The project resulted in five calculation programs and three technical reports downloadable from www.ipu.dk and www.elforsk.dk. The PackCalc II program calculates annual energy consumption
Based on a scan of existing design tools for energy-efficient buildings and following a number of interactive workshops with the architects’ professional network for energy and the environment
In an open, voluntary energy science centre for school children aged 10-15 – Energy X – the pupils from Bakkegårdsskolen in Gentofte Local Authority worked with self-defined projects on PV cells
The project compiled and systematised existing knowledge about electricity savings in holiday homes to identify future development areas and strategies for use of means. The project group concluded
IEA Annex 36 investigations have resulted in an easy-to-use electronic tool for retrofitting mainly of schools. The name of the tool is 'Energy concept advisor'.
Future highly insulating types of glazing introduce new perspectives for the use of glass in the architectural design of energy-efficient buildings. The project demonstrates how new types of glazing
This project wants to develop a serial of integrated design and environment strategies for the future office environment (New Ways of Working), where architectural, technological, decor and
The project was conducted as a PhD study at the DTU in cooperation with Danish foundries and a supplier of foundry machinery. A thorough experimental analysis of the flow of melts in inlet systems was
The project developed and demonstrated an air-conditioning system based on dehumidification via a heat-driven, wet sorption process and adiabatic cooling. Calculations show that (district) heat-driven
To increase the interest for individual office lighting, the project developed a prototype of a more energy-efficient office lamp meeting the DS 700 requirements for illuminance. Both readings and