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The SCCER Future Energy Efficient Buildings & Districts (FEEB&D) develops new materials, components, systems and concepts which will enable the reduction of the energy demand of the Swiss building stock by a factor of five during the next decades.
Technik & Architektur
Abgeschlossen
01.01.2014 - 24.12.2016
Forschung
sccer feebd
Birrer, Edith; Picard, Cyril; Huber Mittler, Patrick; Bolliger, Daniel & Klapproth, Alexander (2017). Demand response optimized heat pump control for service sector Buildings: A Modular Framework for Simulation and Building Operation. Computer Science Research and Developement, Vol 32(Issue 1-2), 25-34. doi: 10.1007/s00450-016-0320-9
Schliessen
Kräuchi, Philipp & Kolb, Matthias (2016). Modellbildung für thermische Arealvernetzung mit IDA-ICE. Proceedings of Central European Symposium on Building Physics CESBP 2016 / BauSIM (S. 819-826). Stuttgart: Fraunhofer IRB Verlag.
Schluck, Thomas; Kräuchi, Philipp; Scartezzini, Jean-Louis & Sulzer, Matthias (2015). Non-linear thermal networks: How can a meshed network improve energy efficiency? In EPFL (Hrsg.), Proceedings of international Conference CISBAT 2015 Future Buildings and Districts (S. 779-784). Lausanne: Ecole Polytechnique Fédérale de Lausanne (EPFL).
Kräuchi, Philipp; Schluck, Thomas & Sulzer, Matthias (2015). Modelling of low temperature heating networks with IDA-ICE. In Jean-Louis Scartezzini (Hrsg.), Proceedings of CISBAT 2015 Future Buildings & Districts Sustainability from Nano to Urban Scale (S. 827-832). Lausanne: Ecole Polytechnique Fédérale de Lausanne (EPFL).
Birrer, Edith; Bolliger, Daniel; Kyburz, Rainer; Klapproth, Alexander & Summermatter, Samuel (2015). Load Shift Potential Analysis Using Various Demand Response Tariff Models on Swiss Service Sector Buildings. In Paolo Bertoldi, Andrea De Luca (Hrsg.), Proceedings of the 8th International Conference on Energy Efficiency in Domestic Appliances and Lighting (S. 1388-1402). Italy: Joint Research Centre, European Union.
Kräuchi, Philipp; Kolb, Matthias; Gautschi, Thomas; Menti, Urs-Peter & Sulzer, Matthias (2014). Modellbildung für thermische Arealvernetzung mit IDA-ICE. Proceedings of BauSIM 2014: 5th German-Austrian Conference of IBPSA (S. 160-165). Aachen: 2014 International Building Performance Simulation Association.
Sulzer, Sabine; Facchinetti, Emanuele & Schluck, Thomas (14.10.2016). Energy- and Business Modell Concept for Uettligen / Wohlen (BE). Final Meeting SCCER FEEB&D, Dübendorf.
Kräuchi, Philipp; Schluck, Thomas & Sulzer, Matthias (17.06.2015). Modelling of low temperature heating networks with IDA-ICE. Solar District Heating Conference 2015, Toulouse, France.
