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Production process of compound phosphate feed carrier

A technology of compound phosphate and feed carrier, applied in the field of production technology of compound phosphate feed carrier, can solve the problems of unstable physical properties of compound phosphate feed carrier, unfavorable processing and production by users, no economic and environmental protection value, etc. The problem of customer supply, avoiding the uneven use of materials, and increasing the effect of product uniformity

Pending Publication Date: 2019-10-08
SHIFANG JINDIYAMEI CHEM ENG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Some elements in the feed are trace elements, and some elements are easy to absorb moisture and agglomerate. In order to mix or stir evenly with other materials, first add the ingredients and stir evenly so that the subsequent ingredients will not agglomerate or react. The added materials are called Carriers generally use compound phosphate feed carriers to mix with other materials; the process of traditional compound phosphate feed carriers is to physically mix various materials, the materials are uneven, easy to absorb moisture, and it is difficult for downstream customers to store them. The physical properties of the phosphate feed carrier are extremely unstable, and dust pollution is likely to occur during production, which has no good economic and environmental value, and is not conducive to user processing and production; in view of these defects, it is very important to design a production process for a composite phosphate feed carrier. necessary

Method used

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  • Production process of compound phosphate feed carrier

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Effect test

Embodiment 1

[0038] A compound phosphate feed carrier, the formula includes: sodium tripolyphosphate, orthophosphate, sodium hexametaphosphate, potassium carbonate, soybean protein isolate, defatted rice bran, adhesive, starch, diluent and absorbent, the composition of each component The mass percentages are: sodium tripolyphosphate 16%, orthophosphate 20%, sodium hexametaphosphate 25%, potassium carbonate 10%, soybean protein isolate 4%, defatted rice bran 10%, adhesive 3%, starch 10% %, diluent 1% and absorbent 1%.

[0039] A production process for a compound phosphate feed carrier, comprising the following steps: Step 1, raw material selection; Step 2, making compound phosphate; Step 3, making feed carrier; Step 4, mixing and processing; Step 5, drying and dehydrating; Step 6 , check storage;

[0040] Wherein in the above-mentioned step 1, according to the mass percentage content of each component, it is respectively: sodium tripolyphosphate 16%, orthophosphate 20%, sodium hexametaphos...

Embodiment 2

[0061] A compound phosphate feed carrier, the formula includes: sodium tripolyphosphate, orthophosphate, sodium hexametaphosphate, potassium carbonate, soybean protein isolate, defatted rice bran, adhesive, starch, diluent and absorbent, the composition of each component The mass percentages are: sodium tripolyphosphate 16%, orthophosphate 25%, sodium hexametaphosphate 20%, potassium carbonate 10%, soybean protein isolate 4%, defatted rice bran 10%, adhesive 3%, starch 10% %, diluent 1% and absorbent 1%.

[0062] A production process for a compound phosphate feed carrier, comprising the following steps: Step 1, raw material selection; Step 2, making compound phosphate; Step 3, making feed carrier; Step 4, mixing and processing; Step 5, drying and dehydrating; Step 6 , check storage;

[0063] Wherein in the above-mentioned step 1, according to the mass percentage content of each component, it is respectively: sodium tripolyphosphate 16%, orthophosphate 25%, sodium hexametaphos...

Embodiment 3

[0084] A compound phosphate feed carrier, the formula includes: sodium tripolyphosphate, orthophosphate, sodium hexametaphosphate, potassium carbonate, soybean protein isolate, defatted rice bran, adhesive, starch, diluent and absorbent, the composition of each component The mass percentages are: sodium tripolyphosphate 16%, orthophosphate 30%, sodium hexametaphosphate 15%, potassium carbonate 10%, soybean protein isolate 4%, defatted rice bran 10%, adhesive 3%, starch 10% %, diluent 1% and absorbent 1%.

[0085] A production process for a compound phosphate feed carrier, comprising the following steps: Step 1, raw material selection; Step 2, making compound phosphate; Step 3, making feed carrier; Step 4, mixing and processing; Step 5, drying and dehydrating; Step 6 , check storage;

[0086] Wherein the above-mentioned step 1, according to the mass percentage content of each component is respectively: sodium tripolyphosphate 16%, orthophosphate 30%, sodium hexametaphosphate 1...

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Abstract

The invention discloses a production process of a compound phosphate feed carrier. A formula is prepared from the components in percentage by mass: 15-25% of sodium tripolyphosphate, 20-30% of orthophosphate, 15-25% of sodium hexametaphosphate, 10-20% of potassium carbonate, 2-4% of soybean protein isolate, 10-20% of defatted rice bran, 1-3% of a sticking agent, 5-10% of starch, 0.5-1% of a diluent and 0.5-1% of an absorbent; and a preparation method includes the following steps that: 1, raw materials are selected; 2, composite phosphate is manufactured; 3, the feed carrier is manufactured; 4,mixing processing is conducted; 5, drying and dehydration are conducted; and 6, inspection and storage are conducted. The production process of the compound phosphate feed carrier is safe and reliable, a traditional method of multiple-material physical mixing processing is abandoned, the multiple raw materials are adopted to directly produce products through a neutralization reaction, and time and manpower are saved.

Description

technical field [0001] The invention relates to the technical field of feed carriers, in particular to a production process of a composite phosphate feed carrier. Background technique [0002] Some elements in the feed are trace elements, and some elements are easy to absorb moisture and agglomerate. In order to mix or stir evenly with other materials, first add the ingredients and stir evenly so that the subsequent ingredients will not agglomerate or react. The added materials are called Carriers generally use composite phosphate feed carriers to mix with other materials; the process of traditional composite phosphate feed carriers is to physically mix various materials, the materials are uneven, easy to absorb moisture, and it is difficult for downstream customers to store them. The physical properties of the phosphate feed carrier are extremely unstable, and dust pollution is likely to occur during production, which has no good economic and environmental value, and is not...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A23K20/147A23K10/37A23K20/163A23K20/20A23K10/12
CPCA23K20/147A23K10/37A23K20/163A23K20/20A23K10/12Y02P60/87
Inventor 陈建伟何志强苏涛
Owner SHIFANG JINDIYAMEI CHEM ENG