K. Aziz Ketuly’s scientific contributions

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Publications (1)


Figure 1: Effects of the temperatures and the heating times on hydrolysis (the first stage), where X is xylose and G is glucose
Table 1 : Effects of HClO 4 concentrations on hydrolysis at 100 • C and for 60 min
Table 2 : Effects of heating time on the hydrolysis of wheat straw residual using 35 % HClO 4 at 100 • C
Figure 6: Effect of incubation time on the ethanol production using mono-culture (Baker's yeast) an co-culture Baker's yeast and P. stipites
Figure 4: Effects of the hydrolysate concentrating and detoxification on the amount of sugars, where B.C. if before concentrating A.C. is after concentrating, B.D. is before detoxification and A.D. is after detoxification  
Production of Biocellulosic Ethanol from Wheat Straw
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January 2012

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1,260 Reads

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13 Citations

Acta Polytechnica

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R. Rasul Braim

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K. Aziz Ketuly

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Zainudin Arifin

Wheat straw is an abundant lignocellulosic feedstock in many parts of the world, and has been selected for producing ethanol in an economically feasible manner. It contains a mixture of sugars (hexoses and pentoses). Two-stage acid hydrolysis was carried out with concentrates of perchloric acid, using wheat straw. The hydrolysate was concentrated by vacuum evaporation to increase the concentration of fermentable sugars, and was detoxified by over-liming to decrease the concentration of fermentation inhibitors. After two-stage acid hydrolysis, the sugars and the inhibitors were measured. The ethanol yields obtained from by converting hexoses and pentoses in the hydrolysate with the co-culture of Saccharomyces cerevisiae and Pichia stipites were higher than the ethanol yields produced with a monoculture of S. cerevisiae. Various conditions for hysdrolysis and fermentation were investigated. The ethanol concentration was 11.42 g/l in 42 h of incubation, with a yield of 0.475 g/g, productivity of 0.272 g/l ·h, and fermentation efficiency of 92.955 %, using a co-culture of Saccharomyces cerevisiae and Pichia stipites.

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... The highest ethanol production was obtained by using co-culture compared to monoculture, i.e., 11.42 g/L of ethanol with a yield of 0.475 g/g, the productivity of 0.272 g/L. Their study concluded that two-stage hydrolysis and utilization of co-culture were efficient methods for the enhanced production of ethanol (Ali et al., 2012). In the same way, Smuga-Kogut et al., reported that the removal of lignin by pretreating wheat straw increased the ethanol yield significantly using S. cerevisiae. ...

Reference:

Transformation of Lignocellulosic Biomass into Sustainable Biofuels: Major Challenges and Bioprocessing Technologies
Production of Biocellulosic Ethanol from Wheat Straw

Acta Polytechnica