WO2018129789A1

WO2018129789A1 - Whole-process continuous gas-assisted magnetic separation system

Info

Publication number: WO2018129789A1
Application number: PCT/CN2017/074332
Authority: WO
Inventors: 杨良嵘; 董婷婷; 邢慧芳; 于杰淼; 戎猛; 刘会洲
Original assignee: 中国科学院过程工程研究所
Priority date: 2017-01-11
Filing date: 2017-02-22
Publication date: 2018-07-19
Also published as: CN106694224A; EP3424600C0; EP3424600A4; EP3424600B1; CN106694224B; EP3424600A1

Abstract

Disclosed is a whole-process continuous gas-assisted magnetic separation system, comprising an adsorption tank (1), an extraction column (2) connected to the adsorption tank (1), and a desorption column (3) connected to the extraction column (2). The extraction column (2) and the desorption column (3) each comprises a hollow gas floatation column (7). A magnetic roller (8) is provided on the top of each gas floatation column (7), a scraper (9) is provided on one side of the magnetic roller (8), and a gas inlet is provided at the bottom of each gas floatation column (7). Each of the gas floatation columns (7) of the extraction column (2) and the desorption column (3) is connected to a rinsing device, a rinsing opening of which is arranged opposite the scraper (9).

Description

Full process continuous gas-assisted magnetic separation system

Technical field

The invention relates to the technical field of magnetic separation processing equipment, in particular to a full-process continuous gas-assisted magnetic separation system.

Background technique

The magnetic carrier separation technique adsorbs a target component by an affinity ligand, a hydrophobic group, an ion exchange group, and the like coupled to the surface of the magnetic carrier, and then separates the magnetic carrier loaded with the target by a suitable magnetic separation device. A new separation technique that comes out and is washed and eluted to directly and quickly separate the target. The magnetic carrier separation technology has been developed since the 1970s and has been greatly developed. Because of its advantages of rapid and simple separation, high selectivity, rapid separation and direct application to the separation of complex systems, it has been proposed and widely studied for immunoassay, cell labeling and separation, nucleic acid separation, protein purification, wastewater treatment. , the separation of natural products and other fields.

However, when the technique is used in the separation field, since the separation object is mostly a dilute solution or even a very dilute solution, a moderate increase in the processing scale faces a great challenge. The existing magnetic separation device can not adapt to the requirement if the processing scale is too small, or the spatial magnetic field intensity and gradient in the device after amplification are insufficient, resulting in weak magnetic particles and ultrafine magnetic particles flowing in the space, especially the nano magnetic particles, and the magnetic force Too weak to be captured quickly and efficiently. How to effectively treat a large amount of dilute solution containing magnetic particles is a prominent problem in the application of magnetic carrier separation technology.

Summary of the invention

The object of the present invention is to provide a full-flow continuous gas-assisted magnetic separation system, which solves the problem that the magnetic field strength and the gradient are insufficient after the device existing in the prior art is increased, and the weak magnetic particles and ultra-fine magnetic particles in the space, especially It is a technical problem of nano magnetic particles that cannot be quickly and efficiently captured.

To this end, the present invention employs the following technical solutions:

A full-flow continuous gas-assisted magnetic separation system, comprising an adsorption tank, the adsorption tank is connected with an extraction tower, and the extraction tower is connected with a desorption tower;

The top of the adsorption tank is provided with a feed liquid inlet and a magnetic particle inlet, and the bottom is provided with a mixed liquid outlet, and the adsorption tank is provided with a stirring device;

The extraction column comprises a hollow air floating column, the air floating column is provided with a mixed liquid inlet and a raffinate outlet, and the mixed liquid inlet is connected with the mixed liquid outlet, and the top of the air floating column is provided a magnetic roller, one side of the magnetic roller is provided with a scraper, the end of the scraper is provided with a mixture storage tank, and the bottom of the air floating column is provided with a gas inlet;

The desorption column comprises a hollow air floating column, the air floating column is provided with a magnetic particle inlet and a product outlet, the magnetic particle inlet is connected with the mixture storage tank, and the top of the air floating column is provided with a magnetic roller One side of the magnetic roller is provided with a scraper, the end of the scraper is provided with a magnetic particle storage tank, the magnetic particle storage tank is connected with the adsorption tower, and the bottom of the air floating column is provided with a gas inlet ;

The extraction tower and the air floatation column of the desorption tower are connected with a flushing device, and the flushing port of the flushing device is disposed opposite to the scraper.

