Luminescent Solar Concentrator Research Papers (original) (raw)
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Thesis for Candidate’s degree by speciality 05.18.12 – Processes and Equipment of Food, Microbiological and Pharmaceutical Industries. – Kharkiv State University of Food Technology and Trade of the Ministry of Education and Science of... more
Thesis for Candidate’s degree by speciality 05.18.12 – Processes and Equipment of Food, Microbiological and Pharmaceutical Industries. – Kharkiv State University of Food Technology and Trade of the Ministry of Education and Science of Ukraine, Kharkiv, 2008.
The dissertation work is devoted to solving the problem of introducing renewed sources and solar drying fruit process intensification based on effective combining with electrokinetic methods heating. The scientific conception is in increasing effect of fruit solar drying combined solar-drying process regulations can be reached by solar radiation used for energy devices work with electrokinetic influence stimulated the process the inner moisture transmission .
Developed theoretical model and reasonable parameters of solar drying and electro-osmos are determined. The combined solar dryer with autonomous power supply is developed (CSDA). Determined are the combined solar-drying process regulations/ The economic effect of the science-technical works is estimated. Measures on introducing the project into production are taken.
Luminescent solar concentrators (LSC’s) are evolving cost-effective organic methods for trapping solar energy using the fluorescence property of organic dyes. The study aims in finding a waveguide design for LSC, in different... more
Luminescent solar concentrators (LSC’s) are evolving cost-effective organic methods for trapping solar energy using the fluorescence property of organic dyes. The study aims in finding a waveguide design for LSC, in different waveguide materials, PC and PMMA in varying dimensions filled with solution of anthracene in heptane with minimum losses. By comparing the output responses, the LSC with the waveguide design of 6 cm x 3cm x 5cm made of the PMMA (3mm thick) is observed to trap more incident radiation than the unaided solar cells. The maximum output current is measured to be 6.10 mA for a source of 40W power which is convincingly higher than 3.21 mA obtained from the unaided solar cell measured with the same source.