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Abstract
In order to reduce the thermal emission from a glass-covered receiver tube of a trough collector, the part of the glass not facing the collector can be covered with an IR-reflecting layer. The advantages of such a covering are discussed in this preliminary study by means of optical and thermal simulations of three configurations of a receiver (two configurations with two different IR-reflecting layers, and one configuration without any IR-reflecting layer). From the simulations, it was observed that one of the layers produce a relative gain of 3.84% of the efficiency over a year (location: south of Italy). An upper bound on the cost of the covering is given.
Notes
1However, it would not be appropriate to see this comparison as a metal film–semiconductor comparison, since each of the two groups (especially the semiconductors) can show a large variety of properties depending on the layer thickness and on the material: a thick layer of semiconductor, for example, can have IR reflectivity and solar transmission levels similar to those of metallic films.
2For this reason, the efficiency values found are higher than one could reasonably expect from a real plant. However, the relative gain due to the IR-reflecting cover should be the same.