In the ENsource research project, amongst others, new simulation, communication and optimization tools as well as energy management strategies shall be developed and then be investigated and applied in five case studies from industry, commerce and municipalities. IGTE is involved in the “Mannheim” and “Mainau” case studies and is particularly responsible for the development of sustainable heat supply concepts.
Mannheim case study
In the context of remodeling, approx. 144 hectares of the conversion area “Benjamin Franklin Village” in Mannheim shall become a role model for energy-efficient living, smart grids and sustainable mobility. The master plan for this conversion area, published by the City of Mannheim in 2014, includes high energetic building standards and a high (local) renewable energy supply, resulting in lowest possible CO2 emissions (“low emission and low energy district”).
At IGTE, several innovative heat supply concepts, with a focus on a significant percentage of solar thermal energy, are developed for the “Sullivan“ district in the Benjamin Frankling Village. Based on initially static calculations via monthly energy balances, the key figures of the developed concepts are compared with each other. Furthermore, the concepts are compared with an already existing, conventional heat supply concept. In detailed dynamic simulation calculations via the TRNSYS software, selected concepts are investigated in more detail and proposals for the design of the most important system components are made.
Mainau case study
Mainau GmbH as one of the biggest tourism and gardening companies in Baden-Württemberg pursues an energy concept of converting the whole island’s energy and heat supply completely into renewable energy sources. In the ENsource project, IGTE is involved both in analyzing the actual state and in developing concepts for optimizing the heat supply regarding its total energy efficiency, a primary energy demand reduction and the increased use of renewable energy sources.
At first, IGTE depicts the most important buildings and greenhouse facilities, supplied by the heating system, via the TRNSYS simulation software and creates thermal load profiles which are reconciled with available measurement data. TRNSYS simulations are also performed to investigate optimization proposals for the current heat supply.
Project website: http://www.ensource.de/
08/2015 - 12/2018 (Phase I)
01/2019 - 12/2020 (Phase II)
The ENsource project is funded by the Ministry of Science, Research and the Arts (MWK) of the State Baden-Württemberg and by the European Fund for Regional Development (EFRE) under grant number FEIH_ZAFH_1248932. The authors would like to sincerely thank for their support and take responsibility for this publication.