Kinetic Parameters of Saccharomyces cerevisiae Alcohols Production Using Nepenthes mirabilis Pod Digestive Fluids-Mixed Agro-Waste Hydrolysates

摘要

In this study, microbial growth kinetics and modeling of alcohols production using Saccharomyces cerevisiae were evaluated using different hydrolysates in a single pot (batch) system. Mixed agro-waste hydrolysates from different pre-treatment methods, i.e., N. mirabilis /CP and HWP/DAP/CP, were used as the sole nutrient source in the fermentations used to produce the alcohols of interest. The maximum Saccharomyces cerevisiae concentration of 1.47 CFU/mL (×10 10 ) was observed with HWP/DAP/CP hydrolysates, with a relative difference of 21.1% when compared to the N. mirabilis /CP cultures; the product yield based on biomass generation was relatively (20.2%) higher for the N. mirabilis /CP cultures. For the total residual phenolic compounds (TRPCs) generation, a relative difference (24.6%) between N. mirabilis /CP and HWP/DAP/CP pre-treatment systems was observed, suggesting that N. mirabilis /CP generates lower inhibition by-products. This was further evidenced by the lowest substrate utilization rate (3.3 × 10 ?4 g/(L·h)) for the N. mirabilis /CP cultures while achieving relatively similar product formation rates to those observed for the HWP/DAP/CP. A better correlation ( R 2 = 0.94) was obtained when predicting substrate utilization for the N. mirabilis /CP cultures. Generally, the pre-treatment of mixed agro-waste using N. mirabilis /CP seemed appropriate for producing hydrolysates which Saccharomyces cerevisiae can effectively use for alcohol production in the biorefinery industry.