The project is testing a new type of IoT sensor technology. Today, the individual IoT sensor must be connected to power or contain batteries. New technology based on induction, makes it possible to
Investigation of the potential for optimized and reduced energy consumption via improved installation, monitoring and continuous adjustment of heat pumps in Danish homes, using IoT enabled machine
Plastic production is an energy intensive process with a high heating and cooling demand. The project will convert direct electricity use to an integrated solution, where the supplied energy is
In the project, a self-learning predictive control is developed and demonstrated that can de-liver the best possible indoor climate at minimal energy consumption. This is achieved with a digital twin
An intelligent adaptive control is being developed for heat pump-driven decentralized ventilation systems. This type of system is gaining ground on the basis of a sustainability criterion, as the
Disinfection with ultraviolet (UV) radiation is an effective but energy consuming way to control the corona pandemic. New UV-LED technology enables new applications of UV-light with potential energy
International lighting standards set important conditions when it comes to saving energy on
lighting. The project will incorporate greater attention to energy savings combined with lighting
quality in
The aim is to develop an electrified fast process for continuous heat treatment of solid foods using ohmic heating. The process is very energy efficient as the energy loss is only around 5%. In
The project shall uncover and realize potentials for energy savings on ventilation systems in public buildings using artificial intelligence on data concerning energy usage, indoor environment
In industry, despite previous efforts, there is still a large realizable potential for energy savings. With the project's developed IT software package, energy audit consultants and energy man-agers
This project focuses on synchronous re-luctance motors, and the frequency converters based on the WBG technology which both will increase the efficiency of the motor systems. The technologies are
Think if you could produce your own energy you need for your building. Heating, cooling, electricity, even for your car. Smart Home technology makes it possible to achieve this goal At the same time
High indoor temperatures in Spring and Summer, generally results in a poor indoor climate in both public/private buildings. Our project will visualize the possibility of using small renovation
Calculations have shown that using outdoor air cooling and thermal energy storage (PCM) in a two-pipe chilled beam system (developed in PSO-project 345-010) the energy demand for cooling can be
A one year measuring programme is carried out in order to document the simulated operation of a BIPVT-E pilot system (PVT-energy absorber, heat pump and battery etc.) under a realistic consumption
Common problems with larger ventilation systems include, for example, improper heat recovery, errors in air conditioning and heating, reduced fan efficiency and unnecessary pressure drop over filters
The energy key figures that are currently used in the vast majority of Danish industrial companies are so simple that they do not provide the opportunity to follow the energy consumption sufficiently
The use of IoT-based data acquisition in buildings will increase. The project will show the potential for using data for better building operation and optimized design of future buildings by using a
The energy system will soon be electric. 20% energy is used in industry. We will identify the potential for realization of an optimal approach for substitution of fossil fuels by 100% electricity. For