Energy and Exergy Analyses on Seasonal Comparative Evaluation of Water Flow Cooling for Improving the Performance of Monocrystalline PV Module in Hot-Arid Climate

Journal article

Sohani, A., Shahverdian, M. H., Sayyaadi, H., Hoseinzadeh, S., Memon, S., Piras, G. and Astiaso Garcia, D. (2021). Energy and Exergy Analyses on Seasonal Comparative Evaluation of Water Flow Cooling for Improving the Performance of Monocrystalline PV Module in Hot-Arid Climate. Sustainability. 13 (11), p. e6084. https://doi.org/10.3390/su13116084

Publication dates
Authors	Sohani, A., Shahverdian, M. H., Sayyaadi, H., Hoseinzadeh, S., Memon, S., Piras, G. and Astiaso Garcia, D.
Abstract	Solar irradiation in hot-arid climatic countries results in increased temperatures, which is one of the major factors affecting the power generation efficiency of monocrystalline photovoltaic (PV) systems, posing performance and degradation challenges. In this paper, the efficiency of a water-flow cooling system to increase the output of a monocrystalline PV module with a rated capacity of 80 W is studied from both energy and exergy perspectives. The energy and exergy tests are performed for each season of the year, with and without cooling. The energy and exergy efficiencies, as well as the commodity exergy values, are used to compare the photovoltaic device with and without cooling. The findings are based on the experimental data that were collected in Tehran, Iran as an investigated case study in a country with a hot-arid climate. The findings show that when water-flow cooling is used, the values of the three efficiency metrics change significantly. In various seasons, improvements in regular average energy efficiency vary from 7.3% to 12.4%. Furthermore, the achieved increase in exergy efficiency is in the 13.0% to 19.6% range. Using water flow cooling also results in a 12.1% to 18.4% rise in product exergy.
Keywords	hot-arid climate; energy analysis; exergy analysis; water flow cooling; monocrystalline PV module
Year	2021
Journal	Sustainability
Journal citation	13 (11), p. e6084
Publisher	MDPI
ISSN	2071-1050
Digital Object Identifier (DOI)	https://doi.org/10.3390/su13116084
Print	28 May 2021
Online	28 May 2021
Publication process dates
Accepted	26 May 2021
Deposited	04 Jun 2021
Publisher's version	sustainability-13-06084.pdf License CC BY 4.0 File Access Level Open
License	https://creativecommons.org/licenses/by/4.0/

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Effect of Cavity Vacuum Pressure Diminution on Thermal Performance of Triple Vacuum Glazing

Memon, S, Farukh, F and Kandan, K (2018). Effect of Cavity Vacuum Pressure Diminution on Thermal Performance of Triple Vacuum Glazing. Applied Sciences. 8 (9), pp. 1705-1719. https://doi.org/10.3390/app8091705

Experimental and Analytical Simulation Analyses on the Electrical Performance of Thermoelectric Generator Modules for Direct and Concentrated Quartz-Halogen Heat Harvesting

Memon, S and Noman Tahir, K (2018). Experimental and Analytical Simulation Analyses on the Electrical Performance of Thermoelectric Generator Modules for Direct and Concentrated Quartz-Halogen Heat Harvesting. Energies. 11 (12), pp. 3315-3315. https://doi.org/10.3390/en11123315

The influence of low-temperature surface induction on evacuation, pump-out hole sealing and thermal performance of composite edge-sealed vacuum insulated glazing

Memon, Saim, Fang, Yueping and Eames, Philip C (2018). The influence of low-temperature surface induction on evacuation, pump-out hole sealing and thermal performance of composite edge-sealed vacuum insulated glazing. Renewable Energy. 135, pp. 450-464. https://doi.org/10.1016/j.renene.2018.12.025

Design and fabrication of vacuum glazing units using a new low temperature hermetic glass edge sealing method

Memon, S and Eames, PC (2013). Design and fabrication of vacuum glazing units using a new low temperature hermetic glass edge sealing method. Vacuum Symposium 4 & Vacuum Expo. Coventry 16 - 17 Oct 2013 London South Bank University.

Design & Development of Triple Vacuum glazing: An Investigation on Cost Effective Hermetic Sealing Materials & Predictions of Heat Load in a Solid Wall Dwelling

Memon, S (2012). Design & Development of Triple Vacuum glazing: An Investigation on Cost Effective Hermetic Sealing Materials & Predictions of Heat Load in a Solid Wall Dwelling. 1st International Conference on Research and Education of Energy Efficiency in Buildings. Loughborough UK Jul 2012 London South Bank University.

