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Method for making high-energy high-protein feed

A high-protein feed and production method technology, which is applied to animal feed, animal feed, additional food elements, etc., can solve the problems of shortening fermentation time, unbalanced molasses mineral ratio, difficult transportation and storage of molasses, etc. The effect of increasing sugar content and low price

Active Publication Date: 2017-12-08
GUANGDONG PROVINCIAL BIOENGINEERING INST (GUANGZHOU SUGARCANE IND RES INST) +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Based on the above technical problems in the prior art, the present invention provides a method for making high-energy and high-protein feed using molasses and cassava dregs as raw materials, and solid molasses made by heating and dehydrating molasses, which solves the problems of difficult transportation and storage of molasses , add minerals to solve the imbalance of molasses mineral ratio, and add cassava dregs under high temperature molasses, so that the starch in cassava dregs gelatinizes at high temperature to form high-viscosity starch, which is adsorbed on the surface of urea solid particles together with molasses to form Strong chemical bonds enhance the binding force between particles, which is more conducive to the attachment of microorganisms to the carrier, improving the fermentation effect and shortening the fermentation time

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] A manufacturing method of high-energy and high-protein feed includes the following preparation steps:

[0032] (1) Press and dry the cassava residue to 50% moisture, and set aside;

[0033] (2) Dehydrate the molasses to a hammer degree of 85°Bx at 110°C;

[0034] (3) Add the molasses obtained in step (2) to the cassava residue according to the weight ratio of cassava residue to molasses at 10:3, mix it evenly, dry it, and cool it naturally for later use;

[0035] (4) Add urea to the mixture of step (3), the amount of urea added is 0.8 times the total weight of molasses and cassava residue, stir evenly, and set aside;

[0036] (5) Spray the material obtained in step (4) into Pichia membranacea and Bacillus subtilis, the amount of bacteria sprayed is 0.1% of the total weight of the material, and it is sealed and stored for 10 days;

[0037] (6) Dry the material in step (5) at 50°C to a moisture content of 10% for use;

[0038] (7) Mix the material obtained in step (6) with a certain ...

Embodiment 2

[0040] A manufacturing method of high-energy and high-protein feed includes the following preparation steps:

[0041] (1) Press and dry the cassava residue to 53% moisture for use;

[0042] (2) Dehydrate the molasses to a hammer degree of 88°Bx at a temperature of 110°C;

[0043] (3) According to the weight ratio of cassava residue to molasses of 7:3, add the molasses obtained in step (2) to the cassava residue, mix evenly, dry, and cool naturally for later use;

[0044] (4) Add urea to the mixture of step (3), the amount of urea added is 1.2 times the total weight of molasses and cassava residue, stir evenly, and set aside;

[0045] (5) Spray the material obtained in step (4) into Pichia membranaceus and Bacillus subtilis, the amount of bacteria sprayed is 0.3% of the total weight of the material, and it is sealed and stored for 13 days;

[0046] (6) Dry the material in step (5) at 50°C to a moisture content of 12%, for use;

[0047] (7) Mix the material obtained in step (6) with a certa...

Embodiment 3

[0049] A manufacturing method of high-energy and high-protein feed includes the following preparation steps:

[0050] (1) Press and dry the cassava residue to 65% moisture for use;

[0051] (2) Dehydrate the molasses to a hammer degree of 90°Bx at a temperature of 120°C;

[0052] (3) Add the molasses obtained in step (2) to the cassava residue according to the weight ratio of cassava residue to molasses at 1:3, mix it evenly, dry it, and cool it naturally for later use;

[0053] (4) Add urea to the mixture of step (3), the amount of urea added is 1.5 times the total weight of molasses and cassava residue, stir evenly, and set aside;

[0054] (5) Spray the material obtained in step (4) into Pichia membranaceus and Bacillus subtilis, the amount of bacteria sprayed is 0.5% of the total weight of the material, and it is sealed for 15 days;

[0055] (6) Dry the material in step (5) at 60°C to a moisture content of 15% for use;

[0056] (7) Mix the material obtained in step (6) with a certain a...

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PUM

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Abstract

The invention discloses a method for making a high-protein feed from raw materials of molasses, cassava residues and the like. The method comprises the following steps of performing heating, concentration and dehydration on molasses until a certain Brix is obtained; adding a certain quantity of cassava residues, and performing sufficient stirring; adding urea and mixed microbial strains; performing sealed fermentation for a certain time; then performing baking treatment; and finally adding a certain quantity of mineral substances and vitamins, and performing uniform mixing so as to obtain the high-energy high-protein feed. According to the method disclosed by the invention, saccharide in the molasses and the cassava residues is fully utilized, the urea is combined, and a reasonable carbon to nitrogen ratio is regulated; and through the effects of the microbial strains, non-protein nitrogen is converted into genuine protein, so that the absorptivity of animals is improved, and the prepared feed has the characteristics of being easy to digest, high in energy content, high in genuine protein content and the like.

Description

Technical field [0001] The invention belongs to the field of feed, and specifically relates to a method for preparing a high-energy and high-protein feed. Background technique [0002] Molasses is an important by-product of sugar cane sugar mills. It is a brown viscous liquid produced by squeezing sugarcane, clarified, purified, filtered, evaporated, concentrated, crystallized, and separated from sugarcane. Its output is the raw material 2.5 to 3% of sugar cane. The main feature of sugarcane molasses is its high sugar content, generally between 36% and 60%. The high sugar content determines that it is a fast-fermented energy feed, which can be fermented quickly in the rumen, and is easily utilized by microorganisms. The expansion and increase in the number of microbial flora enhance the digestive capacity of the rumen. In addition, its sweetness can mask the bad odor in the feed, thereby improving the palatability of the feed. Therefore, the use of molasses in aquaculture prod...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A23K10/18A23K10/33A23K10/37A23K20/163A23K20/174A23K20/20A23K20/26A23K50/15
CPCA23K10/18A23K10/33A23K10/37A23K20/163A23K20/174A23K20/20A23K20/26A23K50/15Y02P60/87
Inventor 蚁细苗谭文兴韦家周梁达奉莫瑞玻韦红桥吴兆鹏张宇钟映萍刘桂云卢若伟林以营
Owner GUANGDONG PROVINCIAL BIOENGINEERING INST (GUANGZHOU SUGARCANE IND RES INST)
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