Method for preparing microbial oil and fat

A technology of microbial oil and microbial bacteria, which is applied in the production of fat, fat oil/fat production, fermentation, etc., can solve the problems of small batch processing volume, small processing volume and high residual oil rate, so as to reduce labor consumption and power consumption, reduce Effects of steam and power consumption, and increased oil mixture concentration

Inactive Publication Date: 2009-10-21
BEIJING UNIV OF CHEM TECH
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Problems solved by technology

[0002] As the technology of microbial fermentation to produce oil is becoming more and more mature, the preparation of oil by microorganisms has the characteristics of rapidity, mildness, and high oil content. In the laboratory stage, the process route is cumbersome, the oil yield is low, and the production cost is high, which has become a bottleneck restricting its industrialization process
[0003] At present, there are many methods of microbial oil extraction in the laboratory stage, such as Soxhlet extraction, organic solvent extraction, acid heat method and high-pressure homogenization method, etc., but most of them are subject to small processing capacity, high cost, secondary pollution, etc. Restricted by factors, industrial application is difficult
[0004] The Chinese patent application with the application number 200810138499 discloses a "method for separation and extraction of microbial oil", which is characterized in that the high-pressure homogenization method is used to break the cells. It achieves the purpose of completely crushing cells; but its disadvantages are small processing capacity, high processing pressure, low primary crushing rate, serious emulsification when the solvent extracts oil from the water phase, and low oil yield, etc.
[0005] The Chinese patent application number 00116051 discloses "a preparation method of microbial oil", which is characterized in that oil is separated by steaming, pressing, and leaching. The advantages of this process are small powder, high production efficiency, and easy processing Large quantity; but it also has the following disadvantages: high residual oil rate, long extraction time, long-term high-temperature steaming and frying can easily cause excessive denaturation of protein, resulting in low quality of product bacteria meal, long process route, etc.
[0006] The Chinese patent with application number 031396305 discloses a "extraction method of supercritical carbon dioxide extraction of microbial oil", which is characterized in that supercritical carbon dioxide is used to extract oil, and the cells are broken by multiple pressure mutations during the extraction process, and the obtained oil is of good quality. No solvent residue; but its disadvantages are harsh process conditions, high equipment requirements, small batch capacity, and high production costs

Method used

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Experimental program
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Effect test

Embodiment 1

[0049] 5m after fermentation of oleaginous red yeast 3 The fermentation broth is processed according to the method of the present invention, and the sequential steps are as follows:

[0050] (1) Flocculation, add a pre-prepared 0.2wt‰ polyacrylamide aqueous solution to the fermentation broth at the amount of 40ppm, the flocculation reaction time is 10min, the precipitation time is 30min, the water removal rate reaches 67%, and the dry cell content is 3wt % Increased to 9wt%.

[0051] (2) Filter press, send the flocculated bacteria to the belt press filter, under 2.5 atmospheres, go through gravity concentration dehydration, wedge pre-pressing dehydration and roller pressing dehydration for 20 minutes to obtain the moisture content of the filter cake (in dry cells The weight is 73% by weight on a dry basis. The dry cell content is 27wt%.

[0052] (3) Conditioning: In the chain plate dryer, steam at 120°C is used for drying and conditioning until the water content is reduced to 10% ...

Embodiment 2

[0060] 10m after fermentation of oleaginous red yeast 3 The fermentation broth is processed according to the method of the present invention, and the sequential steps are as follows:

[0061] (1) Flocculation, add a pre-prepared 0.5wt‰ polyacrylamide aqueous solution to the fermentation broth at an amount of 120ppm. The flocculation reaction time is 20min, the precipitation time is 1h, the water removal rate reaches 70%, and the dry cell content is 3wt. % Increased to 10wt%.

[0062] (2) Filter press, send the flocculated bacteria to the belt press filter, under 2 atmospheres, through gravity concentration dehydration, wedge pre-pressing dehydration and roller squeezing dehydration for 30 minutes to obtain the moisture content of the filter cake (in terms of dry bacteria The weight is 70% by weight on a dry basis, and the dry cell content is 30% by weight.

[0063] (3) Conditioning: In the chain plate dryer, steam at 125°C is used for drying and conditioning, the water content is ...

Embodiment 3

[0070] 5m after culturing Chlorella oleifera 3 The fermentation broth is processed according to the method of the present invention, and the sequential steps are as follows:

[0071] (1) Flocculation, add the pre-prepared 0.3wt‰ chitosan aqueous solution to the fermentation broth at a dosage of 20ppm, stir at low speed, the flocculation reaction time is 30min, the precipitation time is 1.5h, the air flotation method collects chlorella and removes The water content reached 96%, and the dry cell content of the algae was increased from 0.3wt% to 7.5wt%.

[0072] (2) Filter press, send the flocculated bacteria to the belt press filter, under 3 atmospheres, through gravity concentration dehydration, wedge pre-pressing dehydration and roller squeezing dehydration for 30 minutes, the water content of the filter cake is obtained (in the dry cell The weight is 65wt% on a dry basis, and the dry cell content is 35wt%.

[0073] (3) Conditioning: In the chain plate dryer, steam at 125°C is use...

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Abstract

The invention discloses a method for preparing microbial oil and fat, which comprises the following steps: (1) collecting microbial thalli; (2) performing filter pressing on the thalli obtained in the step (1) to obtain wet bacterial mud; (3) performing thermal refining, namely drying the wet bacterial mud obtained in the step (2) to remove most of free moisture and partial bound water in cells, and adjusting the temperature and the moisture content of the obtained dried thalli; (4) performing extrusion swelling, namely putting the dried thalli obtained in the step (3) into an extrusion swelling machine for extrusion and swelling; and (5) extracting and soaking the oil-bearing material dried thalli obtained in the step (4) to obtain mixed oil and soaked thalli residues. The method has the advantages of simple process, large handling capacity, low energy consumption and high product quality, and belongs to the field of oil and fat preparation.

Description

Technical field [0001] The invention relates to a method for preparing microbial grease, in particular to a method for preparing microbial grease by a puffing leaching method. Background technique [0002] As the technology of microbial fermentation to produce oils becomes increasingly mature, microbial-prepared oils are fast, mild, and high in oil content. As a renewable energy biodiesel feedstock oil, it has received widespread attention from the society, and most methods for extracting microbial oils remain In the laboratory stage, the process route is cumbersome, the oil yield is low, and the production cost is high, which has become a bottleneck restricting its industrialization process. [0003] At present, there are many methods of microbial oil extraction in the laboratory stage, such as Soxhlet extraction, organic solvent extraction, acid heat and high pressure homogenization, but most of them are affected by small processing volume, high cost, and secondary pollution. D...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C11B1/10C11B1/06C12P7/64
Inventor 张栩高斌薛飞燕谭天伟
Owner BEIJING UNIV OF CHEM TECH
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