Germ soak water as nutrient source to improve fermentation of corn grits from modified corn dry grind process

Ankita Juneja; Deepak Kumar; Vijay Singh

doi:10.1186/s40643-017-0170-8

Bioresources and Bioprocessing ›› 2017, Vol. 4 ›› Issue (1) : 38 DOI: 10.1186/s40643-017-0170-8

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Germ soak water as nutrient source to improve fermentation of corn grits from modified corn dry grind process

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Abstract

Corn fractionation in modified dry grind processes results in low fermentation efficiency of corn grits because of nutrient deficiency. This study investigated the use of nutrient-rich water from germ soaking to improve grits fermentation in the conventional dry grind and granular starch hydrolysis (GSH) processes. Comparison of germ soak water with the use of protease and external B-vitamin addition in improving grits fermentation was conducted. Use of water from optimum soaking conditions (12 h at 30 °C) resulted in complete fermentation with 29 and 8% higher final ethanol yields compared to that of control in conventional and GSH process, respectively. Fermentation rate (4–24 h) of corn grits with germ soak water (0.492 v/v-h) was more than double than that of control (0.208 v/v-h) in case of conventional dry grind process. The soaking process also increased the oil concentration in the germ by about 36%, which would enhance its economic value.

Keywords

Ethanol / Dry grind / Granular starch hydrolysis / Yeast nutrition / Fermentation

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Ankita Juneja, Deepak Kumar, Vijay Singh. Germ soak water as nutrient source to improve fermentation of corn grits from modified corn dry grind process. Bioresources and Bioprocessing, 2017, 4(1): 38 DOI:10.1186/s40643-017-0170-8

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References

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[1]	Branduardi P, Fossati T, Sauer M, Pagani R, Mattanovich D, Porro D. Biosynthesis of vitamin C by yeast leads to increased stress resistance. PLoS ONE, 2007, 2: e1092.

[2]	Johnston DB, McAloon AJ. Protease increases fermentation rate and ethanol yield in dry-grind ethanol production. Biores Technol, 2014, 154: 18-25.

[3]	Johnston DB, McAloon AJ, Moreau RA, Hicks KB, Singh V. Composition and economic comparison of germ fractions from modified corn processing technologies. J Am Oil Chem Soc, 2005, 82: 603-608.

[4]	Kumar D, Singh V. Dry-grind processing using amylase corn and superior yeast to reduce the exogenous enzyme requirements in bioethanol productio. Biotechnol Biofuels, 2016, 9: 228.

[5]	Laser H. The effect of thiamine (vitamin B1) on fermentation of yeast. Biochem J, 1941, 35: 488.

[6]	Moreau RA, Powell MJ, Hicks KB. Extraction and quantitative analysis of oil from commercial corn fiber. J Agric Food Chem, 1996, 44: 2149-2154.

[7]	Murthy GS, Singh V, Johnston DB, Rausch KD, Tumbleson M. Evaluation and strategies to improve fermentation characteristics of modified dry-grind corn processes. Cereal Chem, 2006, 83: 455-459.

[8]	Murthy GS, Singh V, Johnston DB, Rausch KD, Tumbleson M. Improvement in fermentation characteristics of degermed ground corn by lipid supplementation. J Ind Microbiol Biotechnol, 2006, 33: 655-660.

[9]	Vidal BC Jr, Rausch KD, Tumbleson M, Singh V. Protease treatment to improve ethanol fermentation in modified dry grind corn processes. Cereal Chem, 2009, 86: 323-328.

[10]	Wang P (2008) Granular starch hydrolysis for fuel ethanol production. Dissertation, University of Illinois at Urbana-Champaign

[11]	White C (2012) Yeast nutrients make fermentations better. White Labs. http://www.jstrack.org/brewing/Yeast_nutrition_article.pdf. Accessed 15 June 2017