Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia

Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia

Most commercial photovoltaic (PV) module data sheets include Nominal Operating Cell Temperature (NOCT) values, which assist PV system designers in estimating module temperatures under real outdoor conditions. However, the typical NOCT values of 45°C to 47°C do not account for tropical climates. This...

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Published in:Journal of Renewable Energy and Smart Grid Technology
Main Author: Zainuddin H.; Hanifah M.M.M.; Hussin M.Z.; Muhammad N.
Format: Article
Language:English
Published: Naresuan University 2024
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85214669938&doi=10.69650%2frast.2024.258005&partnerID=40&md5=169c4243df492090659c72f19e2cb255
id 2-s2.0-85214669938
spelling 2-s2.0-85214669938
Zainuddin H.; Hanifah M.M.M.; Hussin M.Z.; Muhammad N.
Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
2024
Journal of Renewable Energy and Smart Grid Technology
19
2
10.69650/rast.2024.258005
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85214669938&doi=10.69650%2frast.2024.258005&partnerID=40&md5=169c4243df492090659c72f19e2cb255
Most commercial photovoltaic (PV) module data sheets include Nominal Operating Cell Temperature (NOCT) values, which assist PV system designers in estimating module temperatures under real outdoor conditions. However, the typical NOCT values of 45°C to 47°C do not account for tropical climates. This study seeks to develop an adjusted NOCT mathematical model and determine revised NOCT values suited for tropical conditions. The new proposed NOCT model follows the international standard IEC61215 but incorporates updated tropical Standard Reference Environment (SRE) parameters: solar irradiance (SI) of 800 W/m², ambient temperature (AT) of 31°C, and wind speed (WS) of 1 m/s. This modified NOCT model demonstrates improved accuracy over the existing model, with an average reduction of 2% in percentage error, root mean square error, and mean average percentage error. Outdoor NOCT testing conducted in Shah Alam, Malaysia, uncovered much higher NOCT values for various PV modules technology: 55°C for monocrystalline, 57°C for polycrystalline, and 59°C for thin film. These results emphasize the inadequacy of current NOCT values in commercial PV module data sheets, which do not accurately reflect conditions in tropical climates. The revised NOCT values from this study offer crucial thermal reference data for PV system designers, integrators, and researchers working in tropical regions, particularly Malaysia. © 2024, Naresuan University. All rights reserved.
Naresuan University
26300036
English
Article
All Open Access; Hybrid Gold Open Access
author Zainuddin H.; Hanifah M.M.M.; Hussin M.Z.; Muhammad N.
spellingShingle Zainuddin H.; Hanifah M.M.M.; Hussin M.Z.; Muhammad N.
Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
author_facet Zainuddin H.; Hanifah M.M.M.; Hussin M.Z.; Muhammad N.
author_sort Zainuddin H.; Hanifah M.M.M.; Hussin M.Z.; Muhammad N.
title Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
title_short Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
title_full Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
title_fullStr Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
title_full_unstemmed Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
title_sort Cell Temperature Determination based on IEC61215: Solar Photovoltaic Experimental Study of Tropical Malaysia
publishDate 2024
container_title Journal of Renewable Energy and Smart Grid Technology
container_volume 19
container_issue 2
doi_str_mv 10.69650/rast.2024.258005
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85214669938&doi=10.69650%2frast.2024.258005&partnerID=40&md5=169c4243df492090659c72f19e2cb255
description Most commercial photovoltaic (PV) module data sheets include Nominal Operating Cell Temperature (NOCT) values, which assist PV system designers in estimating module temperatures under real outdoor conditions. However, the typical NOCT values of 45°C to 47°C do not account for tropical climates. This study seeks to develop an adjusted NOCT mathematical model and determine revised NOCT values suited for tropical conditions. The new proposed NOCT model follows the international standard IEC61215 but incorporates updated tropical Standard Reference Environment (SRE) parameters: solar irradiance (SI) of 800 W/m², ambient temperature (AT) of 31°C, and wind speed (WS) of 1 m/s. This modified NOCT model demonstrates improved accuracy over the existing model, with an average reduction of 2% in percentage error, root mean square error, and mean average percentage error. Outdoor NOCT testing conducted in Shah Alam, Malaysia, uncovered much higher NOCT values for various PV modules technology: 55°C for monocrystalline, 57°C for polycrystalline, and 59°C for thin film. These results emphasize the inadequacy of current NOCT values in commercial PV module data sheets, which do not accurately reflect conditions in tropical climates. The revised NOCT values from this study offer crucial thermal reference data for PV system designers, integrators, and researchers working in tropical regions, particularly Malaysia. © 2024, Naresuan University. All rights reserved.
publisher Naresuan University
issn 26300036
language English
format Article
accesstype All Open Access; Hybrid Gold Open Access
record_format scopus
collection Scopus
_version_ 1823296154524188672

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