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N. Bednar, A. Caviasca, P. Sevela, N. Severino, N. Adamovic:
"Modelling of Flexible Thin-Film Modules for Building and Product Integrated Photovoltaics";
Solar Energy Materials and Solar Cells, 181 (2018), S. 38 - 45.

In this work we present a simulation of performance of curved thin-film modules for building and product
integrated photovoltaic applications. Flexibility of design and possibility of achieving irregular shapes is important
feature in these markets. The photovoltaic module model presented in this work is based on a coupled
two-step model. The first 1D model describes the technology and outputs device current density in dependence
of voltage, temperature, illumination, etc. The second 3D model uses this data as one of its inputs, and describes
size, shape and interconnection of the individual cells within the curved flexible module. In this way power
production of such photovoltaic system can be assessed in reasonable time and computing resources. Two study
cases are presented: a dome shaped solar street lamp and a conic shaped active rooftop shading for a skylight.

In this work we present a simulation of performance of curved thin-film modules for building and product
integrated photovoltaic applications. Flexibility of design and possibility of achieving irregular shapes is important
feature in these markets. The photovoltaic module model presented in this work is based on a coupled
two-step model. The first 1D model describes the technology and outputs device current density in dependence
of voltage, temperature, illumination, etc. The second 3D model uses this data as one of its inputs, and describes
size, shape and interconnection of the individual cells within the curved flexible module. In this way power
production of such photovoltaic system can be assessed in reasonable time and computing resources. Two study
cases are presented: a dome shaped solar street lamp and a conic shaped active rooftop shading for a skylight.

http://dx.doi.org/10.1016/j.solmat.2017.12.035