Abstract In this paper, we study the reflection behavior of (3D) Fresnel collectors operating in the fixed-aperture mode with a tracking absorber. The aim of the study is to investigate the possibility of the use of this type of installation for applications in medium temperature processes (200–300°C). Two models of (3D) Fresnel concentrator are developed for this purpose. One is based on the approximation of the optical behavior of a parabolic concentrator, and the other on that of a spherical one. Via a computer simulation which includes ray-tracing, we evaluate the sensitivity of the geometric concentration ratio to concentrator design parameters, and the option of using curved versus flat elementary mirrors. The numerical results show that there is no large difference between the two models of Fresnel concentrator. For the spherical model, which seems to be slightly more suitable for this type of application, we propose a simple solution for the receiver displacement, which consists of a single-sided absorber moving tangentially to a sphere centered in the concentrator’s center.
[1]
R. B. Pettit,et al.
Characterization of the reflected beam profile of solar mirror materials
,
1977
.
[2]
Ari Rabl,et al.
Comparison of solar concentrators
,
1975
.
[3]
Ari Rabl,et al.
Active solar collectors and their applications
,
1985
.
[4]
T. A. Williams,et al.
Performance and Cost Implications of the Fixed Mirror, Distributed Focus (FMDF) Collector
,
1992
.
[5]
Daniel Feuermann,et al.
Analysis of a two-stage linear Fresnel reflector solar concentrator
,
1991
.
[6]
Jan F. Kreider,et al.
Medium and high temperature solar processes
,
1979
.
[7]
Roland Winston,et al.
High Collection Nonimaging Optics
,
1989,
Other Conferences.