Energy Frames is an industrial, mass produced standard system of moving, dynamic, window screening shutter frames in different versions with composable energy saving and climate improving features
The objective was to reduce electricity consumption for cooling and ventilation by 75-80 %, thereby making it easier to comply with the more stringent energy requirements.
The project demonstrates how street lighting with integrated sensor control and decentralized communication can lower energy consumption for street lighting, at the same time as maintaining the
The project objective is to accelerate the implementation of new large (> 500 kW) high-temperature heat pumps by means of fullscale demonstration. The new heat pump solutions can produce heat at 95
The aim of this project is to demonstrate and improve on a light emitting diode (LED) luminaire for integration into professional nursery gardens. This project is a continuation of a EUDP project
The objective of the project is to reduce the energy consumption on supermarket refrigeration systems by means of improved control strategies including continuous energy monitoring and tools for
Energy retrofit of existing buildings fulfils a very important ambition in the energy policy. However, if not done properly, energy retrofit may incur a risk that the desired energy target will not be
The goal of the project is to contribute to the developing and implementation of the future industrial heatpumps. New high temperature solutions have given new opportunities’ to exploit heat waste
The project develops new innovative ventilation technical system solutions for the very large high-rise building stock. The professional perspective is primarily a breach of common thinking in a
The aim of the Energy Frames project is to develop a reasonably priced, industrial standard system of attractive, energy efficient and energy positive façade screening elements for use in combination
The project will help to position Denmark among the worlds leading countries in development of very low energy buildings. At the same time it will be possible to gain important knowledge on very low
IEA enables experts from differnet countries to work collectively and share results, which are usually published. This task dels with efficient industrial energy use and enables Danish companies to
The goal within 5 years is to implement the developing technology in street lights equivalent to 15% of the market potential created by EU Regulation 245/2009. The regulation concerns replacement of
New construction accounts for approx. only 1% of the energy consumption in the total building stock. Therefore there is a great t need for and potential by implementing comprehensive energy
The project will demonstrate the use of low-temperature (LT) district heating in two existing single-family house neighbourhoods, in Sønderby in Høje Taastrup and Tilst ved Aarhus, respectively. The
The project has developed an energy effective replacement for the controversial E27 lighting bulb, which is gradually being phased out. The replacement is going to be a LED- based lightning bulb with
The goal is to provide governments with the 'tools' to assess the performance of SSL sources with appropriate standards and test methods. 1. Quality: 1.1 Product definition categories. Key performance
This project developed the concept and basic structure of a board game on energy named ''POWERengle'' (power angel). A prototype was tested on family groups and subsequently the test was analysed. It
Incooperation with majormanufacturersandimportersare developed and testedtest methods thatcanidentifyenergy consumption,drying efficiency, etc.inprofessionaldryers.Performedtestsonmod