Statistical optimization of factors affecting biohydrogen production from xylose fermentation using inhibited mixed anaerobic cultures

“…Similar patterns have been observed by Chaganti et al (2012), who reported a decrease in hydrogen yield from 1.6 to 0.3 mol -1 xylose when the pH dropped from 7.6 to 5.0. A decrease in pH has caused acidogenic processes to shift to solventogenic processes, thus producing mostly acetone, butanol, and ethanol, which inhibit hydrogen production (Khanal et al 2004).…”

“…"Biohydrogen from leaves," BioResources 12(1), 2015-2030. 2022 Chaganti et al (2012) obtained an optimal hydrogen yield of 2.4 mol/mol xylose with an inoculum concentration of 1800 VSS (mg/L) and a lower hydrogen yield (1.6 mol H2/mol xylose) with an inoculum concentration of 1000 VSS (mg/L), thus suggesting that a 44% reduction in inoculum concertation led to a 50% increase in hydrogen yield. Figure 2b illustrates that by increasing the HRT from 24 to 65 h, while maintaining the substrate concentration at 14 g/L, it was possible to enhance the hydrogen yield from 6.6 to 12.51 mL H2 g -1 FS.…”

“…Higher significance is inferred with larger F-values and smaller p-values (Chaganti et al 2012). The quadratic model fit was significant given the F-value and p-value of 7.46 and 0.0074, respectively.…”

“…The quadratic model fit was significant given the F-value and p-value of 7.46 and 0.0074, respectively. A large F-value indicates that the aggression equation can account for the regression equation (Chaganti et al 2012). The coefficient of determination (R 2 ) was 0.90, thereby inferring the model's ability to explain 90% of the variations in the data.…”

“…Response surface methodology (RSM) uses polynomial equations to model the relationships between input variables and response outputs (Pan et al 2008). It has been reported in the optimization of various bioprocesses (Pan et al 2008;Chaganti et al 2012;Faloye et al 2013). The present study modeled and optimized the physico-chemical input parameters of the substrate concentration, inoculum concentration, and hydraulic retention time for biohydrogen production from waste sugarcane leaves.…”

Optimization of Operational Parameters for Biohydrogen Production from Waste Sugarcane Leaves and Semi-Pilot Scale Process Assessment

“…Similar patterns have been observed by Chaganti et al (2012), who reported a decrease in hydrogen yield from 1.6 to 0.3 mol -1 xylose when the pH dropped from 7.6 to 5.0. A decrease in pH has caused acidogenic processes to shift to solventogenic processes, thus producing mostly acetone, butanol, and ethanol, which inhibit hydrogen production (Khanal et al 2004).…”

“…"Biohydrogen from leaves," BioResources 12(1), 2015-2030. 2022 Chaganti et al (2012) obtained an optimal hydrogen yield of 2.4 mol/mol xylose with an inoculum concentration of 1800 VSS (mg/L) and a lower hydrogen yield (1.6 mol H2/mol xylose) with an inoculum concentration of 1000 VSS (mg/L), thus suggesting that a 44% reduction in inoculum concertation led to a 50% increase in hydrogen yield. Figure 2b illustrates that by increasing the HRT from 24 to 65 h, while maintaining the substrate concentration at 14 g/L, it was possible to enhance the hydrogen yield from 6.6 to 12.51 mL H2 g -1 FS.…”

“…Higher significance is inferred with larger F-values and smaller p-values (Chaganti et al 2012). The quadratic model fit was significant given the F-value and p-value of 7.46 and 0.0074, respectively.…”

“…The quadratic model fit was significant given the F-value and p-value of 7.46 and 0.0074, respectively. A large F-value indicates that the aggression equation can account for the regression equation (Chaganti et al 2012). The coefficient of determination (R 2 ) was 0.90, thereby inferring the model's ability to explain 90% of the variations in the data.…”

“…Response surface methodology (RSM) uses polynomial equations to model the relationships between input variables and response outputs (Pan et al 2008). It has been reported in the optimization of various bioprocesses (Pan et al 2008;Chaganti et al 2012;Faloye et al 2013). The present study modeled and optimized the physico-chemical input parameters of the substrate concentration, inoculum concentration, and hydraulic retention time for biohydrogen production from waste sugarcane leaves.…”

Optimization of Operational Parameters for Biohydrogen Production from Waste Sugarcane Leaves and Semi-Pilot Scale Process Assessment

Sustainable production of biofuels using different microbial consortia: the state of the art

Screening of Medium with Different Range of Waste Frying Oil (WFO), Sodium Nitrate (NaNO3) and Sodium Chloride (NaCl) for Biosurfactant Production by Thermophilic Anoxybacillus sp. Using Fractional Factorial Design (FFD)