A starchy food waste containing mainly cooked wasted rice (WR) was exploited for bioethanol production using
novel yeast strains was investigated. Different pretreatment schemes of the waste at solids loading 10%–30% TS
WR (w/v) i.e. enzymatic, thermochemical and combined thermochemical/enzymatic pretreatment, were evaluated
aiming to the maximum liberation of fermentable carbohydrates and their subsequent bioconversion to
ethanol. Fermentation tests of the whole pretreated slurries were initially performed with the yeasts strains that
were identified as Kluyveromyces marxianus isolate V3-19, Pichia kudriavzevii strain YF1702 and K. marxianus
strain TTG-428, and their fermentation efficiencies (FE) were comparatively assessed. It was shown that the
combined pretreatment led to the maximum saccharification, whereas FEs were higher for K. marxianus, V3-19,
exceeding 90% of the theoretical maximum. In the case of the highest organic loading of WR, though, up to 25%
of soluble carbohydrates remained unexploitable after 72 h of fermentation, indicating that kinetic restrictions
occurred in the process. Further experiments with the hydrolysates that were recovered after combined pretreatment,
revealed that the removal of solids enhances the consumption of sugars and leads to complete uptake
for the loading 20% TS WR (w/v).
Research Abstract
Research Date
Research Department
Research Journal
Energy
Research Member
Research Publisher
Elsevier
Research Rank
Q1
Research Vol
281
Research Website
https://www.sciencedirect.com/science/article/pii/S0360544223016535?via%3Dihub
Research Year
2023
Research Pages
128259