The SkyClean technology combines biofuel production and carbon capture and storage. It is an integrated solution to three major climate change challenges on a global scale: reducing greenhouse
The objective of Sluge2Fuel is to demonstrate the world’s first full scale integration of a modular Hydro Thermal Liquefaction (HTL) unit in a modern Wastewater Treatment Plant (WWTP) and to validate
The objective of the CooCE project is to establish biotechnological processes, for converting CO2 into upgraded biofuels (biomethane) for on-site hybrid energy storage and value-added platform
The BiogasOil Project aims to articulate the advantages of the integration of biogas and bio-oil production at the same site. The BiogasOil Project includes a program of biocrude production, process
The MOSS project is a an importent step on the path to commercializin a new and very promising technology for energy storage. The pilot plant will integrate all central systems required for the
The aim of the BioLens project is to establish a new standard and platform for digital traceability of guarantees of origins on volumes traded biomethane throughout Europe.
The HyProFuel project will develop technology that converts pyrolysis oil obtained from bio-waste into renewable hydrocarbon fuels by hydrodeoxygenation (HDO) catalysis. Pyrolysis oil production from
Light tar is a significant contaminant in gas thermally produced from biomass using updraft gasifiers. This tar represents a server risk with respect to formation of deposits within the gas-driven
Utilisation of biomass and waste is generally expensive and not very efficient on small and medium scale plants. For gasification systems the main problem is the gas cleaning, where severe
Uneven char conversion and in extreme cases channels have been observed in the char bed of down draft gasifier. This might lead to a reduced efficiency of the gasifier.
The aim of the project was to optimize the biogas process of high ratios of the organic fraction of municipal solid waste (OFMSW) in co-digestion with manure. Optimization was aimed with regard to
Microbiologically induced corrosion (MIC) in district heating systems is a well-known phenomenon, which to a large extend has been associated with sulphate-reduging bacteria (SRB). Detection of these
The goal of the project is to collect, promote, and communicate the knowledge of pyrolysis and related thermal conversion processes for production of fuels and chemicals from biomass.