MegaBalance is to conduct an assessment of the potential for large scale energy storage & balancing with hydrogen in Denmark in the period 2015-2050. Focus will be on central production and conversion
Solid oxide electrolysis cells (SOECs) are a promising technology for energy storage or synthetic fuel production. The technology has a great potential as a grid modulator in the future Danish
The proposed project deals with the finalization of a computational model to simulate heat and mass transfer processes inside PEMFC that has been developed over the past years at the Aalborg
Proton exchange membrane (PEM) fuel cells will play a significant role in the energy systems of the future. The technology is in the process of being introduced into a number of early markets. The
An improved understanding of the main degradation issues of the PEM FC has been obtained. Single cells have been operated in excess of 10,000 hours, but with unacceptable high degradation rates. The
Danish participation in Task 32 will open new possibilities for international collaboration and access to the newest results within energy storage as hydrogen. Development of a new energy system in
The objective of the project (SIMBA) is to accelerate volume production of small environmentally friendly and energy efficient stationary fuel cell (FC) systems. With the help of reformers the SIMBA
The HighPEM project is to develop and test a high pressurized PEM electrolyser at a Hydrogen Refuelling Station in Denmark. Based on the results a R&D & commercialization Roadmap is to be formulated
The H2Cost project is to reduce cost of alkaline electrolyze technology and hydrogen refueling stations. New components are to be developed that are optimized with respect to cost and significantly
The purpose of this project is to analyze and to identify the need for more technological development of hydrogen technologies for these to be integrated in the future Danish Energy system. These
The project purpose is to define and demonstrate the extent to which the Danish gas distribution system can be used as infrastructure and energy storage for an energy system – fully or partly – based
Induction heating for stream reforming of methane has the potential of opening a new path for cheap hydrogen production. This project will make proof of concept to enable further commercial
Surplus of RE-power can through electrolysis be converted into hydrogen, which can be stored in the gas infrastructure. M/R stations will be tested via on-site generated hydrogen for suitability for
The project KDFuelCell is about a Korean-Danish collaboration on the development of PEM full cells. This is a very active area of research in both countries. Focus is on the central components, such
Hans Aage Hjuler (applicant) has been elected to IEA´s working group on “Advanced fuel cells: Annex 22: Polymer Electrolyte Fuel Cells”. Futher, Hans Aage Hjuler has been elected to the Scientific
The project will optimize MW electrolysis technology by developing a highly efficient power supply. The power supply will provide ancillary services in terms of power and frequency regulation for grid
The aim of the project is to exchange information on international development in the field stationary fuel cell systems for distributed generation of electricity. The insight gained is shared with
The project aims to demonstrate energy efficient production of pressurized hydrogen using pressurized solid oxide electrolyser cells. The project also examines the techno-economic potential of the
The goal of the present project was to develop new effective materials for hydrogen storage based on light elements. There are many known hydrides with higher weight percentages of hydrogen; however
The objective of the project has been to develop a compact fuel cell generator using methanol as fuel. The DMFC module will be tested as power generator for internal transport using a Mini Crosser