Verification & validation of simulation code for Linear Fresnel systems

Verification & validation of simulation code for Linear Fresnel systems

This work belongs to a research project supported by the IRESEN (Institute of Research on Solar and New Energy-Morocco). Its main goal is to develop an innovative solar thermal field using the Fresnel technology. In order to analyze, optimize and design Linear Fresnel solar concentrating systems, a...

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Bibliographic Details
Published in:2014 International Renewable and Sustainable Energy Conference (IRSEC) pp. 214 - 218
Main Authors: Benyakhlef, Sara, Al Mers, Ahmed, Bouatem, Abdelfattah, Boutammachte, Noureddine, Merroun, Ossama
Format: Conference Proceeding
Language:English
Published: IEEE 01-10-2014
Subjects:
CSP systems
Fresnel Technology
Geometrical optics
Integrated optics
Modelisation
Monte Carlo Method
Optical receivers
Optical reflection
Ray Tracing Method
Software
Solar energy
SOLTRACE code
Visualization
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Summary:This work belongs to a research project supported by the IRESEN (Institute of Research on Solar and New Energy-Morocco). Its main goal is to develop an innovative solar thermal field using the Fresnel technology. In order to analyze, optimize and design Linear Fresnel solar concentrating systems, a global simulation code has been developed. The developed code is based on the Monte Carlo /Ray Tracing method and would allow us the visualization and the analysis of optical interactions and the simulation of radiative transfer between the sun and the receiver. It was necessary to verify and validate our simulation code before starting the optimization step. Thus, several verification-validation tests have been established. These tests are based on the comparison of our simulation results for different geometrical configurations with those obtained by SOLTRACE software. The main parameters of comparison would be based on the optical-geometrical interaction, the flux density distribution and the statistical parameters related to the Monte Carlo algorithm.
ISSN:2380-7385
DOI:10.1109/IRSEC.2014.7059856