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A kind of high-content krill oil microcapsules and its preparation process

A preparation process, krill oil technology, applied in the fields of edible oil/fat, food science, application, etc., can solve the problems of protein wall material fluidity, poor water solubility, unsuitable for high content product preparation, low content of microcapsule products, etc. , to achieve the effect of small molecular weight, good moisture absorption, and enhanced compactness

Active Publication Date: 2017-06-16
武汉志邦化学技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] In the selection of microcapsule wall materials, traditional wall materials such as gelatin, sodium caseinate, gum arabic, etc. are widely used, but the content of microcapsule products is often low, which is not suitable for the preparation of high content products
In addition, the fluidity and water solubility of protein wall materials are relatively poor, especially not conducive to the diffusion of cold water, and the release is poor, which greatly affects the use effect of the product

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] (1) Add 35kg of oxidized starch and 3kg of chitosan oligosaccharide into 210kg of water at 90°C and stir to dissolve, add 5kg of trehalose, 5kg of EDTA-Na, and 0.1kg of monoglyceride into the dissolved solution, stir to mix Evenly, keep warm at 50-70°C for later use, and prepare the water phase;

[0028] (2) Mix 65kg krill oil (40% phospholipid content), 5kg microporous starch, 0.2kg xanthan gum, 0.1kg natural vitamin E, 0.1kg tert-butylhydroquinone (TBHQ), and oil at 90°C Bath for 3 to 10 minutes to obtain an oil phase.

[0029] (3) Discharge the dissolved water phase and oil at the same time, control the flow respectively, according to the water phase: oil phase = 4:1 (mass ratio), mix online with a pipeline shearer, and the number of revolutions is 10000-16000 rpm 5 to 10 minutes, 19000 to 28000 rpm for 5 to 8 minutes, and then homogenized at 30 to 50Mpa to prepare a microemulsion.

[0030] (4) The microemulsion is spray-dried, the temperature of the air inlet of t...

Embodiment 2

[0032] (1) Add 25kg of oxidized starch and 2kg of chitosan oligosaccharide to 210kg of water at 90°C and stir to dissolve, add 5kg of trehalose, 5kg of EDTA-Na, and 0.1kg of monoglyceride into the dissolved solution, and stir to mix them Evenly, keep warm at 50-70°C for later use, and prepare the water phase;

[0033] (2) Mix 80kg krill oil (40% phospholipid content), 5kg microporous starch, 0.2kg xanthan gum, 0.1kg natural vitamin E, 0.1kg tert-butylhydroquinone (TBHQ), and oil at 90°C Bath for 3 to 10 minutes to obtain an oil phase.

[0034] (3) Discharge the dissolved water phase and oil at the same time, control the flow respectively, according to the water phase: oil phase = 3:1 (mass ratio), mix online with a pipeline shearer, and the number of revolutions is 10000-16000 rpm 5 to 10 minutes, 19000 to 28000 rpm for 5 to 8 minutes, and then homogenized at 30 to 50Mpa to prepare a microemulsion.

[0035](4) The microemulsion is spray-dried, the temperature of the air inle...

Embodiment 3

[0037] (1) Add 20kg of oxidized starch and 1kg of chitosan oligosaccharide to 420kg of water at 90°C and stir to dissolve, add 5kg of lactose, 5kg of ascorbic acid, and 0.2kg of sucrose ester into the dissolved solution, stir to mix evenly, 50~ 70°C heat preservation and standing for later use to obtain the water phase;

[0038] (2) Mix 150kg of krill oil (40% phospholipid content), 10kg of microporous starch, 0.4kg of xanthan gum, 0.2kg of natural vitamin E, and 0.2kg of propyl gallate (PG) in an oil bath at 90°C for 3- After 10 min, an oil phase was obtained.

[0039] (3) Discharge the dissolved water phase and oil at the same time, control the flow respectively, according to the water phase: oil phase = 3:1 (mass ratio), mix online with a pipeline shearer, and the number of revolutions is 10000-16000 rpm 5 to 10 minutes, 19000 to 28000 rpm for 5 to 8 minutes, and then homogenized at 30 to 50Mpa to prepare a microemulsion.

[0040] (4) The microemulsion is spray-dried, the...

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PUM

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Abstract

The invention relates to high-content krill oil microcapsules and a preparation technology thereof. The technology comprises the following steps: by taking krill oil and microporous starch as core materials, adding a small amount of xanthan gum into oil phase; and by taking chitosan oligosaccharide and oxidized starch as wall materials, mixing an oil-phase antioxidant, a water-phase antioxidant, an emulsifier, a dispersant and the like in proportion to prepare micro-emulsion, and performing spray drying to prepare krill oil microcapsule powder. The obtained krill oil microcapsule product contains 10-30 percent of phosphatide and keeps biological activity, improves the light-heat stability, acid-alkali stability and the like of krill oil, has good solubility in cold water, and is relatively easy to process, transport and store, safety, fluidity and water solubility are greatly improved, the application range of krill oil is enlarged, and the krill oil is an excellent health-food raw material, and is widely applied to dairy products, beverages, health-care products, baking, tablets and the like. The yield of the krill oil microcapsule powder prepared according to the technology is high, the phosphatide content of the product is high, and the technology is suitable for mass preparation of krill oil microcapsule powder and realizes continuous large-scale production.

Description

technical field [0001] The invention relates to the production technical field of krill oil microcapsules, in particular to a high-content krill oil microcapsule and a preparation process thereof. Background technique [0002] Antarctic krill is one of the organisms with the highest protein content that has been found. The protein content is more than 50%, and it also contains extremely rich amino acids and vitamin A necessary for human tissues. It is a natural health gift from nature to human beings. Foods contain functions that cannot be replaced by other foods. [0003] The phospholipid-bound Omega-3 (including EPA and DHA) contained in Antarctic krill oil is easier to absorb than the triglyceride-type Omega-3 in fish oil, and is an effective source of DHA and EPA. Plus, krill oil contains a natural antioxidant, astaxanthin. In addition to preventing cardiovascular diseases, astaxanthin also has a protective effect on the retina and central nervous system. The health f...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A23L33/00A23D9/04
CPCA23D9/04A23V2002/00A23V2200/224A23V2250/511A23V2250/5118A23V2250/5086
Inventor 何同胜关荣荣
Owner 武汉志邦化学技术有限公司
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