Title :
Simulation of fluorescent concentrators
Author :
Bendig, Marion ; Hanika, Johannes ; Dammertz, Holger ; Goldschmidt, Jan Christoph ; Peters, Marius ; Weber, Michael
Author_Institution :
Ulm Univ., Ulm
Abstract :
Fluorescent concentrators (see Figure 1) are developed and investigated in solar energy research in order to improve the efficiency and applicability of solar cells. This is achieved by concentrating even diffuse light on cloudy days on small solar cells, using a fluorescent dye enclosed in low-cost acrylic glass. We developed a Monte Carlo simulation model for fluorescent concentrators that makes it possible to test and improve different setups and to gain further insight into the physical processes. As it is a complicated topic, fluorescent light has been investigated very rarely in computer graphics. Recent advances in fast ray tracing give the opportunity to simulate complex physical processes using simple models. Changes of the setup and physical properties can be simulated and evaluated quickly, providing the necessary foundation for automatic optimization.
Keywords :
Monte Carlo methods; computer graphics; electrical engineering computing; ray tracing; solar cells; Monte Carlo simulation; computer graphics; fast ray tracing; fluorescent concentrators; fluorescent dye; fluorescent light; solar cells; solar energy; Absorption; Computational modeling; Computer graphics; Fluorescence; Photoluminescence; Photovoltaic cells; Physics computing; Power engineering computing; Ray tracing; Testing; G.3 [Mathematics of Computing]: Probability and Statistics—Monte Carlo; I.3.3 [Computing Methodologies]: Computer Graphics—Picture/Image Generation; J.2 [Computer Applications]: Physical Sciences and Engineering—Physics;
Conference_Titel :
Interactive Ray Tracing, 2008. RT 2008. IEEE Symposium on
Conference_Location :
Los Angeles, CA
Print_ISBN :
978-1-4244-2741-3
DOI :
10.1109/RT.2008.4634628
