COPLASIMON brings together stakeholders from diverse industries, research institutions, and community initiatives on simulations and data monitoring tools.
Below is an overview of a mapping, divided by topic or organisation, on initiatives currently active in Europe and worldwide. Each of these topics serves as a tag, linking to detailed project descriptions.
Agrivoltaics, BDPV, MLS, Open-source, PASE, Pv systems, PVlib, Residential PV, Simulation, Software tools, Softwares
BDPV BIPV mls PASE PVLIB Residential PV
Initiative | Description | Link |
PVlib | pvlib is an open-source Python library designed for modeling and simulating the performance of photovoltaic (PV) solar energy systems. | https://pvlib-python.readthedocs.io/en/stable/index.html |
PASE | PASE (photovoltaic agrovoltaic simulation environment) is a simulation tool specifically designed for modeling and analyzing agrivoltaic systems, where solar panels are combined with agricultural activities. Agrivoltaics integrates photovoltaic (PV) systems with crop production on the same land, optimizing land use while producing renewable energy and maintaining agricultural output. | https://orbi.uliege.be/handle/2268/310262 https://gitlab.uliege.be/pase/pase_1.0 |
BDPV database and metadata of 18,000 PV systems | BDPV (Base de Données Photovoltaïque) is a French database and platform dedicated to the collection, analysis, and sharing of data related to photovoltaic (PV) solar installations in France. BDPV provides insights into the performance of solar PV systems, helping users track and optimize their solar energy production. | https://www.bdpv.fr/ https://ckan.coplasimon.eu/dataset/bdpv-18-000-pv-systems-metadata |
My Light 150 database and simulation tools | the MyLight150 partner has proposed offering their PV production data in exchange for a detailed analysis. | https://coplasimon.eu/index.php/residential-collaboration-call/ and https://coplasimon.eu/index.php/2024/09/16/elementor-2298/ |
Lusim | This demo version is designed to provide insights into the different irradiance components at the PV cell level for PV systems, allowing users to visualize these components directly within a 3D scenario for a specific timestamp or retrieve a time series for a particular cell. Users can visualize graphs and download the results for further analysis. The current demo version of LuSim offers two predefined scenarios, where users can modify parameters such as tilt and pitch. | https://coplasimon.eu/index.php/lusim-demo-teaser/ |