RU1608901C - Device for extracting betta-carotene - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: device has a hollow shaft, at least one hollow disk located at the lower end of the shaft. The hollow disk has surface permeable for liquid phase, the disk cavity being in communication with the cavity of shaft. EFFECT: enhanced efficiency, the possibility of separating phases provided. 1 dwg

Description

 The invention relates to extraction apparatus for the "solid body fluid" system and can be used to extract thermolabile and chemically unstable substances, for example β-carotene.

 The aim of the invention is to increase and control the degree of extraction of β-carotene and the possibility of phase separation.

 The drawing shows an extractor for the extraction of β-carotene.

 The extractor consists of a vertical cylindrical body 1 with a conical bottom 2 and a flat cover 3. To maintain a given extraction temperature, the extractor is equipped with a heating jacket 4. Inside the apparatus there is a hollow shaft 5 connected to the liquid phase removal system, in the lower part of which there are hollow disks 6, having a surface permeable to the liquid phase, the cavity of which is in communication with the cavity of the shaft. An agitator is attached to the shaft - a scraper 7, the lower surface of which, when the shaft 5 rotates, moves along the generatrix of the bottom cone. The apparatus has a hatch for loading biomass 8, an oil supply pipe 9, a hatch for unloading meal 10.

 The extractor works as follows. The biomass is loaded into the apparatus through the hatch 8, to which vegetable oil is fed through the pipe 9. Extraction is carried out under vacuum with constant stirring and heating. With the help of disks located in the volume occupied by the meal, the miscella is separated from the meal. To increase the depth of β-carotene extraction, a new portion of oil is fed to the meal and the extraction and selection of miscella is again carried out.

 The meal is discharged through the hatch 10 with a rotating shaft 5, and due to centrifugal force, the meal is discharged from the disks when they are rotated to the lower part of the extractor. When the shaft 5 is rotated, the meal is stirred with a scraper 7, which has a radius of curvature, and is sent to the discharge hatch 10.

 A positive effect is achieved due to the creation of intense turbulent fluid flows resulting from the joint rotation of the disks 6 and the scraper-mixer 7, which provides good oil access to β-carotene crystals located inside the biomass cell structure, which contributes to a more complete extraction of β-carotene. In addition, due to the use of vacuum in the selection of miscella from meal, the loss of β-carotene during its oxidation under the influence of atmospheric oxygen is reduced.

 In the design of the extractor, it is possible to carry out exhaustive extraction. The number of feed cycles for new portions of oil is regulated by the degree of extraction of β-carotene. When using separating disks 6, the cavity of which is in communication with the cavity of the shaft 5, if the volume above the upper disk and below it is in a ratio of 3: 1, the meal occupies the lower part of the extractor to the level of the upper disk. A decrease in the volume ratio of less than 3: 1 leads to the fact that when maintaining the ratio of the biomass phases: oil, the meal level does not reach the upper disk and when selecting miscella it is not possible to conduct a more complete selection of miscella. With an increase in the volume ratio of more than 5: 1, the meal level is significantly higher than the level of the upper disk, the load on the separating disks increases, which leads to a sharp increase in the time of miscella selection, and this in turn leads to an increase in the time of temperature exposure to β-carotene and its additional oxidation. If the meal level is located at the level of the upper disk, with an increase in the volume ratio of more than 5: 1, the fill factor of the apparatus decreases and the metal consumption of the structure increases.

 The experiments below confirm the above relationships.

PRI me R 1. Into an extractor with a total volume of 160 l and with a ratio of volumes above and above the upper disk 3: 1 (120 l: 40 l) load biomass (micellial mass) in an amount of 30 kg, occupying 60 l of the apparatus and 90 kg of vegetable oil heated to 100 ^° C, occupying 94 liters of extractor volume. Thus, after loading, the components will occupy 154 liters of extractor volume. Extraction is carried out under vacuum with constant stirring and heating. During the extraction process, a suspension is formed consisting of an oil extract of β-carotene and a micellial mass (solid phase). After extraction is complete, stirring is stopped and the vacuum is removed. Using the vacuum created in the miscella collection, the β-carotene oil extract is selected from the extractor through the permeable (filtering) surface of the disks. During the selection of the liquid phase, the solid phase is simultaneously deposited in the lower part of the apparatus. The result is 40 kg of meal, occupying a volume of 43 l (due to a decrease in the density of the micellial mass in the extraction process), located in the lower part of the extractor at the level of the upper disk, and 80 kg of miscella. The liquid phase selection time is 12 minutes.

 The resulting meal oil content of 70% has sufficient mobility for good discharge from the extractor.

 PRI me R 2. In the extractor with a total volume of 160 l and with a ratio of volumes above the upper disk and below it 4: 1 (128 l: 32 l), analogously to example 1, load biomass and oil, carry out the extraction and selection of miscella. As a result, the meal level will be higher than the level of the upper filter disk. The presence of meal on the upper disk leads to an increase in the time of miscella selection up to 16 minutes.

 PRI me R 3. In the extractor with a total volume of 160 ml and a ratio of volumes above the upper disk and below it 5: 1 (approximately 135 l: 27 l), analogously to example 1, load biomass, carry out the extraction and selection of miscella. As a result, the meal level will be located significantly higher than the level of the upper filter disk, which leads to an increase in the time of miscella selection up to 25 min.

 PRI me R 4. In the extractor with a total volume of 160 l and with a ratio of volumes above and above the upper disk of 6: 1 (approximately 138 l: 23 l), as in example 1, load biomass and oil, carry out the extraction and selection of miscella . As a result, the volume occupied by the meal is almost two times higher than the volume of the apparatus above the upper disk. The filter discs are deeply immersed in the mass of meal. This leads to a sharp increase in the time of miscella selection to 42 min.

PRI me R 5. Into an extractor with a total volume of 160 l and with a ratio of volumes above and above the upper disk 2: 1 (approximately 106 l: 53 l) load biomass in an amount of 30 kg and 90 kg of vegetable heated to 100 ^° C oils. Extraction and selection of the oil extract of β-carotene is carried out analogously to example 1. As a result, 40 kg of meal is obtained, occupying a volume of 43 l, located in the lower part of the extractor, it will be below the level of the upper disk, since the volume under the upper disk is 53 l. Between the level of the meal location and the level of the upper disk, there will remain 10 l of oil extract of β-carotene, which is not possible to take away, since when the level of miscella is lower than the level of the upper disk, air will be drawn through it into the liquid phase sampling line. Due to this, it is impossible to create a vacuum in the miscella collection sufficient for a more complete selection of miscella. In this case, intense aeration of the hot oil extract of β-carotene with air also occurs, which leads to its additional oxidation. Thus, 10 l of the β-carotene oil extract will remain in the meal and the yield of the extract is reduced.

 If a larger amount of biomass is loaded into this extractor so that the meal is at the level of the upper disk, then it will be necessary to proportionally increase the amount of oil supplied, and this in turn will require an increase in the volume under the upper disk.

Claims (1)

 DEVICE FOR EXTRACTION β - CAROTINE, containing a vertical cylindrical body with a conical bottom, a discharge pipe, a heating jacket, a shaft with a stirrer, characterized in that, in order to increase and control the degree of extraction of β-carotene, to allow phase separation, the stirrer shaft is made hollow and the mixer is equipped with at least one hollow disk having a surface permeable to the liquid phase, the cavity of which is in communication with the shaft cavity, and the ratio of the volume of the apparatus above the upper disk and the volume below it finds I within the 3: 1 - 5: 1.

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