Inspired by the way bioconversion of biomass takes place in nature, we have designed a concept for consolidated bioprocessing of biomass into advanced biofuels and biochemicals for oil replacement
In this project, an integrated biorefinery concept will be developed for conversion of two carefully selected (based on their sugar and amino acid composition) candidates of brown macroalgae, into
The project will demonstrate how cereal straw is effectively pretreated and co-digested with animal manures in large biogas plants. . The technology is based on mechanical compression and hydrolysis
Sustainable production promoting jobs, growth, improved environment and less pollution – new technology aims at the markets for advanced processing and supply of biomass to fuels and chemicals.
A new ceramic membrane that can desalinate seawater, can solve lack of drinking water. The ceramic membrane is robust and energy efficient and provides high-efficient filtration.
The aim of the project is to make a final energy optimization of an air staged downdraft gasification plant by measures that reduce the output of charcoal and the consequently energy loss from the
The aim of the project is to ensure a technical and economical strong commencement of the operation of a complete entire CHP biomass gasification plant. The additional feed in tariff from the ForskVE
Denmark has a large untapped potential in biogas. Biogas is a cheap renewable energy source that helps to bring down CO2 emissions and increases Denmark’s independence in energy supply. Biogas
The purpose of the project is to analyse high efficiency bio-SNG production technologies, potential available biomass and different aspects of the interaction between the bio-SNG gases and the natural
Development/demonstration of economically viable small CHP plants based on gasification and steam raising through burning of the clean gas in once through steam boilers at high steam temperatures and
The purpose of the project is to investigate the feasibility of electrochemical upgrading of biogas to pipeline quality in Denmark by means of Solid Oxide Electrolyser Cells (SOEC). Computer modelling
During the project, investigations and development has been performed, focusing on an evaluation of the overall feasibility of gasification of solid biomass in general.
In the present project was investigated how and to which extent the effluent from the biogas process has to be purified in order to recirculate this stream as process water in the MaxiFuels process
Due to difficulties in achieving data, consistency in data, and concensus on data as expected and agreed in the project outline among the project partners, the project unfortunately could not be
The objective is to synthesise and transfer to stakeholders important international knowledge and new technical information concerning conventional forestry systems for sustainable production of