An intensified focus on construction's embodied climate impacts has made Danish participation in IEA EBC Annex 72 particularly relevant. With this application, funding is sought to strengthen Danish
This project aims to improve the energy efficiency of newly built and existing medium and large
sized commercial and public buildings by delivering a cost-effective IoT-enabled and Cloud-based
system
The objective of this project is to develop a Diagnostics Tool for Automatic, Smart, and Cost-effective Data Validation, Fault and Anomaly Prediction, Detection, and Diagnosis in the District Heating
Development of a super-efficient and price competitive, dedicated CO2 heat pump with air as heat source. It will be a factory built and mass-produced plug and play solution. The heat pump will use
To develop, design, calculate system integration and business cases for pit thermal storages fitting into all kind of district heating and cooling systems
We will participate in the final part of the work with task 3 under annex XV. Task 3 covers advanced methods, operation and risk aspects as well as innovative solutions for excess heat recovery.
The
Blue Atlas Robotics is developing an underwater robot that autonomously images large underwater structures, including ships and harbor quay walls, to radically improve the quantity, quality, and
The purpose of the power buoy development program is to support the green transition of the global maritime industry by eliminating and removing CO2 pollution and particle emission caused by the
LED iBond aims to develop and demonstrate a new generation of the Tracy Panel, in which the lighting structure serves as conductor for the electricity for the LEDs but also as IoT infrastructure.
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