TELKOMNIKA Telecommunication, Computing, Electronics and Control
Analysis of the influence of the ambient temperature on the
energy efficiency of solar modules by application of empirical correlations for natural convection
Dublin Core
Title
TELKOMNIKA Telecommunication, Computing, Electronics and Control
Analysis of the influence of the ambient temperature on the
energy efficiency of solar modules by application of empirical correlations for natural convection
Analysis of the influence of the ambient temperature on the
energy efficiency of solar modules by application of empirical correlations for natural convection
Subject
Efficiency
Inclination angle
Module
Photovoltaic
Temperature
Inclination angle
Module
Photovoltaic
Temperature
Description
In this paper, the effect of the ambient temperature on photovoltaic (PV)
modules for different angles of inclinations and different intensities of the solar
radiation on the surface of PV module is considered using empirical
correlations for natural convection. The analysis used an analytical model
based on the energy balance equilibrium between PV module and the
environment. It has been shown that in real conditions of exploitation, the
value of the solar conversion coefficient of the solar energy to be determined
by the manufacturer, valid for the standard test conditions (STC) for PV
module (25 °C -1000 W/m2
). The results obtained indicates that in the case a
smaller number of PV modules corresponding to the required number for
average household. The proposed procedure can be applied in the techno-
economic analysis for PV system with uniaxial monitoring of the sun position
as well as static PV systems.
modules for different angles of inclinations and different intensities of the solar
radiation on the surface of PV module is considered using empirical
correlations for natural convection. The analysis used an analytical model
based on the energy balance equilibrium between PV module and the
environment. It has been shown that in real conditions of exploitation, the
value of the solar conversion coefficient of the solar energy to be determined
by the manufacturer, valid for the standard test conditions (STC) for PV
module (25 °C -1000 W/m2
). The results obtained indicates that in the case a
smaller number of PV modules corresponding to the required number for
average household. The proposed procedure can be applied in the techno-
economic analysis for PV system with uniaxial monitoring of the sun position
as well as static PV systems.
Creator
Shahir Fleyeh Nawaf, Mohammad Omar Salih, Younis Nather Younis
Source
http://journal.uad.ac.id/index.php/TELKOMNIKA
Date
Oct 7, 2020
Contributor
PERI IRAWAN
Format
PDF
Language
ENGLISH
Type
TEXT
Files
Collection
Citation
Shahir Fleyeh Nawaf, Mohammad Omar Salih, Younis Nather Younis, “TELKOMNIKA Telecommunication, Computing, Electronics and Control
Analysis of the influence of the ambient temperature on the
energy efficiency of solar modules by application of empirical correlations for natural convection,” Repository Horizon University Indonesia, accessed November 21, 2024, https://repository.horizon.ac.id/items/show/3661.
Analysis of the influence of the ambient temperature on the
energy efficiency of solar modules by application of empirical correlations for natural convection,” Repository Horizon University Indonesia, accessed November 21, 2024, https://repository.horizon.ac.id/items/show/3661.