Author:
Hudisteanu Sebastian Valeriu, ,Chereches Cristian Nelu,Turcanu Florin Emilian,Taranu Nicolae,Verdes Marina,Ancas Ana Diana,Hudisteanu Iuliana,Ungureanu Dragos,Polcovnicu Razvan Andrei, , , , , , , ,
Abstract
The paper presents the design and execution of a solar radiation simulation device, which ensures the adequate operation of thermal and photovoltaic panels by using light sources which have a spectrum close to the one produced by sun at minimum investment costs. The equipment is used for the experimental tracking of the behaviour of photovoltaic panels and solar thermal panels for both short and longer time intervals. The solar radiation simulation device has been developed to provide the radiation necessary for the evaluation of the efficiency and the heating of the solar panels exposed to sun. A system consisting of six OSRAM Ultravitalux 300W high-pressure lamps has been adopted, offering an optimized solution, both qualitatively and economically. The main steps achieved during its execution were: design, pre-dimensioning, verification, final dimensioning, execution and testing. According to the final tests, it was concluded that the proposed device can provide the quantitative and qualitative parameters required for solar radiation simulation in case of laboratory tests.
Publisher
Asociatia Profesionala in Tehnologii Moderne de Fabricatie
Subject
Industrial and Manufacturing Engineering
Reference30 articles.
1. "1. Richter, C., Lincot, D., Gueymard, C., (2012). Solar Energy, Springer, New York.
2. 2. Oprea, C., (2005). Radiația solară, aspecte teoretice și practice ISBN 973-03915-1, Bucharest.
3. 3. ASTM E-490-00a (2014). Standard Solar Constant and Zero Air Mass Solar Spectral Irradiance Tables.
4. 4. https://sunclimate.gsfc.nasa.gov/article/solar-irradiance#:~:text=Satellite%20TSI%20measurements%20have%20enabled,meter%20(W%2Fm2) last accessed on: 01.02.2022.
5. 5. library.wmo.int/doc_num.php?explnum_id=9416 last accessed on: 01.02.2022.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献