Consolidated bioprocessing of lignocellulosic biomass for production of lactic acid and mixed carboxylic acids as fuel precursor

Alkanes and a-olefins are the two most important molecular families derived for use as fuels and chemicals. Social resistance can be minimised through the production of exact replacements for fossil-based fuels and chemicals.

Fiche signalétique

  • Département HESB|Haute école des sciences agronomiques,forestières et alimentaires
  • Pôle de recherche Systèmes de production agricole économes en ressources
  • Champ de recherche Production végétale
  • Organisme de financement FNS
  • Durée (prévue) 01.12.2014 - 30.11.2018
  • Responsable du projet Michael Studer
  • Direction du projet Michael Studer
  • Équipe du projet Michael Studer
    Manfred Muhr
    Xiros Charilaos
    Robert Shahab
  • Partenaires - établissements de recherche, y c. BFH EPFL
    HAFL
  • Mots-clés cellulosic biomass, enzymatic hydrolysis, carboxylic acids, biofilm, lactic acid

Contexte initial

The sub-projects encompass the two main conversion processes, as well as the sustainability assessment along the entire value chain. The Studer project focuses on the production of carboxylic acids (lactic acid, butyric acid, mixed volatile fatty acids) from lignocellulosic biomass by adapting a consolidated bioprocess employing a microbial consortium, which has been developed for cellulosic ethanol production.

But

The joint project aims to develop the technology to produce renewable alkanes and a-olefins from cellulosic biomass through subsequent biochemical and catalytic conversion processes applicable to production routes of the chemical industry.

Compétences clés

Consolidated bioprocessing, fermentation, microbiology, anaerobic microorganisms, HPLC, GC,