Infant formula milk powder with quick bubble removal effect and production method of infant formula milk powder

A technology of infant formula and production method, which is applied in the field of infant formula milk powder production, can solve problems such as instability, thinning of bubble film, and rupture of bubble film, and achieve the effects of reducing viscosity, reducing interfacial tension, and promoting dissolution

Active Publication Date: 2019-11-19
INNER MONGOLIA YILI INDUSTRIAL GROUP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0014]2. Thinning of bubble film
[0016]3. Blister rupture
The abil

Method used

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  • Infant formula milk powder with quick bubble removal effect and production method of infant formula milk powder
  • Infant formula milk powder with quick bubble removal effect and production method of infant formula milk powder
  • Infant formula milk powder with quick bubble removal effect and production method of infant formula milk powder

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0058] The present embodiment provides a kind of production method of formula milk powder of rapid defoaming, and the oil raw material of this formula milk powder comprises 23kg soybean oil, 80kg high oleic sunflower oil, 25kg corn oil and 1kg anhydrous butter, other raw materials such as Table 1 shows. This production method comprises the steps:

[0059] (1) Normal batching in the pre-treatment section. Dissolve 20kg of phospholipid (soybean lecithin) and 10kg of soybean oil in a water bath at 70°C, add to the mixture of other oil raw materials, mix well, and then add to the feed liquid.

[0060] (2) The feed liquid is homogenized at 100 bar for the first stage and 30 bar for the second stage.

[0061] (3) Adjust the temperature of the feed liquid in the pre-concentrator to 50°C, and perform one-stage concentration, two-stage concentration, and three-stage concentration. During the three-stage concentration, the feed liquid is transported to the vacuum concentrator, and vacu...

Embodiment 2

[0064] This embodiment provides a method for producing fast defoaming formula milk powder. The oily raw materials of this formula milk powder include 50kg soybean oil, 80kg high oleic sunflower oil, 1kg anhydrous butter and 20kg corn oil. Other raw materials are as shown in the table 1. This production method comprises the steps:

[0065] (1) Normal ingredients in the pre-treatment section. Dissolve 2kg of phospholipid (soybean lecithin) and 1kg of anhydrous butter in a 65°C water bath. After mixing, add to the mixture of other oil materials. After mixing, add to the material in the liquid.

[0066] (2) The feed liquid passes through the first-stage homogenization of 110bar, and the second-stage homogeneity of 35bar.

[0067] (3) Adjust the temperature of the feed liquid in the pre-concentrator to 40°C, and perform one-stage concentration, two-stage concentration and three-stage concentration. During the three-stage concentration, the feed liquid is transported to the vacuum...

Embodiment 3

[0070] This embodiment provides a method for producing fast defoaming formula milk powder. The oily raw materials of this formula milk powder include 45kg soybean oil, 80kg high oleic sunflower oil, 1kg anhydrous butter and 25kg corn oil. Other raw materials are as shown in the table 1. This production method comprises the steps:

[0071] (1) Normal batching in the pre-treatment section. Dissolve 10kg of phospholipid (soybean lecithin) and 5kg of corn oil in a water bath at 65°C, add to the mixture of other oil materials, mix well, and then add to the feed liquid.

[0072] (2) The feed liquid passes through the first-stage homogenization of 110bar, and the second-stage homogeneity of 35bar.

[0073] (3) Adjust the temperature of the feed liquid in the pre-concentrator to 40°C, and perform one-stage concentration, two-stage concentration and three-stage concentration. During the three-stage concentration, the feed liquid is transported to the vacuum concentrator, and vacuum co...

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PUM

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Abstract

The invention provides infant formula milk powder with a quick bubble removal effect and a production method of the infant formula milk powder. The method comprises the steps as follows: dissolving phospholipid in an oil raw material, then, dispersing the oil raw material in a milk powder liquid by homogenization, and introducing compressed gas before spray drying. The invention also provides theinfant formula milk powder with the quick bubble removal effect, produced by the method. The infant formula milk powder produced by the method is dissolved by brewing, can produce a large number of large bubbles after violent shaking and contains few small bubbles. The large bubbles further fuse and break quickly and basically completely disappear within 5-30 s. Under the same condition, bubbles of ordinary infant formula milk powder still exist after being placed for 30 min.

Description

technical field [0001] The invention relates to a rapid defoaming infant formula milk powder and a production method thereof, belonging to the technical field of infant formula milk powder production. Background technique [0002] When an infant sucks milk through a feeding bottle, if there is no ventilation for a long time or the sucking speed is too fast, the pacifier will be deformed, causing the infant to no longer be able to inhale liquid. When the baby continues to suck, the air in the bottle becomes less and less, causing the pressure difference between the inside and outside of the bottle to gradually increase, making the nipple more likely to be sucked. When the air pressure in the bottle is low, the air passes through the intake at the bottom of the nipple The hole enters and is released to the space at the bottom of the bottle by the liquid in the feeding bottle, which generally produces a lot of continuous air bubbles. Part of the air bubbles enter the milk-free...

Claims

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Application Information

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IPC IPC(8): A23C9/152A23C9/16
CPCA23C9/16A23C9/1528
Inventor 刘宾孔小宇畅鹏飞苏曼
Owner INNER MONGOLIA YILI INDUSTRIAL GROUP CO LTD
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