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improve co 2 Charging Technology of Supercritical Extraction Yield

A yield, supercritical technology, applied in solvent extraction, solid solvent extraction, separation methods, etc., can solve the problems of unstable extraction yield, large waste of raw materials, poor permeability, etc., to solve the problems of poor material permeability and processing. Cost reduction and stable output

Active Publication Date: 2020-12-18
山西省食品研究所(有限公司)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to solve the problems in the prior art that the charging method of the extraction process is tightly packed and poor in permeability, the extraction yield is unstable and low, and the waste of raw materials is large, the present invention provides a method for increasing CO 2 Charging Technology of Supercritical Extraction Yield

Method used

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  • improve co  <sub>2</sub> Charging Technology of Supercritical Extraction Yield
  • improve co  <sub>2</sub> Charging Technology of Supercritical Extraction Yield
  • improve co  <sub>2</sub> Charging Technology of Supercritical Extraction Yield

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Example 1, CO 2 Comparison of experimental effects of flavor components in supercritical extraction of distiller's grains:

[0032] 1. Materials and test equipment required for the test

[0033] Liquor waste: provided by Shanxi Fenjiu Group Co., Ltd. (the water content in the trough is about 60%, the lower the water content in the trough, the better);

[0034] High-purity carbon dioxide: purity ≥ 99.99%, food grade;

[0035] Test equipment: supercritical extraction equipment produced by Sichuan Deyang Sichuang Technology Co., Ltd.

[0036] After loading the raw materials (using the traditional method and the method of the present invention respectively), the CO 2 Inject into the extraction kettle, adjust the pressure and temperature to make it carry the extract in a supercritical state, enter the separation kettle, and then analyze the distiller's grain extract (flavor substance) through decompression.

[0037] 3. Extraction implementation process

[0038] After th...

Embodiment 2

[0047] Example 2, CO 2 Comparison of experimental results of supercritical extraction of seabuckthorn seed oil:

[0048] 1. Materials and test equipment required for the test

[0049] Seabuckthorn seeds: pressed high-quality seabuckthorn seeds, moisture content 10%~13%;

[0050] High-purity carbon dioxide: purity ≥ 99.99%, food grade;

[0051] Test equipment: supercritical extraction equipment produced by Sichuan Deyang Sichuang Technology Co., Ltd.

[0052] 2. Example 1 of extraction process and extraction implementation process.

[0053] After the normal extraction process of the system is completed, the discharge valves at the bottom of the separators I and II are respectively opened to release all the extracted seabuckthorn seed oil.

[0054] Table 2 is traditional method and the inventive method CO 2 Parameters and Yield Data Comparison of Supercritical Extraction of Seabuckthorn Seed Oil

[0055] Table 2

[0056]

[0057] CO through the above two different feed...

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Abstract

The invention relates to a charging technology capable of improving yield of CO2 supercritical extraction and belongs to the technical field of supercritical extraction. The charging technology can solve the problems that extraction yield is unstable, the yield is relatively low and raw material waste is enormous as filling is tight and permeability is poor in an extraction technology charging method in the prior art. The charging technology comprises the following steps: taking a plurality of raw materials, putting into a plurality of cloth bags, uniformly placing a plurality of steel wire balls into the cloth bags, sealing, taking eight cloth bags, horizontally paving and placing the eight cloth bags at the bottom of an extraction reaction kettle; additionally taking a plurality of raw materials, and dispersing and placing at an upper layer of the eight cloth bags in the first step; then taking eight cloth bags filled with the raw materials and the steel wire balls, and horizontally paving at the upper layer of the raw materials which are dispersed and placed in the second step; then dispersing and placing a plurality of raw materials on the cloth bags filled with the raw materials and the steel wire balls in the three step; and in the order, sequentially alternately placing the cloth bags filled with the raw materials and the steel wire balls as well as the raw materials until the required production quantity is achieved. The charging technology provided by the invention has the advantages that discharging is stable, yield is high, and processing cost can be greatly reduced.

Description

technical field [0001] The invention belongs to the technical field of supercritical extraction, and specifically relates to a method for improving CO 2 The charging process of supercritical extraction yield. Background technique [0002] The existing traditional extraction process charging method is only to put all the raw materials into the feed tank, the material is very tightly packed, and the permeability is poor, which makes the extraction yield unstable and low, and the waste of raw materials is large. Therefore, the existing traditional extraction process charging method is neither practical nor practical, and cannot meet the requirements for efficient extraction of effective substances. Contents of the invention [0003] In order to solve the problems in the prior art that the charging method of the extraction process is tightly packed and poor in permeability, the extraction yield is unstable and low, and the waste of raw materials is large, the present inventio...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01D11/02
CPCB01D11/0203B01D11/0219
Inventor 李恩伟刘英明薛晋钟铮铮宋美玲雷秀兰任丽平
Owner 山西省食品研究所(有限公司)
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