| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1551293 | Solar Energy | 2012 | 9 Pages |
In a parabolic trough of a CSP solar plant the solar rays are concentrated on a pipe positioned in the focus of the parabolic reflectors. A flow of carbon dioxide collects the heat from the heated pipe. The thermal gradient between the heated and not-heated part of the metallic pipe leads to receiver destruction while the high temperature in the enlightened part of the pipe can damage the special coating deposed on it. In this paper an extensive qualitative analysis has been made by mean of Ansys Fluent on a standard solar pipe receiver to improve the, convective, heat distribution around the pipe, in order to prevent its failure. Different methods are presented and discussed. In particular a parametric analysis of a pipe equipped with blades/fins is conducted.
► Standard receivers fail when working with gas as a heat transfer fluid in a CSP plant. ► A better temperature distribution is needed on the pipe and inside it. ► Three methods to improve the convective heat distribution are presented. ► In particular a parametric study on the main geometrical features of the blades is conducted. ► Qualitative results are presented, assessed and discussed.
