The impact of optical and thermal properties on the performance of flat plate solar collectors

The impact of the optical properties on the annual performance of flat plate collectors in a Swedish climate has been estimated with the MINSUN program. The collector parameters were determined with a theoretically based calculation program verified from laboratory measurements. The importance of changes in solar absorptance and thermal emittance of the absorber, the addition of a teflon film or a teflon honeycomb, antireflection treatment of the cover glazing and combinations of these improvements were investigated. The results show that several improvements can be achieved for solar thermal absorbers. A combined increase in absorptance from 0.95 to 0.97 and a decrease in emittance from 0.10 to 0.05 increase the annual performance with 6.7percent at 50 ¢XC operating temperature. The increase in performance by installing a teflon film as second glazing was estimated to 5.6percent at 50 ¢XC. If instead a teflon honeycomb is installed, a twice as high performance increase is obtained, 12.1percent. Antireflection treatment of the cover glazing increases the annual output with 6.5percent at 50 ¢XC. A combination of absorber improvements together with a teflon honeycomb and an antireflection treated glazing results in a total increase of 24.6percent at 50 ¢XC. Including external booster reflectors increases the expected annual output at 50 ¢XC to 19.9¡V29.4percent depending on reflector material. ÆÉ 2002 Elsevier Science Ltd. All rights reserved