The objective of the project is to contribute to the development and implementation of industrial heat pumps of the future. That will take place by participating in a newly established annex under the
The goal of the project is to demonstrate a fuel cell based utility vehicle for indoor and outdoor service operations. This is linked to the clear benefits accociated with the implementation of fuel
Measurements on new and especially nearly-zero energy buildings have revealed that the energy demand often is much higher than calculated in the design phase. There is thus a need for development of
Continuing participation in international cooperation in IEA working group: ''Energy Conservation in Building and Community Systems'' ECBCS Annex 54: Micro-generation deployment in buildings. Prepare
The project aims at giving Denmark influence on the international requirements and standards for new energy-saving LED (Light Emitting Diode)-based lighting products and at ensuring that Danish
The project aims to develop and demonstrate a suction arm for process extraction based on automation and robotics technology that follows the pollution from industrial processes with lower energy
Industrial scale heat pumps have until recently been limited to maximum temperatures of 75 - 80°C and thereby limiting the implementation of high temperature heat pumps. The hybrid heat pump combines
Electrical heat pumps have great potential to obtain the announced energy and climate goals. A heat pump of around 1 MW (heating) will be installed in Ans. The project aims at a quick installation
The aim is to create cooling based on MVE. Progress: 1. Modification of MVE; 2. Elucidation of operational state. Development of: 3. Mixing module; 4. Controlling algorithm; 5. Regulating mechanism; 6
The project aims to demonstrate how intelligent LED (Light Emitting Diodes) street lighting with integrated intelligent traffic sensor for activity and traffic detection can be integrated with the
The project will develop and demonstrate a new revolutionary chiller which only uses water as refrigerant. The project will develop the technology from the laboratory level to turn-key field test
The opbjective of the project is to realize the most intelligent high-end platform seen on the market today for autonomous solar energy powered lighting application. An interactive dimensioning tool
Decanter centrifuges are used at waste water treatment plants for separating water from sludge. Our objective is in this project to establish and test a new energy efficient decanter control system
The project objective is to build and operate a scalable bioreactor to meet key goals of the Danish energy
strategy. The project will efficiently integrate renewable electricity from the power grid
The high level objective of this project is to analyze and extend the scope of lessons arising from early exemplar low-temperature district heating (supply temperature 50-55°C) schemes, in order to
Development of wireless communication based on Tag and Trace solutions, which must contribute to optimise the interaction between energy management, maintainess and resource use at the Hospital Unit
The overall objective is to enable the integration of larger amounts of distributed renewable energy sources (especially wind power) in the energy systems. The specific goal is to develop an
The project will demonstrate electricity regulation and reduction of the natural gas consumption on a natural gas fired CHP-plant. This is done by implementing a solar thermal plant in combination
The aim is to develop a compact seasonal heat storage based on a salt hydrate with stable supercooling. The heat storage can be part of a solar heating system which can fully cover the yearly heat