Print Email Facebook Twitter PV Module Energy Rating Standard IEC 61853-3 Intercomparison and Best Practice Guidelines for Implementation and Validation Title PV Module Energy Rating Standard IEC 61853-3 Intercomparison and Best Practice Guidelines for Implementation and Validation Author Vogt, M.R. (TU Delft Photovoltaic Materials and Devices; Institute for Solar Energy Research Hamelin) Riechelmann, Stefan (Physikalisch-Technische Bundesanstalt) Gracia-Amillo, Ana Maria (European Commission Joint Research Centre) Driesse, Anton (Photovoltaic Performance Labs) Kokka, Alexander (Aalto University) Maham, Kinza (Aalto University) Karha, Petri (Aalto University) Kenny, Robert (European Commission Joint Research Centre) Schinke, Carsten (Institut für Solarenergieforschung in Hameln) Date 2022 Abstract The IEC 61853 standard series aims to provide a standardized measure for photovoltaic (PV) module energy rating, namely the Climate Specific Energy Rating(CSER). For this purpose, it defines procedures for the experimental determination of input data and algorithms for calculating the CSER. However, some steps leave room for interpretation regarding the specific implementation. To analyze the impact of these ambiguities, the comparability of results, and the clarity of the algorithm for calculating the CSER in Part 3 of the standard, an intercomparison is performed among research organizations with ten different implementations of the algorithm. We share the same input data, obtained by measurement of a commercial crystalline silicon PV module, among the participating organizations. Each participant then uses their individual implementations of the algorithm to calculate the resulting CSER values. The initial blind comparison reveals differences of 0.133 (14.7%) in CSER. After several comparison phases, a best practice approach is defined, which reduces the difference by a factor of 210 to below 0.001 (0.1%) in CSER for two independent PV modules. The best practice presented in this article establishes clear guidelines for the numerical treatment of the spectral correction and power matrix extrapolation, where the methods in the standard are not clearly defined. Additionally, we provide input data and results for the PV community to test their implementations of the standard's algorithm. To identify the source of the deviations, we introduce a climate data diagnostic set. Based on our experiences, we give recommendations for the future development of the standard. Subject Energy performanceenergy ratingenergy yieldIEC StandardsMathematical modelsMeteorologyphotovoltaic (PV) modulePhotovoltaic systemsPower measurementStandardsTemperature measurement To reference this document use: http://resolver.tudelft.nl/uuid:a15354db-42de-49d5-9ab1-6e85725d5192 DOI https://doi.org/10.1109/JPHOTOV.2021.3135258 ISSN 2156-3381 Source IEEE Journal of Photovoltaics, 12 (3), 844-852 Part of collection Institutional Repository Document type journal article Rights © 2022 M.R. Vogt, Stefan Riechelmann, Ana Maria Gracia-Amillo, Anton Driesse, Alexander Kokka, Kinza Maham, Petri Karha, Robert Kenny, Carsten Schinke, More Authors Files PDF IEC61853_3RR_BestPractice ... _final.pdf 816.26 KB Close viewer /islandora/object/uuid:a15354db-42de-49d5-9ab1-6e85725d5192/datastream/OBJ/view