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Probiotic protein feed produced through peltate yam rhizomes and production method thereof

A probiotic protein, turmeric technology, applied in animal feed, animal feed, application and other directions, can solve the problems of environmental pollution, turmeric starch, cellulose failed to find a suitable utilization way, etc., to improve production efficiency, acid hydrolysis volume and The effect of reducing solids content, reducing emissions and pollution

Active Publication Date: 2014-01-01
麦都宠医(上海)科技发展有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, turmeric is mainly used to produce saponin, but the traditional production process of turmeric leads to environmental pollution. Many documents have improved many processes, mainly separating starch and fiber to reduce the amount of subsequent acid treatment, thereby reducing pollution, but turmeric starch, fiber Su and others have not been able to find a suitable way to use

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0027] A method utilizing turmeric to produce probiotic protein feed, comprising the steps,

[0028] 1) Separation of turmeric fiber and starch: wash and pulverize turmeric and filter to obtain fiber; divide the filtrate into three layers, the upper layer is the supernatant, the middle is the suspension, the lower layer is the starch, pour out the upper layer The clear liquid is used for later use, and the starch in the lower layer is separated and washed; preferably, fresh turmeric with a water content of 65% is used for the turmeric; specifically, the fiber is obtained by filtering with a 100-mesh filter cloth, and the filtrate is divided into three layers after standing for 6 hours.

[0029] 2) Fermentation of turmeric fiber: add wheat bran, ammonium sulfate and Tween 80 to turmeric fiber, and stir evenly to obtain a fiber mixture, then sterilize and cool to 35°C, insert Trichoderma viride, and culture at a constant temperature of 30°C for 3 days Finally, the turmeric fiber...

example 2

[0033] A method utilizing turmeric to produce probiotic protein feed, comprising the steps,

[0034] 1) Separation of turmeric fiber and starch: wash and pulverize turmeric and filter to obtain fiber; divide the filtrate into three layers, the upper layer is the supernatant, the middle is the suspension, the lower layer is the starch, pour out the upper layer The clear liquid is used for later use, and the starch in the lower layer is separated and washed; preferably, the turmeric is fresh turmeric with a water content of 66%; specifically, the fiber is obtained by filtering with an 80-mesh filter cloth, and the filtrate is divided into three layers after standing for 5 hours.

[0035]2) Fermentation of turmeric fiber: add wheat bran, ammonium sulfate and Tween 80 to the turmeric fiber, and stir evenly to obtain a fiber mixture, then sterilize and cool to 35°C, insert Trichoderma viride, and culture at a constant temperature of 30°C for 4 days Finally, the turmeric fiber slag ...

example 3

[0039] A method utilizing turmeric to produce probiotic protein feed, comprising the steps,

[0040] 1) Separation of turmeric fiber and starch: wash and pulverize turmeric and filter to obtain fiber; divide the filtrate into three layers, the upper layer is the supernatant, the middle is the suspension, the lower layer is the starch, pour out the upper layer The clear liquid is used for later use, and the starch in the lower layer is separated and washed; preferably, the turmeric is fresh turmeric with a water content of 67%; specifically, the fiber is obtained by filtering with a 90-mesh filter cloth, and the filtrate is divided into three layers after standing for 6 hours.

[0041] 2) Fermentation of turmeric fiber: add wheat bran, ammonium sulfate and Tween 80 to the turmeric fiber, and stir evenly to obtain a fiber mixture, then sterilize and cool to 40°C, insert Trichoderma viride, and culture at a constant temperature of 33°C for 3 days Finally, the turmeric fiber slag ...

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Abstract

The invention discloses a method for producing probiotic protein feed through peltate yam rhizomes. The method comprises the following steps that (1) peltate yam rhizome cellulose and starch are separated; (2) the peltate yam rhizome cellulose is fermented; (3) the peltate yam rhizome starch is liquefied and saccharified; (4) the probiotic protein feed is prepared. Firstly, the starch and the cellulose in the peltate yam rhizomes are separated through a mechanical method, the cellulose is used for solid state fermentation to obtain fibrous residues containing cellulose and mycoprotein, then a suspension solution for separation of the starch is used for subsequent extraction of saponin, supernate is added to the peltate yam rhizome starch, and circulation utilization of waste water is achieved. Peltate yam rhizome starch milk is used for cultivating probiotics after being liquefied and saccharified, the probiotics include saccharomyces boulardii and lactobacillus acidophilus, then cellulose fermentation broth and probiotic culture are completely mixed to be uniform, and the probiotic protein feed containing the cellulose is obtained. Comprehensive utilization of the starch and the cellulose in the production process of the diosgenin saponin is completely achieved, production benefits are improved, and exhaust amount and pollution are reduced largely.

Description

technical field [0001] The invention relates to a probiotic protein feed and a production method thereof, in particular to a probiotic protein feed produced by using turmeric and a method thereof. Background technique [0002] The scientific name of turmeric is Dioscorea zingiberensis.C.H.Wright, also known as Huotougen. It is used as medicine with rhizomes. It is a traditional Chinese medicinal material commonly used in my country and is known as "medicinal gold". The rhizome of turmeric is rich in diosgenin, and its hydrolyzed product is diosgenin, namely turmeric saponin. There are not many plants with high saponin content in the world, and they are mainly distributed in my country and Mexico. At present, my country's saponin export volume ranks second in the world after Mexico. [0003] In addition to saponins, turmeric also contains 40%-50% starch, 40-50% cellulose, hemicellulose and lignin, about 2% turmeric pigment, about 2% plant essence, tannic acid and other organ...

Claims

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Application Information

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IPC IPC(8): A23K1/00A23K1/16
Inventor 舒国伟陈合杨辉张璐王旭
Owner 麦都宠医(上海)科技发展有限公司
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