The project developed a microbial fuel cell (MFC), capable of generating electricity by degrading the organic matter in wastewater. The bacteria absorb energy by extracting electrons and protons from
In the context of the project, new concepts were developed to produce proton-conducting polymer membrane fuel cells for use in a wide temperature interval over 100°C. The project synthesised new super
During training of two research students, the project developed new thermocleavable polymer materials for PV cells with a narrow optical band gap, allowing simple production of multilayer structures
The aim of the project Architecture and Energy is to analyse the interplay between architectural design and primary energy consumption in response to the introduction of the new Danish Energy
The Danish Technological Institute developed a prototype for a more energy-efficient HVAC system. The new regulation technology has been implemented in an Exhausto ventilation aggregate located in a
Mini bars consume up to 10 percent of the total electricity costs of a hotel. Therefore, the energy consumption of mini bars has been brought into focus in this project. The existing mini bar market
The barriers so far preventing use of sophisticated, energy-efficient lighting control were analysed and tools developed for selecting optimum system solutions for automatic lighting control in
Lab tests have shown that the need for basic ventilation in foundries can be reduced by removing flue gases as close to the source as possible. These results have subsequently been confirmed by tests
The project group developed a method to characterise the dynamic properties of solar shading in connection with the current window the project group wants to use and not just an old standard window