Paper detail

Experimental and simulated Performance of Hot Mirror Coatings in a Parabolic Trough Receiver

Thermal radiation is the dominant heat loss mechanism for receiver units on a parabolic solar collector plant at high temperatures. Reduction of these losses is traditionally achieved through the use of an optically selective coating on the absorber pipe, which absorbs visible light well but emits poorly in the IR region. Another possibility is the use of a hot mirror coating on the glass cover of the receiver, which reflects thermal radiation back onto the absorber pipe for reabsorption. In this paper, novel experimental results of a receiver unit operating with a hot mirror coating is presented, and the results between a developed model and a simulation are compared. It is seen that the correspondence is encouragingly close (Chi-squared test p-values between 0.995 and 0.80), where the simulation underestimates the experimental performance. Further, simulations to investigate the performance of various candidates for hot mirror coating (ITO, Gold and Silver) in solar through the receiver are presented, where it is seen that the hot mirror coating has access to higher temperature regions (above 700K). Lastly, simulation of the effects of variation of some optical parameters on overall plant efficiency, and comparison to existing selective coatings is presented.