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
The project co-financed Danish participation in a European partnership under the 6th framework programme to test whether gas from thermal biomass gasification can be purified sufficiently to be used
The aim of the work is to participate in the IEA Implementing Agreement on Hydrogen (IAH), in order to stimulate and co-ordinate hydrogen activities in Denmark. The work includes: 1) Participation in
The overall goal with the participation in IEA PVPS is to maintain and build upon the knowledge transfer to Denmark via the participation in the IEA PVPS work.
The aim of the project is to develop and to demonstrate integrated PV options for standard single-family houses with a high degree of industrialized production. This implies the development of an
The project co-financed Danish participation in a European partnership under the 6th framework programme to test whether gas from thermal biomass gasification can be purified sufficiently to be used
The main purposes of the project were 1) to develop new catalyst materials by applying ‘flame spray deposition’ (FSD); 2) to optimise state-of-the-art MEA materials and electrode structure; 3) to
The project developed a PV cell roof based on a modified industrial installation system for commercial nurseries. Components are non-framed PV cell modules with several novel features, including front
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
A three-dimensional chemical mapping of active plastic PV cell layers has generated new knowledge of degradation causes for PV cells. Based on the mapping, more stable PV cells were made, which in
The project will continue developing a computer model capable of predicting defect concentrations and distributions as a function of parameters during the float-zone process that produces silicon for
The project aimed to find new electrode materials for hydrogen development able to replace the costly and rare platinum normally used in PEM fuel cells. The project succeeded in demonstrating that
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