Open AccessThe Effect of Variation in Mass Flow Rate and Solar Irradiance on Temperature Uniformity and Thermal Performance of Photovoltaic Thermal: A Simulated CFD Study
Author(s) -
Mohd Afzanizam Mohd Rosli,
Muhammad Zaid Nawam,
Irfan Alias Farhan Latif,
Safarudin Ghazali Herawan,
Noriffah Md Noh,
Siti Nur Dini Noordin Saleem,
Faridah Hussain
Publication year - 2022
Publication title -
journal of advanced research in fluid mechanics and thermal sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.247
H-Index - 13
ISSN - 2289-7879
DOI - 10.37934/arfmts.91.2.106119
Subject(s) - irradiance , mass flow rate , solar irradiance , volumetric flow rate , thermal , materials science , photovoltaic system , mass flow , computational fluid dynamics , pressure drop , environmental science , mechanics , optics , meteorology , physics , electrical engineering , engineering
Although, the effect of mass flow rate and solar irradiance variation is present in literature, it is still of significant interest to investigate the extent of the effect especially when utilizing a custom absorber design. In this paper, the effect of changing the mass flow rate and solar irradiance on the performance and temperature uniformity of a PVT using a custom spiral absorber design is simulated using ANSYS CFD software. By increasing the mass flow rate, the temperature uniformity and the performance parameters such as the average PV temperature, water outlet temperature, thermal and electrical efficiency all increase. By increasing the irradiance level, performance and temperature uniformity drop albeit at a smaller degree compared to change observed in mass flow rate variation. Amongst the tested range, the optimum mass flow rate and solar irradiance levels for best performance are 40 kg/h and 800 – 1000 , respectively.