Open AccessOverview on Recent PVT Systems with Jet Impingement
Author(s) -
Win Eng Ewe,
Ahmad Fudholi,
Kamaruzzaman Sopian,
Nilofar Asim,
Yoyon Ahmudiarto,
Agus Salim
Publication year - 2021
Publication title -
heat and technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.283
H-Index - 29
ISSN - 0392-8764
DOI - 10.18280/ijht.390633
Subject(s) - photovoltaic system , nozzle , coolant , nanofluid , thermal , solar energy , mechanical engineering , aerospace engineering , jet (fluid) , thermal energy , nuclear engineering , materials science , engineering physics , environmental science , engineering , electrical engineering , physics , meteorology , thermodynamics
Jet impingement cooling has been utilized to improve the performance of solar energy technologies such as solar collectors, PV systems, PVT systems, and CPV systems. This article provides an overview of current PVT systems using jet impingement. The distinctions between each study, such as research results and PVT system design, are examined and contrasted. The summary demonstrates that solar collectors are the most widely utilized solar energy technology owing to their direct manufacture. There are 20 solar collector studies, 5 for photovoltaic, 9 for photovoltaic thermal, and 8 for concentrator photovoltaic. Geometric characteristics such as jet diameter, spacing, and nozzle height are critical for maximum performance. Furthermore, numerous kinds of coolant jets, such as air, water, and nanofluid, may be seen from the overview. Hybrid systems, such as PVT or CPVT systems, perform better since they create thermal and electrical energy. As a result, more research into developing the hybrid system is advised.