CN111358762A - Astaxanthin microcapsule embedding process - Google Patents

Abstract

The invention relates to an astaxanthin microcapsule embedding process, which comprises the following operation steps: s1, selecting water phase wall materials and oil phase contents; s2, mixing: mixing according to the proportion; s3, high-pressure ultrasonic treatment, homogenizing and emulsifying: the mixture is subjected to high-speed shearing, high-speed convection impact and high-frequency oscillation in a high-pressure ultrasonic homogenizing cavity, and the astaxanthin oil enables molecular bonds of a water phase and an oil phase to be tightly combined to form uniform mixed liquid drops under the action of a surfactant; s4, embedding, granulating and drying: forming water-phase cavity bubbles among the mixed droplets, and instantly drying by spraying to form oil-in-water O/W astaxanthin microcapsule powder; s5, carrying out material receiving detection in the clean area; and S6, subpackaging and warehousing. The astaxanthin microcapsule embedding technology and the process greatly improve the water solubility, improve the bioavailability and obviously improve the embedding rate of the astaxanthin microcapsule powder.

Description

Astaxanthin microcapsule embedding process

Technical Field

The invention relates to the technical field of embedding processes, in particular to an astaxanthin microcapsule embedding process.

Background

Astaxanthin is a natural, nontoxic, bright-colored carotenoid with high biological activity, the oxidation resistance of the astaxanthin is 10 times that of β -carotene and 500 times that of vitamin E, and is called super vitamin E.

The astaxanthin microcapsule powder produced by the astaxanthin microcapsule embedding technology in the prior art is poor in water solubility, not easy to absorb and low in bioavailability, and meanwhile, the astaxanthin microcapsule powder produced by the astaxanthin microcapsule embedding technology is low in embedding rate, easy to be oxidized and decomposed when meeting air and illumination and short in quality guarantee period, so that the problems are urgently solved.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects of the prior art and provides an astaxanthin microcapsule embedding process.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: an astaxanthin microencapsulation process, which comprises the following operation steps:

selection of S1, aqueous phase wall material and oil phase content: selecting a proper water phase wall material, selecting a surfactant in an oil phase content, and selecting heat-sensitive, easily-oxidized or easily-volatilized astaxanthin oil;

s2, mixing: mixing according to the proportion;

s3, high-pressure ultrasonic homogenizing and emulsifying: the mixture is subjected to high-speed shearing, high-speed convection impact and high-frequency oscillation in a high-pressure ultrasonic homogenizing cavity, and the astaxanthin oil enables molecular bonds of a water phase and an oil phase to be tightly combined to form uniform mixed liquid drops under the action of a surfactant;

s4, embedding, granulating and drying: forming water-phase cavity bubbles among the mixed droplets, and instantly drying by spraying to form oil-in-water O/W astaxanthin microcapsule powder;

s5, carrying out material receiving detection in the clean area;

and S6, finishing packaging.

In the step S1, the aqueous phase wall material is one or more of β cyclodextrin, maltooligosaccharide and modified starch.

As a modification, the oil phase content in step S1 includes astaxanthin oil and a surfactant.

As an improvement, the ratio in the step S2 is the ratio of the water phase to the oil phase: 1: 0.2-0.4.

As a modification, the high-pressure ultrasonic homogeneous emulsification in the step S3 adopts 25000 and 35000PSi as pressure and 50-60kHz as frequency.

As a modification, the microencapsulation embedding temperature in the step S4 is controlled at an instantaneous temperature of 160-200 ℃.

As a modification, the particle size of the astaxanthin microcapsule powder formed in the step S4 is 50-60 microns.

The invention has the following advantages:

1. the astaxanthin microcapsule embedding technology and process greatly improve water solubility and bioavailability.

2. The embedding rate of the astaxanthin microcapsule powder produced by the astaxanthin microcapsule embedding technology and technology is obviously improved, and the quality guarantee period is prolonged from 3-6 months to 24 months.

Detailed Description

The present invention will be described in further detail with reference to examples.

Example 1

In the specific implementation of the invention, the operation steps of the astaxanthin microcapsule embedding process comprise:

s1, selecting a water phase wall material and an oil phase content, wherein the water phase wall material is a combination of β cyclodextrin, malto-oligosaccharide and modified starch, and the oil phase content comprises astaxanthin oil and a surfactant;

s2, mixing: according to the proportion, the proportion of the water phase and the oil phase is as follows: 1: 0.4, mixing;

s3, high-pressure ultrasonic homogenizing and emulsifying: the mixture is subjected to high-speed shearing, high-speed convection impact and high-frequency oscillation through a high-pressure ultrasonic homogenizing cavity, wherein the pressure adopted by high-pressure ultrasonic homogenizing emulsification is 35000PSi, the frequency is 60kHz, and under the action of a surfactant, astaxanthin oil enables molecular bonds of a water phase and an oil phase to be tightly combined to form uniform mixed liquid drops;

s4, embedding, granulating and drying: forming water-phase cavity bubbles among the mixed droplets, and spray-drying instantly to form oil-in-water O/W astaxanthin microcapsule powder with particle diameter of 60 microns and microcapsule embedding temperature controlled at 200 deg.C instantly.

