TY - JOUR
T1 - Polymeric absorbers for flat plate collectors
T2 - Solar Engineering 2005
AU - Kearney, Meghan
AU - Davidson, Jane H.
AU - Mantell, Susan
PY - 2005
Y1 - 2005
N2 - Venting and evaporative cooling are modeled as possible techniques for protecting polymer absorbers in single-glazed, flat-plate solar collectors from exceeding the material temperature limit during dry stagnation. Four venting options are considered: I) venting above the absorber plate, II) venting below, III) dual venting, and IV) venting with evaporative cooling. Results indicate that in hot, sunny conditions, venting may not provide adequate cooling to lower the absorber temperature to the relative thermal index of the polymeric materials currently in use or under consideration for this application. Venting combined with evaporative cooling from a wetted pad directly beneath the absorber plate is identified as a potential method of overheat protection in hot, dry climates.
AB - Venting and evaporative cooling are modeled as possible techniques for protecting polymer absorbers in single-glazed, flat-plate solar collectors from exceeding the material temperature limit during dry stagnation. Four venting options are considered: I) venting above the absorber plate, II) venting below, III) dual venting, and IV) venting with evaporative cooling. Results indicate that in hot, sunny conditions, venting may not provide adequate cooling to lower the absorber temperature to the relative thermal index of the polymeric materials currently in use or under consideration for this application. Venting combined with evaporative cooling from a wetted pad directly beneath the absorber plate is identified as a potential method of overheat protection in hot, dry climates.
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U2 - 10.1115/ISEC2005-76005
DO - 10.1115/ISEC2005-76005
M3 - Conference article
AN - SCOPUS:33748221000
SN - 1546-8402
SP - 253
EP - 257
JO - International Solar Energy Conference
JF - International Solar Energy Conference
Y2 - 2 August 2005 through 6 August 2005
ER -