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
The purpose of the project is to further develop a Danish natural gas reformer system including optimisation of subsystems and the overall system consisting of a natural gas reformer and fuel cell CHP
It is the goal to increase the fundament for optimising pellet production and give relations between the quality of the pellet and the conditions during the production.
The aim of the MaxiFuels project is the pilot-scale testing and further developemnt of the 2nd generation concept for bioethanol production from lignocellulosic biomass with the production of biogas
The purpose of this project was to show that condensing flue gasses after filtration in a bag filter is an economical and environmental friendly solution for straw fired heating plants.
The opbejctive of the project has been to improve design and process stability in biogas plants. The results can be divided within the following main categories: 1) Pre-treatment, serial coupling of
Co-digestion of manure with fatty waste may improve biogas production and thus the economy of manure-based biogas plants. However, fat is potentially inhibiting for the biogas process, and biogas
The purpose of this project has been to extend the foundation module in HAWC and FLEX to be able to simulate the frequency dependent stiffness and damping of the foundations.
The project studied the transportation in a small scale pilot grid at the research centre in Hørsholm, Denmark. The test program included steel pipes from the Danish gas transmission grid and polymer
The Project is a preliminary study of the possibilities for realization of 'Wind Power Academy' on Lolland. The vision of a Wind Power Academy was made as Energi E2 decided to establish a new park of
The project objective was to optimise an LT PEM-based ìCHP and UPS system. Both IRD and Dantherm obtained significant project results. The project results regarding MEA performance, lifetime and stack
MEAs constitute the costliest key component and are also crucial to performance and lifetime of the total system. The project focused on developing basic materials and technologies for MEA improvement
The objective of the project was to study new deNOx catalysts with improved alkali resistance in relation to flue gas from biomass-fired facilities. Alkali resistance of three types of catalysts is so
Experimental investigations were conducted on two identical small-scale SI gas engine generator sets operating on biomass-produced gas from thermal wood gasification. The engines operated with two
The project was the first of a total of five phases, aimed at better understanding and modelling of the dioxin-formation mechanisms in waste-incineration plants. New insight was gained, which may
One of the main results in this project is the breakthrough in the development of 2.5G cells, which are now leading in terms of performance and stability. Moreover, increased understanding of the