LIBERATE

LIBERATE-project
Ημερομηνία έναρξης: 01/10/2018
Ημερομηνία λήξης: 31/12/2022

LIBERATE project will develop and demonstrate, a fully characterized continuous electrochemistry-based biorefinery system for lignin valorisation. The system will use Kraft and Organosolv lignin as feedstocks and derive vanillin, biogenic adipic acid analogues and bio-phenols which are high value and of high industrial interest.

The LIBERATE technology is based on two electrochemical approaches developed by Fraunhofer (FHG) and the Johannes Gutenberg University of Mainz (JGU). Due to the continuous process, lower heat and energy input requirements of these approaches they readily enable the integration of the process with renewable energy generators. The project includes a 12-month evaluation on a pilot line demonstrator in an industrial environment.

LIBERATE will deliver the following benefits:

  • An electrochemical depolymerisation of kraft lignin to synthesise vanillin with a 7% yield.
  • An electrochemical depolymerisation of organoslv lignin to synthesise mixed phenolic derivate oligomers with a yield of > 35%.
  • An electrochemical oxidation of bio sustainable cyclohexanol to synthesise propyl adipic acid with a yield of up to 80%.
  • A biorefinery process capable of accommodating RES fluctuations without loss in efficiency.
  • A biorefinery process that exhibits a 95% improvement in the energy efficiency of the process.
  • A biorefinery process that is capable of producing 29xtimes less CO2.

The business plan for the LIBERATE project is based on creating lower cost and more sustainable production routes for high value lignin-derived products. To achieve this, multiple routes-to-market are enabled in the LIBERATE project by the inclusion of 5 industrial end-users.

 

Press Releases

 


LIBERATE WEBINAR – Biorefineries from a chemical industry perspective

webinar

Περισσότερα έργα

ELOXYCHEM will establish a commercially relevant electrochemical oxidation process that will become a strategic development to replace existing chemical conversion processes that are heavily reliant on imported materials such as nitric acid and imported fossil-fuels such as natural gas.
SUSPENS will develop a holistic approach, from bio-sourced and recycled materials to faster and lesser energy demanding processes, to produce sustainable composite structural parts, ensuring their manufacturability from the design conceptualization.
VALUABLE will focus on the demonstration of a platform non-plant-based biomass valorisation process for the production of yeast oils as a viable substitute for fossil-based and plant-based products (such as palm oil) in applications such as cosmetics, adhesives and resins.
Ρωτήστε μας online και μάθετε περισσότερα για το πώς η Megara Resins αναπτύσσει μια βιώσιμη επιχείρηση