Experimental studies on photovoltaic module temperature reduction using eutectic cold phase change material

•Novel eutectic PCM was prepared using 75% of lauryl alcohol and 25% of cetyl alcohol.•C-PCM was introduced for PV cooling instead of H-PCM.•Eutectic C-PCM was used for PV module cooling.•TPV was reduced by C-PCM at a maximum of 10.3 °C.•The 5-cm thickness of C-PCM enhanced the power output by 2.8%....

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Bibliographic Details
Published in:Solar energy 2020-10, Vol.209, p.302-315
Main Authors: Velmurugan, Karthikeyan, Karthikeyan, Vaithinathan, Korukonda, Tulja Bhavani, Poongavanam, Prasannaa, Nadarajan, Sathishkumar, Kumarasamy, Sunilkumar, Wongwuttanasatian, Tanakorn, Sandeep, Deepika
Format: Article
Language:English
Subjects:
Climatic conditions
Cold phase change material
Containers
Dodecanol
Efficiency enhancement
Ethanol
Eutectic material
Eutectic temperature
Heat of fusion
Heat transfer
Latent heat
Melt temperature
Melting
Modules
Phase change materials
Photovoltaic cells
Photovoltaics
PV cooling
Quantum efficiency
Reduction
Solar energy
Temperature reduction
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Summary:•Novel eutectic PCM was prepared using 75% of lauryl alcohol and 25% of cetyl alcohol.•C-PCM was introduced for PV cooling instead of H-PCM.•Eutectic C-PCM was used for PV module cooling.•TPV was reduced by C-PCM at a maximum of 10.3 °C.•The 5-cm thickness of C-PCM enhanced the power output by 2.8%. An increase in Photovoltaic (PV) module temperature (TPV) affects the photoconversion efficiency (PCE). Annual TPV loss accounts higher than other losses in the PV system for hot climatic conditions. The main objective of this work is to introduce a novel passive Cold-PCM (C-PCM) to reduce the TPV. Commercial PCM’s are more expensive than a eutectic PCM. In this work, Lauryl alcohol and Ethyl alcohol are mixed in a ratio of 75:25 to form a eutectic mixture. The prepared eutectic mixture is having a melting temperature and latent heat of fusion of 21.75 °C and 199 J/g, respectively. Furthermore, C-PCM containers with 3-cm and 5-cm thickness are attached at the back surface of the PV module. It is observed that the 5-cm container exhibits higher heat transfer, which subsequently resulted in TPV reduction at a maximum of 10.3 °C. This decrease in TPV, enhanced the average voltage profile by 2.85%, thereby the average output power is also boosted by 2.8%. Consequently, this eutectic PCM can improve the average performance ratio, electrical efficiency and capacity utilization factor of the PV module by 72.63%, 10.09% and 19.41%, respectively. Thus the experimental results revealed that C-PCM could be a potential replacement to H-PCM for cooling down the TPV.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2020.09.010