The project will develop a new combined heating/cooling system that efficiently and continuously produces hot and/or cold water with up to 30 % larger efficiency that conventional heat pump and
The objective of a new IEA e-ships Task, is to strengthen focus on this climate friendly technology with global perspectives and to ensure that Danish knowledge is in the absolute forefront.
The purpose of this project is to develop and demonstrate a competitive façade system with solar
cells integrated, which can be applied both for new buildings as outer surface and as outer surface
of
The NeGeV project’s objective is to develop the next generation of HVAC, offering a technological quantum
leap in HVAC solutions, demonstrating:
- an innovative, cost-effective and scalable solution
The aim is to make monitoring in-use buildings to obtain reliable quality checks of their performance and be able to extract important information from in-use sensor data, which can in turn be used
Demonstration of a new prototype of thermostats from Danfoss special designed to accommodate a low return temperature from the radiators without comprising the thermal comfort in buildings and create
The project aims to develop, test and demonstrate a box to control air/water and air/air heat pumps to be fitted to an existing residential gas installation to provide additional flexibility in
The project is focused on the Danish participation in the international exchange in the International Energy Agency Programme on industrial energy technology and systems. This will allow Danish
The project is related to Danish representation in the executive committee for IEA Technology
Collaboration Program “Energy in Buildings and Communities (EBC)”.
The aim of this project is to demonstrate that electricity can be produced from salty geothermal water at very low cost. To this purpose, we will build a full scale demonstration system and test it at
The primary aim of this project and of course of the Annex is to increase the acceptance of heat pumps (as air-to-water, water-to-air, air-to-air and brine-to-water units1) for comfort purpose with
This project forms the Danish participation in an international IEA working group, which scope was to gather and process monitoring results from 15 low energy houses designed and build during the IEA
The project is concluded with an assessment as to whether Denmark should participate activily in IEA TASK 25, Solar Assisted Air. Conditioning of Buildings. The recommendation is that Denmark should
Forskningscenter for Elektroteknisk Energiomformning E/F (CETEC)
EFP
1999
2003
The project will contribute to an increase in the application of energy saving power electronic systems, which is obtained by the following means: 1) integration / miniaturization; 2) low total costs
Background: 1) Flow friendly silencer and diesel particulate filter technology. 2) Lower back pressure related to market demands regarding attenuation, emission control and space requirements. 3)
The process in an expansion valve implies energy losses, as the change of conditions is only an isenthalpic process, whereas an isentropic change of pressure would result in increased refrigeration
The purpose of the project is to implement, test and verify a calorimetric measuring system for accurate measurement of power losses in the range of 30 to 1500 W, enabling measuring of rotating
In industry separation processes use at least half of the available thermodynamic work. Hence development of alternative technologies, which are e.g. 20% more efficient, could reduce the industrial