The aim of the project is to reduce the energy used in gas-cleaning plants by improving the fluid dynamic flows through the plants. The project applies a combination of state-of-the-art Computational
The project is a part of the IEA SHandC Task 23 'The Optimization of Solar Energy Use in Large Buildings'. The main objective of the Task is to ensure the most appropriate use of solar energy in each
A comprehensive analysis of the considerable energy savings that may be achieved by improved basis for design and operation of systems for ventilation of schools will be useful for designers and
The aim is to make recommendations on the proper design and maintenance of installations for heating and vestilation where both energy consumption and risk of fungi growth are considered.
The emphasis of the project is on activities that can be used in the development of construction that can fulfil the stronger requirements in the coming regulation BR-2005.
The project aims at finding suitable scale resistant coatings and testing these coatings operationally and mechanically in laboratory tests and in practical installations
A method has been established for production of the anode supported thin-electrolyte cell. The anode supportis 200mum thick and made of NiO and TZ3Y by tapecasting. The electrochemically active anode
A complete concept for natural ventilation with heat recovery and solar assistance has been investigated. The concept is based on a coupled liquid heat exchanger circuit, which have the advantage that
This project is phase 1 of the Danish contribution to the international project IEA-ECBCS Annex 35: HybVent - Control Strategies for Hybrid Ventilation in New and Retrofitted Office Buildings. Annex
The aim of the project is to investigate the possibility of developing a new type of window with a slim frame construction integrated in the glazing. The total frame area should be decreased by
Forskningscenter for Elektroteknisk Energiomformning E/F (CETEC)
EFP
1998
1999
The purpose of this project is to reduce the power losses in both the horizontal and vertical the deflection circuit in TVs and other monitors. The reduction in losses is expected to be no less than
The goal of the project is to formulate alternative separation concepts that can replace the traditional water evaporation in the sugar production. The concepts consist of one or more existing or
The results of the project indicate that it will be possibel within a few years to build a highly insulated glazed building envelope. It was however not possible within the schedule of this project.
The main purpose of the present project has been to test a new type of MCFC unit developed in previous phases of the project. Various parts of the plant e.g. MCFC stack, reformer, catalytic burner