Energy Conversion and Management, ( ISI ), Volume (150), No (10), Year (2017-10) , Pages (515-531)

Title : ( Characterization of PVT systems equipped with nanofluids-based collector from entropy generation )

Authors: seyedreza maadi , Arman Kolahan , Mohammad Passandideh-Fard , Mohammad Sardarabadi , R. Moloudi ,

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Abstract

In this study, a PVT system equipped with a nanofluid-based collector is investigated from entropy generation viewpoint. The purpose of this study is characterizing a PVT system in order to enhance its performance. For this purpose, the effects of adding nanoparticles on entropy generation are investigated using a 2D-transient numerical model validated with experimental measurements. The experiments were performed for various nanofluids (Al2O3Al2O3/water, TiO2TiO2 /water and ZnOZnO /water by 0.2 wt%, and SiO2SiO2 /water by 1 wt% and 3 wt%) on a PV system equipped with a serpentine collector tube to increase its efficiency. A good agreement is observed between model calculations and those of the measurements. The effect of various metallic and metalloid nanofluid mass fractions on thermal (locally) and frictional fluid entropy generations, and the total entropy generation of the PVT system are investigated. The effects of various nanofluids on thermo-physical properties, coolant fluid heat transfer, and energy and exergy efficiencies are also examined. The results show that adding nanoparticles improves the thermal exergy efficiency of the system. ZnOZnO /water had the highest and SiO2SiO2 /water had the lowest thermal exergy efficiency. In addition, it is observed that by increasing the mass fraction of metallic-water nanofluids (Al2O3Al2O3, TiO2TiO2 and ZnOZnO /water) in the range considered in this study, less entropy is generated due to the improvement made in the nanofluid thermo-physical properties. For Al2O3Al2O3 /water nanofluid, the best performance in terms of thermal and total entropy generation is obtained. The ZnOZnO /water nanofluid is also found to generate the least frictional entropy generation. However for metalloid nanofluid considered in this study (SiO2SiO2/water nanofluid) is found to have the most entropy generation which is not favorable.

Keywords

, Photovoltaic thermal system; Nanofluid; Thermal and frictional entropy generation; Exergy efficiency; Heat transfer; Thermo, physical properties
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@article{paperid:1064458,
author = {Maadi, Seyedreza and Kolahan, Arman and Passandideh-Fard, Mohammad and Sardarabadi, Mohammad and R. Moloudi},
title = {Characterization of PVT systems equipped with nanofluids-based collector from entropy generation},
journal = {Energy Conversion and Management},
year = {2017},
volume = {150},
number = {10},
month = {October},
issn = {0196-8904},
pages = {515--531},
numpages = {16},
keywords = {Photovoltaic thermal system; Nanofluid; Thermal and frictional entropy generation; Exergy efficiency; Heat transfer; Thermo-physical properties},
}

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%0 Journal Article
%T Characterization of PVT systems equipped with nanofluids-based collector from entropy generation
%A Maadi, Seyedreza
%A Kolahan, Arman
%A Passandideh-Fard, Mohammad
%A Sardarabadi, Mohammad
%A R. Moloudi
%J Energy Conversion and Management
%@ 0196-8904
%D 2017

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