Combining Identification and Translation Methods of the Single-Diode Model to Compute the Average Temperature of Photovoltaic Modules From the Open-Circuit Voltage

“…Recent literature present methods to compute the cell temperature based on measurements at the output of PV modules. For instance, [35] proposes an application of the translation method presented in [38] to compute the average temperature of PV modules, straightforwardly, from the open-circuit voltage (V oc ) and solar irradiance (G), using Equation 3. Such a method can be applied outdoors, when the module is not operating.…”

“…The studies [34,35] considered simulation and experiments limited to few points. The present study focuses on the application of such methods on experimental cases considering a much larger data amount, aiming to determine the relative mean absolute error (nMAE) and root mean square error (nRMSE) associated with each method.…”

“…This paper presents the equations regarding methods [34,35], as well as data referring to the PV modules and the measurement system of the DURASOL platform [39], from which a large dataset has been obtained. Such data contain electrical measurements of the modules, as well as the corresponding measurements of G and T c .…”

“…The modules are installed in a coastal environment subject to salt spray, and there is no cleaning regime. This section presents the procedures for the experimental application of methods [34,35], applied to the DURASOL data, referring to four 245 W Tenesol PV modules.…”

“…Our objective is to apply two methods [34,35], which are briefly described in the following section, that are able to measure the solar irradiance and the PV cell temperature of a PV system. They are easy to implement; [34] depends on I mpp and V mpp , thus does not require interruption of the electrical production, whereas [35] can be used for modules which are not operating, since it is based on V oc measurements.…”

Experimental Application of Methods to Compute Solar Irradiance and Cell Temperature of Photovoltaic Modules

“…Recent literature present methods to compute the cell temperature based on measurements at the output of PV modules. For instance, [35] proposes an application of the translation method presented in [38] to compute the average temperature of PV modules, straightforwardly, from the open-circuit voltage (V oc ) and solar irradiance (G), using Equation 3. Such a method can be applied outdoors, when the module is not operating.…”

“…The studies [34,35] considered simulation and experiments limited to few points. The present study focuses on the application of such methods on experimental cases considering a much larger data amount, aiming to determine the relative mean absolute error (nMAE) and root mean square error (nRMSE) associated with each method.…”

“…This paper presents the equations regarding methods [34,35], as well as data referring to the PV modules and the measurement system of the DURASOL platform [39], from which a large dataset has been obtained. Such data contain electrical measurements of the modules, as well as the corresponding measurements of G and T c .…”

“…The modules are installed in a coastal environment subject to salt spray, and there is no cleaning regime. This section presents the procedures for the experimental application of methods [34,35], applied to the DURASOL data, referring to four 245 W Tenesol PV modules.…”

“…Our objective is to apply two methods [34,35], which are briefly described in the following section, that are able to measure the solar irradiance and the PV cell temperature of a PV system. They are easy to implement; [34] depends on I mpp and V mpp , thus does not require interruption of the electrical production, whereas [35] can be used for modules which are not operating, since it is based on V oc measurements.…”

Experimental Application of Methods to Compute Solar Irradiance and Cell Temperature of Photovoltaic Modules

A comparative study on thermal performance of a 3-D model based solar photovoltaic panel through finite element analysis

Estimating parameters of photovoltaic modules based on current–voltage characteristics at operating conditions