Optimization of Yeast and Enzyme Dose for Dry-Grind Corn Fermentation Process for Ethanol Production

S. S. S. Rathore; M. R. Paulsen; V. Sharma; V. Singh

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Optimization of Yeast and Enzyme Dose for Dry-Grind Corn Fermentation Process for Ethanol Production

机译：玉米干粉发酵酒精生产中酵母菌和酶用量的优化

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Ethanol production in the dry grind ethanol industry is done by converting the starch in corn to ethanol using enzymes and yeast. This study was conducted to determine the effects of initial enzyme and yeast dose on starch-to-glucose and glucose-to-ethanol conversion, and to optimize the yeast and enzyme dose for the production of ethanol and sugar during the simultaneous saccharification and fermentation (SSF) process. The dry grind fermentation laboratory procedure was used for evaluating the effect of yeast and enzyme dose on the ethanol yield-time profile. Fermentation was performed on a yellow dent corn hybrid with three enzymes doses (80, 110, and 140 µ L) of Spirizyme glucoamylase enzyme and three yeast doses (2, 4, and 6 mL of 0.1 g dry yeast per mL of slurry). Samples were taken at 2, 4, 6, 8, 10, 12, 24, 48, and 72 h from the start of SSF. Samples were analyzed using high-pressure liquid chromatography (HPLC) and near-infrared spectroscopy for the ethanol and sugar contents. Each treatment was replicated three times. Response surface methodology (RSM) was used for studying effects of treatment on the response and optimization of the SSF process. It was found that both enzyme and yeast dose had a significant effect on the level of sugar present during the SSF process. However, only yeast dose had a significant effect on the ethanol content. Effect of treatment on the responses was also found to be dependent on the time after the fermentation. Both HPLC and NIR measurements found that time was the most significant factor affecting ethanol yield, followed by yeast dose and the interaction between time and yeast. For total soluble sugars, time, enzyme dose, yeast dose, and the interaction between yeast and enzyme dose were significant factors. Response surface analysis indicated that for the given range of yeast and enzyme dose, ethanol increases with an increase in yeast dose and a decrease in enzyme dose

机译：干磨乙醇工业中的乙醇生产是通过使用酶和酵母将玉米中的淀粉转化为乙醇来完成的。进行这项研究的目的是确定初始酶和酵母剂量对淀粉转化为葡萄糖和葡萄糖转化为乙醇的影响，并优化在同时糖化和发酵过程中生产乙醇和糖的酵母和酶剂量（ SSF）过程。干磨发酵实验室程序用于评估酵母和酶剂量对乙醇产量-时间曲线的影响。用黄色螺旋玉米杂种进行发酵，该玉米杂种具有三种酶剂量（80、110和140 µL）的螺旋藻葡糖淀粉酶和三种酵母剂量（2、4和6 mL的0.1 g干酵母/ mL浆液）。从SSF开始后的2、4、6、8、10、12、24、48和72小时取样。使用高压液相色谱（HPLC）和近红外光谱分析样品中的乙醇和糖含量。每种处理重复三次。响应面方法（RSM）用于研究处理对SSF过程响应和优化的影响。发现酶和酵母剂量对SSF过程中存在的糖水平具有显着影响。然而，仅酵母剂量对乙醇含量具有显着影响。还发现处理对反应的影响取决于发酵后的时间。 HPLC和NIR测量均发现时间是影响乙醇产量的最重要因素，其次是酵母剂量以及时间与酵母之间的相互作用。对于总可溶性糖而言，时间，酶剂量，酵母剂量以及酵母与酶剂量之间的相互作用是重要的因素。响应面分析表明，对于给定的酵母和酶剂量范围，乙醇随着酵母剂量的增加和酶剂量的减少而增加

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来源
《Transactions of the ASABE》 |2009年第3期|p.867-875|共9页
作者
S. S. S. Rathore; M. R. Paulsen; V. Sharma; V. Singh;
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作者单位

Samarth S. S. Rathore, Graduate Research Assistant, Marvin R. Paulsen, ASABE Fellow, Professor Emeritus, Vivek Sharma, former Graduate Research Assistant, and Vijay Singh, ASABE Member Engineer, Associate Professor, Department of Agricultural and Biological Engineering, University of Illinois, Urbana, Illinois. Corresponding author: Marvin R. Paulsen, Department of Agricultural and Biological Engineering, University of Illinois, 1304 W. Pennsylvania Ave;

Urbana, IL 61801;

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Dry grind ethanol; Enzyme; Near-Infrared spectroscopy; Optimization; Response Surface Methodology; Yeast;

机译：干磨乙醇酶近红外光谱;优化;响应面方法论;酵母;

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1. Optimization of yeast and enzyme dose for dry-grind corn fermentation process for ethanol production. [J] . Rathore S. S. S., Paulsen M. R., Sharma V., Transactions of the ASABE . 2009,第3期

机译：玉米干法发酵生产乙醇的酵母和酶剂量的优化。
2. Use of surfactant and enzymes in dry-grind corn ethanol fermentation improves yield of ethanol and distillers corn oil [J] . Lei Fang, Tong Wang, Buddhi Lamsal Industrial Crops and Products . 2018,第期

机译：在干式研磨玉米乙醇发酵中使用表面活性剂和酶改善乙醇和蒸馏器玉米油的产率
3. Effect of co-products of enzyme-assisted aqueous extraction of soybeans on ethanol production in dry-grind corn fermentation [J] . Sekhon Jasreen K., Jung Stephanie, Wang Tong, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2015,第Null期

机译：酶促大豆水提取副产物对玉米干磨发酵乙醇生产的影响
4. Optimization of Yeast and Enzyme Dose for Dry Grind Ethanol Plants Samarth S.S. Rathore, Graduate Research Assistant [C] . Marvin R. Paulsen, Vijay Singh Annual International Meeting of the American Society of Agricultural and Biological Engineers . 2008

机译：干式乙醇植物豆芽乙醇植物酵母和酶剂量的优化撒玛特，研究生研究助手
5. An economic study of the quick-germ technology for the dry-grind process of corn ethanol production and its effects upon the corn oil market [D] . Yoder, Edward Duane 2006

机译：玉米乙醇干磨过程快速菌种技术的经济研究及其对玉米油市场的影响
6. Dry-grind processing using amylase corn and superior yeast to reduce the exogenous enzyme requirements in bioethanol production [O] . Deepak Kumar, Vijay Singh 2016

机译：使用淀粉酶玉米和优质酵母进行干磨加工以减少生物乙醇生产中的外源酶需求
7. Use of surfactant and enzymes in dry-grind corn ethanol fermentation improves yield of ethanol and distillers corn oil [O] . Lei Fang, Tong Wang, Buddhi Lamsal 2018

机译：干式玉米乙醇发酵中的表面活性剂和酶的使用提高了乙醇和蒸馏液的产率
8. Production of Gluten and Germ by Ethanol Fermentation of Raw Corn [R] . Steinberg, M. P. 1987

机译：原料玉米乙醇发酵生产面筋和胚芽

Optimization of Yeast and Enzyme Dose for Dry-Grind Corn Fermentation Process for Ethanol Production

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