Center for BioOil - C3BO

Projekter: Forskning

  • Norwegian University of Science and Technology
  • Aarhus University
  • Shell Denmark
  • Steeper Energy ApS
  • Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences
  • CanmetENERGY

Beskrivelse

As fossil reserves run out, and global as well as local climate issues become very real, it is necessary to identify technologies and technology platforms that can aid in making the transition to sustainability as smooth as possible. The most rewarding sector for bio-fuel implementation is the transport sector, and more specifically for bio-crudes, aerial, marine and heavy land based transport. Hydrothermal Liquefaction represents a technology, which is feedstock insensitive, energy-, cost- and feedstock-effective, with a high potential for sustainability and product flexibility with significant drop-in fuel capabilities making it a strong contender in the field of cost-effective bio-fuel production technologies. Furthermore, its feedstock insensitivity creates a range of potential synergies with other bio-fuel platforms. This proposal aims at bringing Danish research and development in this field to the very front through setting new standards for hydrothermal liquefaction in the context of continuous processes. Furthermore, to do so in cooperation with international and industrial partners thus ensuring coherence and strategically focused research. Specifically, the proposal aims at improving fundamental understanding of feedstock composition, conversion and upgrading, set up sustainability criteria and evaluations, improve characterization and reporting methods and address performance and emission issues for end use equipment. Experimental methods, numerical methods and theory will all be applied to deliver strong results for publication and implementation.
StatusIgangværende
Effektiv start/slut dato01/01/201431/12/2018

Publikationer

Samarbejdspartnere

  • Aalborg Universitet (leder)
  • CanmetENERGY (Projektpartner)
  • Shell Denmark (Projektpartner)
  • Steeper Energy ApS (Projektpartner)
  • Aarhus University (Projektpartner)
  • Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences (Projektpartner)
  • Norwegian University of Science and Technology (Projektpartner)
  • Paul Scherrer Institut (Projektpartner)
ID: 214677017