Two new designs of parabolic solar collectors

• Main Authors: Karimi Sadaghiyani Omid, Sadeghi Azad Mohammad Bagher, Khalilaria Sharam, Mirzaee Iraj
• Format: Article
• Language: English
• Published: VINCA Institute of Nuclear Sciences 2014-01-01
• Series: Thermal Science
• Subjects: compound parabolic concentrator; collector efficiency; blackbody theory; ray tracing; CFD modeling
• Online Access: http://www.doiserbia.nb.rs/img/doi/0354-9836/2014/0354-98361300089S.pdf

In this work, two new compound parabolic trough and dish solar collectors are presented with their working principles. First, the curves of mirrors are defined and the mathematical formulation as one analytical method is used to trace the sun rays and recognize the focus point. As a result of the ray tracing, the distribution of heat flux around the inner wall can be reached. Next, the heat fluxes are calculated versus several absorption coefficients. These heat flux distributions around absorber tube are functions of angle in polar coordinate system. Considering, the achieved heat flux distribution are used as a thermal boundary condition. After that, Finite Volume Methods (FVM) are applied for simulation of absorber tube. The validation of solving method is done by comparing with Dudley's results at Sandia National Research Laboratory. Also, in order to have a good comparison between LS-2 and two new designed collectors, some of their parameters are considered equal with together. These parameters are consist of: the aperture area, the measures of tube geometry, the thermal properties of absorber tube, the working fluid, the solar radiation intensity and the mass flow rate of LS-2 collector are applied for simulation of the new presented collectors. After the validation of the used numerical models, this method is applied to simulation of the new designed models. Finally, the outlet results of new designed collector are compared with LS-2 classic collector. Obviously, the obtained results from the comparison show the improving of the new designed parabolic collectors efficiency. In the best case-study, the improving of efficiency are about 10% and 20% for linear and convoluted models respectively.