The purpose of this project is to develop an end-to-end platform for acquiring real-time grid data and applying AI and Machine Learning algorithms with a systemwide perspective, that controls motor
Annex 89 aims to contribute to local, national and global efforts to accelerate and scale-up the transition of the building and real estate sector towards net-zero whole-life carbon (NetZ-WLC)
The purpose of the project is to enable a new highly scalable digital-based expert tool for condition-based maintenance on HVAC (Heating, Ventilation and AirCondition) and drive-line system on battery
ECA Engineering will contribute with a pilot plant for the desalination part and with process simulations for the entire value chain in order to quantify the environmental benefits that can be
The project aims to develop the first Danish-designed ultra-efficient solar-powered lamps that can be used globally. These lamps will be DarkSky compliant and will be based on a Danish-developed
The aim of the project is to develop a new membrane-based nanobubble technology for aeration of wastewater treatment plants. We want to develop the first Danish-produced nanobubble technology, which
Asphalt is mainly composed of rocks and a binder. Currently a fossil fuel-based product, bitumen, is used as binder. The purpose of this project (LOOPER) is to further develop and test a new bio-based
The KurvedCores project are improving the current core material elements which are a main element in the construction of modern wind turbine blades. The improvement of core material and its fully
LoCoMoSa aims to develop a cost-effective molten salt thermal energy storage system to supply process heat at 120-450° C. The main expected results are a medium voltage electrical heater with reduced
The objective of the project was to develop a sound basis for the decisions on Energy Performance Contracting (EPC) for ESCOs (Energy Service Companies) and building owners with respect to heating of
The objective of the project is to propose more energy efficient and environmentally friendly solutions for DHW systems in buildings and promote the use of such systems.
The main objective of this research project was to study the potential of reducing energy used for ventilating buildings by using low-polluting building materials.
The Stenløse South project is seen as a forerunner project by many (if not most) of the municipalities in Denmark and many of these has visited the site and the municiplaity or has invited
The project developed dynamic simulation models for water-based building-integrated systems (e.g. floor heating, cooling ceilings and building-integrated cooling systems) and implemented them in the
The main aim of the project has been to reduce the total energy consumption in two typical Danish typehouses to a level corresponding to the demands for low energy class 1 buildings in the building