Projet AlgOnFilm
Solution compétitive et durable pour réduire davantage les espèces d’azote et le phosphate des effluents de STEP à travers un biofilm photosynthétique tout en générant de l’oxygène et de la biomasse apte à la transformation en bioplastique.
Projet XYLOCLEAN
Développement de dispositifs de réduction des émissions de polluants pour installations de combustion à bois, et en particulier de celle de particules fines.
Projet XYLOCHIPS
Développement d’un dispositif de mesure en continu du contenu énergétique de plaquettes forestières.
Projet IMPROVE
In Switzerland, most of the energy related information available on the energy bills corresponds to the minimum legal requirements imposed by national regulations. The aim of the IMPROVE project was to collect and identify best practices in Swiss and foreign energy bills, to develop different energy bill’s layouts and to evaluate consumers’ and utilities’ interest to receive and implement possible enhancement to energy bills.
EcoDynBat
Ecobilan Dynamique des Bâtiments
Coordonnée par la HEIG-VD en partenariat avec l’EMPA et la SUPSI, le projet EcoDynBat vise à caractériser l’impact environnemental, par Analyse de Cycle de Vie, de la demande d’électricité au sein des bâtiments dans le temps. Il s'agit d'une approche dynamique.
RIBuild
The implementation of internal thermal insulation for historic buildings is subject to a certain risk of failure and high costs of installation but it also has a significant potential for energy savings around 15-20% of the energy consumption. The RIBuild project strengthens the knowledge on how and under what conditions internal thermal insulation is to be implemented in historic buildings, without compromising their architectural and cultural values.
SOL-IND SWISS
The aim of the Sol-Ind Swiss project was to push the deployment of solar process heat in Switzerland focussing on the heat demand at low temperature levels (<130°C) that could be covered by conventional solar thermal systems (such as flat-plate and evacuated tubes collectors).
THRIVE
Fossil fuel and electricity use for heating and cooling are major contributors to energy consumption and emissions. The THRIVE joint project studied and developed adsorption heat pump technology to harness waste heat and renewable heat in Switzerland to substitute electricity and fossil fuels.
