collector using w-shaped artificial roughness”,
Journal of Environmental Research and Development Vol. 6 No. 3A,
2012.
[13] Momin A-M.E., Saini J.S., Solanki S.C., “Heat transfer and friction in
solar air heater duct with Vshaped rib roughness on absorber plate”,
International J. of Heat and Mass Transfer, 45(16), 3383-3396, 2001.
[14] Romdhane B.S.,”The air solar collectors: Comparative study,
Introduction of baffles to favor the heat transfer”, Solar Energy, 81(1),
pp.139–149, 2007.
[15] Rajendra Karwa, Girish Chitoshiya, “Performance study of solar air
heater having v-down discrete ribs on absorber plate”, Energy 55 939-
955, 2013.
[16] Suman Saurav, Sahu M.M., “Heat Transfer and Thermal Efficiency of
Solar Air Heater Having Artificial Roughness A Review”, .International
journal of renewable energy research, Vol. 3, No. 3, 2013.
[17] Sukhmeet Singh, Subhash Chander, Saini J.S, “Heat transfer and friction
factor of discrete V-down rib roughened solar air heater ducts”, Journal
of Renewable Sustainable Energy 3(1):013108e17, 2011.
[18] Sukhmeet Singh, Subhash Chandera, Saini. J.S., “Heat transfer and
friction factor correlations of solar air heater ducts artificially roughened
with discrete V-down ribs”, Energy 36 5053-5054, 2011.
[19] Varun, Saini R.P, Singal S.K, “Investigation of thermal performance of
solar air heater having roughness elements as a combination of inclined
and transverse ribs on the absorber plate”, Renewable Energy 33 1398-
1405, 2008.
[1] ASHRAE standard 93-77. Method of testing to determine the thermal
performance of solar collector; 1977.
[2] Akpinar E.K., Koçyigit F., “Experimental investigation of thermal
performance of solar air heater having different obstacles on absorber
plates”, Int Commun Heat Mass, 37(4), pp.416–21, 2010.
[3] Bhagoria J.L, Saini J.S, Solanki S.C., “Heat transfer coefficient and
friction factor correlations for rectangular solar air heater duct having
transverse wedge shaped rib roughness on the absorber plate”
Renewable Energy 25 341–369, 2002.
[4] Ebru Kavak Akpinar, Fatih Kocyigit, “Experimental investigation on
solar air heater having different obstacles on absorber plates”,
International Communications in Heat and Mass Transfer, 37 416-421,
2010.
[5] El-Sawi A.M., Wifi A.S., Younan M.Y., Elsayed E.A., Basily B.B., “
Application of folded sheet metal in flat bed solar air collectors” Applied
Thermal Engineering 30 864–871, 2010.
[6] El-Sebaii A.A., Aboul-Enein S., Ramadan M.R.I., Shalaby S.M.,
Moharramb B.M., “Investigation of thermal performance of-double
pass-flat and v-corrugated plate solar air heaters”, Energy 36 1076-1086,
2011.
[7] Hikmet Esen, “Experimental energy and exergy analysis of double flow
solar air heater having different obstacles on absorber plates”, Building
and Environment 43 1046-1054, 2008.
[8] Hans V.S., Saini R.P., Saini J.S., “Heat transfer and friction factor
correlations for a solar air heater duct roughened artificially with
multiple v-ribs” Solar Energy 84 898–911, 2010.
[9] Jaurker A.R., Saini J.S., Gandhi B.K., “Heat transfer and friction
characteristics of rectangular solar air heater duct using rib-grooved
artificial roughness”, Solar Energy 80 895–907, 2006.
[10] Kamali R., and Binesh A.R., “The importance of rib shape effects on the
local heat transfer and flow friction characteristics of square ducts with
ribbed internal surfaces” International Communications in Heat and
Mass Transfer 35 1032-1040, 2008.
[11] Karsli S., “Performance analysis of new-design solar air collectors for
drying applications” Renewable Energy, 32(10), pp.1645–60, 2007.
[12] Lanjewar A.M., Bhagoria J.L., and Sarviya R.M., “Thermohydraulic
performance of solar air collector using w-shaped artificial roughness”,
Journal of Environmental Research and Development Vol. 6 No. 3A,
2012.
[13] Momin A-M.E., Saini J.S., Solanki S.C., “Heat transfer and friction in
solar air heater duct with Vshaped rib roughness on absorber plate”,
International J. of Heat and Mass Transfer, 45(16), 3383-3396, 2001.
[14] Romdhane B.S.,”The air solar collectors: Comparative study,
Introduction of baffles to favor the heat transfer”, Solar Energy, 81(1),
pp.139–149, 2007.
[15] Rajendra Karwa, Girish Chitoshiya, “Performance study of solar air
heater having v-down discrete ribs on absorber plate”, Energy 55 939-
955, 2013.
[16] Suman Saurav, Sahu M.M., “Heat Transfer and Thermal Efficiency of
Solar Air Heater Having Artificial Roughness A Review”, .International
journal of renewable energy research, Vol. 3, No. 3, 2013.
[17] Sukhmeet Singh, Subhash Chander, Saini J.S, “Heat transfer and friction
factor of discrete V-down rib roughened solar air heater ducts”, Journal
of Renewable Sustainable Energy 3(1):013108e17, 2011.
[18] Sukhmeet Singh, Subhash Chandera, Saini. J.S., “Heat transfer and
friction factor correlations of solar air heater ducts artificially roughened
with discrete V-down ribs”, Energy 36 5053-5054, 2011.
[19] Varun, Saini R.P, Singal S.K, “Investigation of thermal performance of
solar air heater having roughness elements as a combination of inclined
and transverse ribs on the absorber plate”, Renewable Energy 33 1398-
1405, 2008.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:68738", author = "Manivannan A and Velmurugan M", title = "Performance of Single Pass Down Stream Solar Air Collector with Inclined Multiple V-Ribs", abstract = "Solar air heater is a type of heat exchanger which
transforms solar radiation into heat energy. The thermal performance
of conventional solar air heater has been found to be poor because of
the low convective heat transfer coefficient from the absorber plate to
the air. It is attributed to the formation of a very thin boundary layer
at the absorber plate surface commonly known as viscous sub-layer.
Thermal efficiency of solar air heater can be improved by providing
the artificial roughness on absorber plate is the most efficient
technique. In this paper an attempt is made to provide artificial
roughness by incorporating inclined multiple V-ribs in the underside
of the absorber plate. 60˚V – ribs are arranged inclined to the
direction of air flow. Performance of collector estimated theoretically
and experimentally. Results of the investigation reveal that thermal
efficiency of collector with multiple V-ribs increased by 14%.
", keywords = "Artificial roughness, inclined multiple V-ribs, performance, Solar air collector.", volume = "8", number = "8", pages = "1495-6", }
