DIGI-PV

Digital planning and automated production of building-integrated photovoltaics

duration
Jul 01, 2023 – Jun 30, 2026
promotion

The project is funded by the Federal Ministry for Economic Affairs and Climate Action under grant no 03EE1187D. The responsibility for the content of this publication lies with the authors.

About this project 

The aim of the DIGI-PV project is to reduce barriers to the large-scale use of PV technology in order to open up significantly more facade areas for energy use, with a focus on existing buildings. The current obstacles are the complex planning processes for BIPV façades and the non-automated and therefore costintensive production of BIPV modules. For this purpose, automated processes and tools are being developed that enable planners, producers and users to implement efficient and cost-effective processes and support them along several phases of the product life cycle. These range from methods for highly automated acquisition, digitization, classification and structuring of building surfaces in existing buildings, the development of digital twins of buildings, the automated design of BIPV modules for optimal use of the building surface and methods for automated production planning and optimization for the sustainable production of PV façade elements.
Within the scope of this sub-project, the framework conditions for the automated design of the PV façades and the processes for the resulting parts lists and product details for the PV modules to be manufactured will be developed. For the production of the PV modules, the interactions between the process parameters and the properties of the cell strings and PV modules will be determined in order to enable the best possible quality, but especially short run-in times for modified processes. Adapted and flexible characterization methods and AI-based procedures for their evaluation will be developed. The developments of the project will be transferred to a flexible research line, evaluated in operation and demonstrated on a real BIPV façade.

A robot arm in a warehouse
Research line for the automated production of customized PV modules

Contact

B.Eng. Jens Eilrich

+49(0)5151-999 314

Partners

Logo albert.ing
albert.ing
Logo Viscoda
Viscoda
Logo Flachglas Sülzfeld
Flachglas Sülzfeld
Logo Institut für Montagetechnik (match)
Institut für Montagetechnik (match) - Leibniz Universität Hannover
Logo Institut für Festkörperphysik
Institut für Festkörperphysik - Leibniz Universität Hannover

Funding

Supported by: Federal Ministry of Economic Affairs and Energy on the basis of a decision by the German Bundestag