Towards a Better Sunlight to Biomass Conversion Efficiency in Microalgae (SUNBIOPATH)

Grunddaten zu diesem Projekt

Art des ProjektesEU-Projekt koordiniert außerhalb der Universität Münster
Laufzeit an der Universität Münster01.01.2010 - 31.12.2012

Beschreibung

SUNBIOPATH - towards a better sunlight to biomass conversion efficiency in microalgae - is an integrated program of research aimed at improving biomass yields and valorisation of biomass for two Chlorophycean photosynthetic microalgae, Chlamydomonas reinhardtii and Dunaliella salina. Biomass yields will be improved at the level of primary processes that occur in the chloroplasts (photochemistry and sunlight capture by the light harvesting complexes) and in the cell (biochemical pathways and signalling mechanisms that influence ATP synthesis).Optimal growth of the engineered microalgae will be determined in photobioreactors, and biomass yields will be tested using a scale up approach in photobioreactors of different sizes (up to 250 L), some of which being designed and built during SUNBIOPATH. Biomethane production will be evaluated. Compared to other biofuels, biomethane is attractive because the yield of biomass to fuel conversion is higher. Valorisation of biomass will also be achieved through the production of biologicals. Significant progress has been made in the development of chloroplast genetic engineering in microalgae such as Chlamydomonas, however the commercial exploitation of this technology still requires additional research.SUNBIOPATH will address the problem of maximising transgenic expression in the chloroplast and will develop a robust system for chloroplast metabolic engineering by developing methodologies such as inducible expression and trans-operon expression. A techno economic analysis will be made to evaluate the feasibility of using these algae for the purposes proposed (biologicals production in the chloroplast and/or biomethane production) taking into account their role in CO2 mitigation.

Stichwörterbiomass; photosynthesis; CO2 mitigation
Förderkennzeichen245070
Mittelgeber / Förderformat
  • EU FP 7 - Small or medium-scale focused research project

Projektleitung der Universität Münster

Hippler, Michael
Plant Biochemistry and Biotechnology (AG Prof. Hippler)

Antragsteller*innen der Universität Münster

Hippler, Michael
Plant Biochemistry and Biotechnology (AG Prof. Hippler)

Koordinierende Organisationen außerhalb der Universität Münster

  • Universite De Liege (ULG)Belgien