The objective is to increase access to knowledge on thermal gasification of biomass in Denmark through participation in IEA Bioenergy Task 33 on Thermal Gasification of Biomass and through
The Organic Fuel Technology (OFT) process is developed to produce bio oil from organic materials like straw or organic waste, using an innovative process based on microwave enhanced catalytic
The Hydrofaction technology is a next generation hydrothermal technology that can convert low value organic feedstocks into a cyncrude with high heating value (35-39 MJ/kg), which can be used directly
The project aims to develop a business area with-in the field of small biomass-fired cogeneration plants by
demonstration the operation of a 100 kW plant based on ORC technology. The facility must
Using an optimal combination of recent danish developments in efficient technologies for pretreatment,
enzymatic hydrolysis and of modified fermenting yeast, 2. generation bioethanol can in theory at
The aim of the proposed project is to develop reliable and efficient combustion systems based on
integration of an advanced vision-based sensor and extended grate controllability with an adequate
inte
The objective of this project is to develop a gasification technology that can utilize low quality biomasses
in the energy sector in an efficient and flexible way. This objective is achieved by
Admixing of alcohols in motor fuels can result in CO2 reductions and even better combustion, but also holds a number of technical challenges. The International Energy Agency wished to create a global
The project will compare next generation biodiesel to current biodiesel. HVO Biodiesel has superior properties compared to the traditional FAME type biodiesel produced by DAKA and Emmelev.
The project focuses on improving the gas yield from animal manure, straw and degassed fiber residues by pre-treatment. The objective is to demonstrate process stability during continuous pilot plant
RETROMAX aims to develop and demonstrate a slurry treatment technology that economically increases the amount of animal slurry/manure based feedstock to biogas plants resulting in a higher biogas
The project aims at testing the Pyroneer technology as a promising platform for improved utilization of a variety of low-value and difficult fuels from different sectors in society in order to produce
Topsoe's new methanol reactor (CONRAD) produces syngas and methanol from biomass. The project will demonstrate that CONRAD works as expected at industrial conditions and investigate how this novel
The purpose of the project is to create a sustainable systemic energy concept based on local CO2 neutral energy sources by integrating biomass based technologies and optimizing the energy flows
The aim of lEA Bioenergy Task 37 is the international collaboration and mutual exchange of research, knowledge and information between the member countries, in the area of production and utilisation
The objective is to develop a system that permits a diesel engine to run on bio-ethanol with high efficiency and low emissions. R&D in system components, catalyst as well as fuel injection and engine
The project develops and demonstrates a new biogas infrastructure consisting of 35 km biogas grid, connectiong 5 farm biogas plants with Skjern Power Supply. This is the first stage in ''Ringkøbing