TY - JOUR
T1 - Fermentation broth components influence droplet coalescence and hinder advanced biofuel recovery during fermentation
AU - Heeres, A.S.
AU - Schroën, C.G.P.H.
AU - Heijnen, J.J.
AU - van der Wielen, L.A.M.
AU - Cuellar, M.C.
PY - 2015
Y1 - 2015
N2 - Developments in synthetic biology enabled the microbial production of long chain hydrocarbons, which can be used as advanced biofuels in aviation or transportation. Currently, these fuels are not economically competitive due to their production costs. The current process offers room for improvement: by utilizing lignocellulosic feedstock, increasing microbial yields, and using cheap-er process technology. Gravity separation is an example of the latter, for which droplet growth by coalescence is crucial. The aim of this study was to study the effect of fermentation broth compo-nents on droplet coalescence. Droplet coalescence was measured using two setups: a microflu-idic chip and regular laboratory scale stirred vessel (2 L). Some fermentation broth components had a large impact on droplet coalescence. Especially components present in hydrolysed cellulosic biomass and mannoproteins from the yeast cell wall retard coalescence. To achieve a technically feasible gravity separation that can be integrated with the fermentation, the negative effects of these components on coalescence should be minimized. This could be achieved by redesign of the fermentation medium or adjusting the fermentation conditions, aiming to minimize the release of surface active components by the microorganisms. This way, another step can be made towards economically feasible advanced biofuel production.
AB - Developments in synthetic biology enabled the microbial production of long chain hydrocarbons, which can be used as advanced biofuels in aviation or transportation. Currently, these fuels are not economically competitive due to their production costs. The current process offers room for improvement: by utilizing lignocellulosic feedstock, increasing microbial yields, and using cheap-er process technology. Gravity separation is an example of the latter, for which droplet growth by coalescence is crucial. The aim of this study was to study the effect of fermentation broth compo-nents on droplet coalescence. Droplet coalescence was measured using two setups: a microflu-idic chip and regular laboratory scale stirred vessel (2 L). Some fermentation broth components had a large impact on droplet coalescence. Especially components present in hydrolysed cellulosic biomass and mannoproteins from the yeast cell wall retard coalescence. To achieve a technically feasible gravity separation that can be integrated with the fermentation, the negative effects of these components on coalescence should be minimized. This could be achieved by redesign of the fermentation medium or adjusting the fermentation conditions, aiming to minimize the release of surface active components by the microorganisms. This way, another step can be made towards economically feasible advanced biofuel production.
KW - Advanced biofuel
KW - Coalescence
KW - Droplet stabilization
KW - Microfluidic chips
KW - Oil recovery
U2 - 10.1002/biot.201400570
DO - 10.1002/biot.201400570
M3 - Article
SN - 1860-6768
VL - 10
SP - 1206
EP - 1215
JO - Biotechnology Journal
JF - Biotechnology Journal
IS - 8
ER -