Example 2

In the specific implementation of the invention, the operation steps of the astaxanthin microcapsule embedding process comprise:

s1, selecting a water phase wall material and an oil phase content, wherein the water phase wall material is a combination of β cyclodextrin and modified starch, and the oil phase content comprises astaxanthin oil and a surfactant;

s2, mixing: according to the proportion, the proportion of the water phase and the oil phase is as follows: 1: 0.2, mixing;

s3, high-pressure ultrasonic homogenizing and emulsifying: the mixture is subjected to high-speed shearing, high-speed convection impact and high-frequency oscillation through a high-pressure ultrasonic homogenizing cavity, the high-pressure ultrasonic homogenizing emulsification adopts 25000PSi and 50kHz of pressure, and astaxanthin oil is subjected to tight combination of water phase and oil phase molecular bonds under the action of a surfactant to form uniform mixed liquid drops;

s4, embedding, granulating and drying: forming water-phase cavity bubbles among the mixed droplets, and spray-instantly drying to form oil-in-water O/W astaxanthin microcapsule powder with particle diameter of 50 μm and microcapsule embedding temperature controlled at 160 deg.C.

Example 3

In the specific implementation of the invention, the operation steps of the astaxanthin microcapsule embedding process comprise:

s1, selecting a water phase wall material and an oil phase content, wherein the water phase wall material is one or more of β cyclodextrin, malto-oligosaccharide and modified starch, and the oil phase content comprises astaxanthin oil and a surfactant;

s2, mixing: according to the proportion, the proportion of the water phase and the oil phase is as follows: 1: 0.33, mixing;

s3, high-pressure ultrasonic homogenizing and emulsifying: the mixture is subjected to high-speed shearing, high-speed convection impact and high-frequency oscillation through a high-pressure ultrasonic homogenizing cavity, the pressure adopted by high-pressure ultrasonic homogenizing emulsification is 30000PSi, the frequency is 55kHz, and under the action of a surfactant, astaxanthin oil enables molecular bonds of a water phase and an oil phase to be tightly combined to form uniform mixed liquid drops;

s4, embedding, granulating and drying: forming water-phase cavity bubbles among the mixed droplets, and spray-drying instantly to form oil-in-water O/W astaxanthin microcapsule powder with particle diameter of 50-60 μm and microcapsule embedding temperature controlled at instant temperature of 180 deg.C.

Although the invention has been described in detail hereinabove with respect to a general description and specific embodiments thereof, it will be apparent to those skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (7)

1. An astaxanthin microcapsule embedding process is characterized by comprising the following operation steps:

selection of S1, aqueous phase wall material and oil phase content: selecting a proper water phase wall material, selecting a surfactant in an oil phase content, and selecting heat-sensitive, easily-oxidized or easily-volatilized astaxanthin oil;

s2, mixing: mixing according to the material proportion;

s3, high-pressure ultrasonic homogenizing and emulsifying: the mixture is subjected to high-speed shearing, high-speed convection impact and high-frequency oscillation in a high-pressure ultrasonic homogenizing cavity, and the astaxanthin oil enables molecular bonds of a water phase and an oil phase to be tightly combined to form uniform mixed liquid drops under the action of a surfactant;

s4, embedding, granulating and drying: forming water-phase cavity bubbles among the mixed droplets, and instantly drying by spraying to form oil-in-water O/W astaxanthin microcapsule powder;

s5, carrying out material receiving detection in the clean area;

and S6, adding a dispersing agent, mixing, subpackaging and warehousing.

2. The process of claim 1, wherein the aqueous phase wall material of step S1 is selected from β cyclodextrin, maltooligosaccharide, and modified starch.

3. The process for microencapsulating astaxanthin according to claim 1, wherein: the oil phase content in step S1 includes astaxanthin oil and a surfactant.

4. The process for microencapsulating astaxanthin according to claim 1, wherein: the mixture ratio in the step S2 is the mixture ratio of water phase and oil phase materials: 1: 0.2-0.4.

5. The process for microencapsulating astaxanthin according to claim 1, wherein: the high-pressure ultrasonic homogeneous emulsification in the step S3 adopts 25000-35000PSi as pressure and 50-60kHz as frequency.

6. The process for microencapsulating astaxanthin according to claim 1, wherein: the microencapsulation embedding temperature in the step S4 is controlled to be 160-200 ℃ at the instant temperature.

7. The process for microencapsulating astaxanthin according to claim 1, wherein: the particle size of the astaxanthin microcapsule powder formed in the step S4 is 50-60 microns.