Scope of Concentrated Solar Power Technology in Pakistan

Memon, S (2007). Scope of Concentrated Solar Power Technology in Pakistan. 1st National Conference on Assessment & Proper Utilization of Indigenous Energy Resources and Their Impact on Environment. Sindh, Pakistan London South Bank University.

Heat load and solar gain prediction for solid wall dwellings retrofitted with triple vacuum glazing for selected window to wall area ratios

Memon, S and Eames, PC (2012). Heat load and solar gain prediction for solid wall dwellings retrofitted with triple vacuum glazing for selected window to wall area ratios. World Renewable Energy Forum. Denver, Colorado 13 - 17 May 2012 ASES.

Advancement in the Vacuum Glass Sealing Materials and Heat Load Predictions of Triple Vacuum Glazing

Memon, S and Eames, PC (2012). Advancement in the Vacuum Glass Sealing Materials and Heat Load Predictions of Triple Vacuum Glazing. 3rd Vacuum Symposium 2012. Coventry 17 - 18 Oct 2012 London, UK Institute of Physics.

An investigation on edge sealing materials for the fabrication of vacuum glazing

Memon, S and Eames, PC (2013). An investigation on edge sealing materials for the fabrication of vacuum glazing. 3rd School of Electrical, Electronic and Systems Engineering (EESE) Research conference. Loughborough, UK 22 Mar 2013 Loughborough University. https://doi.org/10.13140/RG.2.1.5106.6720

Application of vacuum technology: Vacuum insulated glazing- improving the energy efficiency of buildings

Memon, S (2014). Application of vacuum technology: Vacuum insulated glazing- improving the energy efficiency of buildings. VACUUM Group newsletter. 14 (1), pp. 18-19.

Analysing the potential of retrofitting ultra-low heat loss triple vacuum glazed windows to an existing UK solid wall dwelling

Memon, S (2014). Analysing the potential of retrofitting ultra-low heat loss triple vacuum glazed windows to an existing UK solid wall dwelling. International Journal of Renewable Energy Development (IJRED). 3 (3), pp. 161 - 174. https://doi.org/10.14710/ijred.3.3.161-174

Investigating energy saving performance interdependencies with retrofit triple vacuum glazing for use in UK dwelling with solid walls, Sustainable Development on Building and Environment

Memon, S (2015). Investigating energy saving performance interdependencies with retrofit triple vacuum glazing for use in UK dwelling with solid walls, Sustainable Development on Building and Environment. Sustainable Development on Building and Environment: Proceedings of the 7th International Conference,. Reading, UK 28 Jul 2015 London South Bank University.

Solar Energy Gain and Space-Heating Energy Supply Analyses for Solid-Wall Dwelling Retrofitted with the Experimentally Achievable U-value of Novel Triple Vacuum Glazing

Memon, S and Eames, PC (2017). Solar Energy Gain and Space-Heating Energy Supply Analyses for Solid-Wall Dwelling Retrofitted with the Experimentally Achievable U-value of Novel Triple Vacuum Glazing. Journal of Daylighting. 4 (1), pp. 15-25. https://doi.org/10.15627/jd.2017.2

Experimental measurement of hermetic edge seal's thermal conductivity for the thermal transmittance prediction of triple vacuum glazing

Memon, S (2017). Experimental measurement of hermetic edge seal's thermal conductivity for the thermal transmittance prediction of triple vacuum glazing. Case Studies in Thermal Engineering. 10, pp. 169-178. https://doi.org/10.1016/j.csite.2017.06.002

Predicting the Solar Energy and Space-heating Energy Performance for Solid-wall Detached House Retrofitted with the Composite Edge-sealed Triple Vacuum Glazing

Memon, S and Eames, PC (2017). Predicting the Solar Energy and Space-heating Energy Performance for Solid-wall Detached House Retrofitted with the Composite Edge-sealed Triple Vacuum Glazing. Energy Procedia. 122 (122), pp. 565-570. https://doi.org/10.1016/j.egypro.2017.07.419

Predicting the Solar Energy and Space-heating Energy Performance for Solid-wall Detached House Retrofitted with the Composite Edge-sealed Triple Vacuum Glazing

Memon, S (2017). Predicting the Solar Energy and Space-heating Energy Performance for Solid-wall Detached House Retrofitted with the Composite Edge-sealed Triple Vacuum Glazing. CISBAT 2017 International Conference – Future Buildings & Districts – Energy Efficiency from Nano to Urban Scale. Lausanne, Switzerland 06 - 08 Sep 2017