This project explores the new idea to use hydrogen, produced with excess power from wind turbines, together with CO2 to increase and enhance production of biogas. This will make biogas production
ASHBACK explores environmental and ecological consequences of distributing ash from combustion of biomass back into nature. This will allow backloading of a larger amount of ash in an ecologically
Biochain analyzes the value chains from collection and gasification to energy production and final use of the residue of biogas production. The aim is to identify and overcome the barriers to
Torrefaction is considered worldwide as a promising key technology for boosting large-scale implementation of bioenergy. It involves heating biomass in the absence of oxygen to a temperature of 200 to
Through dynamical plant simulation and demonstration of primary control (frequency reserves) from WtE plants to the power grid is investigated from a plant techno-economic point of view. The goal is
Aalborg Universitet (Fredrik Bajers Vej)
ForskEL
2012
2015
The 2stageBiogas project will increase efficiency of the biological conversion of organic waste into biogas for combined heat and power production. The focus will be on the improvement of the
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
Gas from biomass gasifiers contains both dust and tars, and both components are serious challenges for the downstream equipment as gasturbines and catalytic reactors. This project will test