The MultiCon project aims to foster a paradigm shift in wind energy by developing disruptive storage solutions based on a novel Power Management System which allows monitoring and control of batteries
The aim of this project is to demonstrate that electricity can be produced from salty geothermal water at very low cost. To this purpose, we will build a full scale demonstration system and test it at
To bring the technology readiness level from 6 to 8 by implementing preventive maintenance on BOP components, optimizing control systems, incorporate a final steam clean up, introduce a more cost
The primary aim of this project and of course of the Annex is to increase the acceptance of heat pumps (as air-to-water, water-to-air, air-to-air and brine-to-water units1) for comfort purpose with
The objective of the project is to collect knowledge and experiences with building integrated photovoltaic power systems internationally and provide a comprehensive analysis and supplementary research
The objective is to investigate and evaluate the function of an office building with extremely low energy consumption for heating. The target is 15 kWh/m2/yer, which is a reduction of 70% compared to
The objective of the project is to demonstrate the basic features of the RUF concept in order to show that the RUF technology is technically feasible in such a way that the potential energy savings
The purpose of this project was to reveal the possibilities of transport of hydrogen via the existing Danish natural gas grid. The investigation only covers the distribution grid. For this purpose, a
The goal of the project was to construct and test a 10 kW CHP (5 kWe) PEM FC generator aimed for single-family households in Denmark. Two generators, each 'half size' of the project generator goal
The PEM fuel cell car will function as a laboratory where components and modules in the future can be upgraded with improved version. Danish industry gets in this way an opportunity to develop and
The project will demonstrate the concept of application of reversible fuel cells integrated into a building, with generation of hydrogen from excess electricity from nearby renewable energy systems
The aim of this project has been to improve the energy and emission model EMMA. EMMA can be run separately or in interaction with the Danish macro econometric model ADAM.