Yield modelling for micro inverter, power optimizer and string inverter under clear and partially shading shaded conditions
Publication date
2015
Editors
Advisors
Supervisors
Document Type
Part of book
Metadata
Show full item recordCollections
License
Abstract
Building Integrated and Building Attached Photovoltaic (BIPV, BAPV) systems may suffer from lower performance than predicted as a result of unwanted partial shading. New system architectures have been proposed to optimize performance. The common approach of these new architectures is to track the Maximum Power Point (MPP) of every solar module individually. A simulation model is developed to quantify the benefits and drawbacks of different PV system architectures. The model includes a shading evaluation of the installation with means of 3D modeling, irradiance calculations, PV cell modelling and finally an empirical power conversion model. The energy yield of three leading architectures is confirmed (string inverter, power optimizer, micro inverter) for clear and partial shading conditions by means of an outdoor field test. Results show that there is a clear benefit for MLPE systems at higher irradiance when partial shading is present. The analysis method can be used by PV installers and system designer to determine which is the optimal system architecture for maximum energy yield especially when partial shading is present.
Keywords
valorisation, SDG 7 - Affordable and Clean Energy
Citation
Sinapis, K, Tzikas, C, Litjens, G B M A, Donker, van den, M, Folkert, W, van Sark, W G J H M & Smets, A 2015, Yield modelling for micro inverter, power optimizer and string inverter under clear and partially shading shaded conditions. in Proceedings of the 31st European Photovoltaic Solar Energy Conference. pp. 1587-1591, 31st European Photovoltaic Solar Energy Conference, Hamburg, Germany, 1/09/15. https://doi.org/10.4229/EUPVSEC20152015-5AO.8.4, conference