Econnect – Smart Farm(cility): electric mobility in agriculture
On behalf of John Deere, B.A.U.M. prepared several studies for the project Smart Farm(cility) within the framework of the funding programme „econnect Germany“. These studies contributed to the development of a mild hybrid tractor with an easily exchangeable Li-Ion battery. Furthermore, B.A.U.M. supported public relations work of the project. read more
edgeFLEX - Managing Future Grids with the Virtual Power Plants Concept
The EU research project edgeFLEX aims at further develop the concept of "virtual power plants" to manage a wider range of generation and storage assets. B.A.U.M. accompanies the development and fosters the project communication and dissemination of the research results. read more
ELSA – Energy Local Storage Advanced system
In cooperation with ten other industrial and research partners from five European countries, B.A.U.M. Consult developed and tested within the EU project ELSA local energy storage systems based on second-life electric vehicle batteries. read more
ENERCOM – from sewage sludge to bioenergy
In the project ENERCOM, an international consortium studied energy recovery from sewage sludge and greenery waste. As part of the consortium B.A.U.M. was in charge of the communication and dissemination of the project progress and results. The ENERCOM project was funded by the European Commission under the Seventh Framework Programme for research, technological development and demonstration. read more
ERA-Net - Harmonization of national Smart Grid strategies in Europe
On behalf of the Austrian Ministry of Transport, Innovation and Technology (BMVIT), B.A.U.M. designed and accompanied the technical exchange of national Smart Grid technology platforms and industry representatives in Europe for the design of the ERA-Net Plus Smart Grid activities in the EU research framework program Horizon 2020. read more
ESINERGY: An Interreg Danube Project
ESINERGY addresses a crucial challenge in modern energy systems: managing the imbalance between power generation and load, crucial for rising electrification and renewable energy production. The project introduces pilot approaches to reduce peak loads in electrical networks, promoting self-consumption by producers (e.g., via heat pumps, energy storage, charging stations, energy communities) to balance generation and demand. Subsequently, it enhances policy planning for peak loads through a transnational strategy, facilitating replication in other regions. read more