| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1551007 | Solar Energy | 2011 | 5 Pages |
The useful heat gain of a parabolic collector system is directly dependent on the heat loss from the absorber at its operating temperature. Selective coatings with evacuated/non evacuated glass tubes are employed to control radiative and convective heat losses. A concentric glass shell under vacuum is investigated for its thermal performance as this method circumvents the need for direct sealing between the glass envelope and the metal receiver to maintain vacuum and its related technical challenges. The performance is compared against a non evacuated receiver and its influence under different wind velocities; emissivities are calculated by a one dimensional theoretical model and solved by an iterative method.
► Thermal performance of a new concentric glass vacuum shell as receiver. ► Vacuum shell performs better than non evacuated tube even without selective coating. ► Benefits: lower cost, flexibility in choice of selective coatings & receiver material. ► Unlike evacuated tube receivers, structural deformation need not strain vacuum joint. ► Performance comparison of different receiver configurations and their relative merits.
