We have together with our development provide a solution and give the windmill owner, or the mill operator, an early warning of potentially serious errors.
The vision of this project is to develop a new wind turbine tower of steel and Ultra High Strength Concrete (UHPC). With this new technology it will be possible to produce towers of a height that
The UpsEco is a ground-breaking, new technology that provides cleaner energy with better performance at lower costs than current technologies in a wide range of applications. The objective is to
The purpose of this project is to develop a new generation of a hydrogen-fuelled PEM-fuel-cellbased micro combined heat and power (μCHP) system, to demonstrate it in an end-user community, and to
The result is the construction of a Mobile Assembly Unit, which ensures the assembly of shell towers on site in a rational and safe way. On the basis of the development work 8 Mobile Assembly Units
The objective is to develop the experimental platform needed to design stronger and more reliable wind turbine blades. This will be achieved by developing new test and measuring methods. A design
HyProvide-HRS is to conduct R&D of a hydrogen refueling systems reducing cost and increasing capacity and efficiency of 70MPa Hydrogen Refueling Stations and analyze and plan manufacturing and cost
The focus of this effort is the reduction of uncertainties in offshore wind turbine design, by complete measurement of the effects of interactions of a modern turbine structure (located on the Walney
The objective of the Light Rotor project is to develop the basis for design of wind turbine blades for use on the order of 10MW rotors with lower weight, tailored aeroelastic response and optimized
The purpose is to develop and validate computer codes related to response simulation on offshore wind turbines and their substructures. It is carried out within the framework of lEA Annex 30
The partners want to develop and demonstrate a fuel cell system for the production of electricity and heat based entirely on Danish MEA (Membrane Electrode Assembly) and stack technology. The outcome
The objective is to mature solid oxide fuel cell systems to a level where they are meeting critical user requirements for efficiency, lifetime and costs. For residential micro combined heat and power
Megavind continues to support and consolidate the stronghold of the Danish wind industry through a focused and strategic vector apporach to validation, demonstration, research and education. Megavid
Map the possible working relations between USA and DK in the hydrogen and fuel cell market. (Energy 11). For reference, a web-based information portal for Danish stakeholders that summarizes all this
The purpose is to develop residential micro combined heat and power (muCHP) systems based on solid oxide fuel cell (SOFC) technology iinto a reliable, efficient, robust, quality product that can enter
The purpose of the project is to select and validate technology concepts for the establisment of a Danish production of green synthetic fuels primarily for fuel cells
The D-CODE project aims at developing an innovative diagnostic procedure to detect Proton Exchange Membrane (PEM) fuel cell stack faults and support stack degradation level analysis. The on-line
The overall objective of the project is to develop a prototype trailing edge flap system for a wind turbine blade. From its present stage of proven functionality under laboratory conditions it is