In the current project we introduce a novel, knowledge-based principle for the design of enzymes that effectively degrade biomass at high temperatures (over 50 C).
The vision of HiGradeGas is to overcome the barriers towards a wide-spread and
sustainable use of biogas in the Danish energy system by improving the cost
efficiency of (i) biogas upgrading and (ii)
FutureGas seeks to stimulate: an efficient and economical supply of gas - including gas based on renewable sources, an appropriate and flexible use of these gases, and an optimal integration of gas in
The overall target for this project is to develop an industrialized concept for Building Integrated Solar PV-BIPV that visualizes a number of added values, minimizes additional costs and thus paves
Power-to-gas (“P2G”) is an innovative and disruptive energy storage solution ideally suited for the Danish energy system. The P2G-BioCat Project is led by a consortium of highly qualified
The aim of the project is to work with Danish housing associations to organise sketch designs and realisation of building integration of PV solutions (BIPV). The total proposed implementation for roof
The purpose of the project is through applied research and development to demonstrate and develop a building-integratable, transparent PV module harvesting direct sunlight, acting as intelligent
The SmartMEA project aims to develop the next generation high temperature PEM electrodes for improved durability and performance working under SmartGrid conditions. Focus is on electrode optimization
To fulfill the Danish Government's ambitious plan regarding renewable energy, some technical and economical hurdles have to be cleared. A major issue is energy storage. This project will present
An energy payback time less than 1 year for a complete polymer solar cell plant is now reality. DTU, EnergiMidt and Gaia Solar are now taking the next crucial step towards sustainable reliable energy
The purpose is to secure a strong Danish representation in the international committee working with standardization through IEC TC-114. The project secures, that Denmark will be able to influence and
The purpose of the project is to analyse and develop advanced filter solutions based on combinations of passive filters and active filters in wind power plants. The use of passive filters is almost
This project will develop oxygen blown biomass gasification combined with oxygen transport membranes (OTMs) for efficient conversion of waste biomass to electrical energy. During the project, a 1st
The project will result in recommendations for integration of heat pumps in existing distribution grid, which otherwise risk to be overloaded. The recommendations will be based on analysis of
Using electric alternating gasification, wood chips can be converted to syngas, which is used to increase methane production in a biogas process. The uniquely produced gas in not diluted with nitrogen
In order to efficiently provide system services to the distribution grid, aggregators of flexible DER units require information about the topology of the grid. This information is currently not
Solid oxide fuel cells (SOFCs) are an energy conversion technology that can play a key role during the transition to 100% renewable energy in Denmark. This project aims to enhance the lifetime of
The object of the PROSOFC project is to increase the robustness of the solid oxide fuel cell technology, as this is a key challenge for bringing the technology to the consumers. To achieve this we
COORDICY is a Danish-American interdisciplinary research project that investigates how to bring down the energy usage of public and private industrial facilities.