@inproceedings{36223, keywords = {Validation, Modelica, PV, Open-Source}, author = {Laura Maier and Christoph Nytsch-Geusen and Lucas Westermann and Kushagra Mathur and Michael Wetter and Dirk Muller}, title = {Comparative Study and Validation of Photovoltaic Model Formulations for the IBPSA Modelica Library based on Rooftop Measurement Data}, abstract = {
Domain-overarching system models are crucial to investigate sector coupling concepts. Specifically, the coupling of building and electrical energy systems becomes crucial to integrate renewable energy sources such as photovoltaic power systems (PV). For such interdisciplinary models, Modelica is a suitable language. However, most open-source Modelica libraries are either domain-specific or lack simple-to-parameterize PV models. We close this gap by developing a PV model for the IBPSA Modelica Library. The model comprises two I-V-characteristic models and three mounting-dependent cell temperature models. The I-V-characteristic models follow a single- and two-diodes approach. This study uses measurement data from a rooftop PV system in Berlin, Germany, for validation. The focus lies on comparing the implemented singleand two-diodes approach. Results prove that both models accurately calculate the modules’ DC power output and cell temperature.
}, year = {2023}, month = {10/2023}, language = {eng}, }