When designing buildings, the combinations are endless. Therefore, designs are most often developed based on experience and rule of thumbs. By developing metamodels to characterise the most important
The growing interest for development of more renewable energy in local communities and its vicinity is supported by a new EU legislation regarding the local energy communities (CEC). At the same time
Flexible electricity prices are gradually becoming more widespread among Danish households, but what is the impact on households' electricity consumption? Will it lead to more efficient use of
To reduce CO2 emissions and take full advantage of cheap, green electricity based on renewable sources, we will further develop SmartHeat, an intelligent residential heating system, by developing a
This project develops a new type of tunnel oven and a high-temperature heat pump for an unprecedented high temperature level above 200 °C. The heat pump will use water as refrigerant, the ultimate
The project develop a new method to reduce the electricity consumption to ventilation, heating and cooling in large high ceilinged rooms by using controlled draft/mixture by mixing fans.
As part of the green transition, industrial companies need new system solutions for energy efficient process ventilation. The project develops and demonstrates new intelligent solutions for process
By adjusting flow and pressure of refrigerant lubricants in machining processes, primarily milling, this project aims to reduce energy consumption in industry while leaving workpiece geometry and
onsiderable opportunities exist for energy efficiency of vacuum systems. These possibilities can be realized through needs-adapted approaches to the systems as well as the use of energy-efficient
University of Southern Denmark (SDU) and Universal Robots (UR) expect that many companies in Denmark will implement collaborative robots over the next ten years. The electricity consumption of a
EASY-E will make it easy for companies to develop and manufacture products with optimized thermal performance and reduced energy consumption. This is achieved via Thermal Topology Optimisation and AI
The aim of EntoPower is to develop an intensive and innovative black solider fly larvae (BSFL) Heat Ventilation, Air handling and Control (HVAC) system that reduces the energy demand and ensures
To develop the future state of the art blade design in terms efficiency and low noise for fans used in commercial refrigeration including smart technology.
The project develops software tools that enhance the flexibility of large-scale heat pumps operating in integrated systems with varying operating conditions. The is approached by the development of a
Flow Loop is a retrofit shower panel that reduces energy consumption without compromising comfort and actually improves the shower experience by increasing the flow of water. The panel filters
The purpose of the project is to develop a tool for assessing the risk of legionella in domistic water installations and the assess energy and ressource consumption in the fight fagainst legionella
Udvikling af tre højtemperaturvarmepumpeteknologier med fremløbstemperaturer på op til 200 °C – hver med en varmeydelse på 500 kW. Systemerne bruger damp, kulbrinter og CO2 som kølemiddel. Udviklingen
Babcock & Wilcox Vølund’s Sulfur Recirculation technology has been demonstrated in full-scale at Måbjerg Energy Center for two years, resulting in 40% less boiler corrosion and 70% less dioxins. An
På nuværende tidspunkt er der et stort fokus på at omstille til vedvarende energi og et ønske, både politisk men også samfundsmæssigt, om at anvende grøn energi på tværs af verdens mange