Further, a plurality of extraction columns are included, and a plurality of the extraction columns are connected in series through the mixed liquid inlet and the raffinate outlet;

Wherein the mixed liquid inlet of the extraction column at the head end is connected to the mixed liquid outlet, and the raffinate outlet of the extraction column at the end is connected to the raffinate storage tank.

Further, a plurality of extraction columns are included, and the mixed liquid inlets of each of the extraction columns are respectively connected to the mixed liquid outlet, and the raffinate outlet of each of the extraction columns is connected to a raffinate storage tank.

Further, a plurality of desorption columns are included, and a plurality of the desorption columns are connected in series through the magnetic particle inlet and the product outlet;

Wherein the magnetic particle inlet of the desorption column at the head end is connected to the mixture storage tank, and the product outlet of the desorption column at the end is connected to the product storage tank.

Further, a plurality of desorption columns are included, the magnetic particle inlets of each of the desorption columns being respectively connected to the mixture storage tank, and the product outlet of each of the desorption columns is connected to a product storage tank.

Further, the liquid inlet, the magnetic particle inlet and the stirring device are all disposed on the can lid of the adsorption can, and the can lid of the adsorption can is connected with the lifting assembly.

Further, a peristaltic pump is disposed between the adsorption tank and the extraction tower, between the extraction tower and the desorption tower, and between the flushing device and the scraper.

Further, a control device is further included, the control device includes a controller, the controller is connected to the stirring device, the magnetic roller, the lifting assembly and the peristaltic pump, and the controller is provided with a control Button.

Further, the utility model further comprises a gas supply pipeline, wherein the gas supply pipeline is respectively connected with the gas inlets of the extraction tower and the desorption tower, and a gas flow meter is arranged at the gas inlet of the extraction tower and the desorption tower.

Further, the magnetic roller includes a magnetic arcuate region, and the arc of the magnetic arcuate region has an arc of 240°.

The invention provides a full-flow continuous gas-assisted magnetic separation system. When used, the extraction is carried out in an adsorption tower to complete the adsorption of the target object and the magnetic particles, and then enters the extraction tower, and the magnetic particles in the extraction tower are raised. Captured and enriched into the liquid surface to form a magnetic particle solution enrichment zone, and the magnetic particle and the raffinate are separated by a magnetic roller at the magnetic particle solution enrichment zone, after which the magnetic particles enter the desorption column, and the desorption tower is provided There is a desorption liquid, and the desorbing liquid separates the target object from the magnetic particles. Similarly, the magnetic particles are trapped by the rising bubbles, and are enriched to the liquid surface to form a magnetic particle solution enrichment zone, and pass through the magnetic roller at the magnetic particle solution enrichment zone. The separation of the magnetic particles from the desorbent is completed, after which the magnetic particles are continuously sent to the adsorption tank for recycling.

The whole process continuous gas-assisted magnetic separation system couples the air-floating separation technology with the magnetic carrier separation technology, and has a high magnetic separation effect after the device scale is increased; The canister, the extraction column and the desorption column are respectively used for the continuous magnetic separation of the adsorption, washing and desorption processes of the target, and the continuous realization of the three processes themselves is realized, and finally the continuous separation of the entire process of the target separation is achieved. At the same time, the system can not only achieve the whole process of the target separation, but also realize the continuous flow and direct recycling of the magnetic particle carrier.

DRAWINGS

1 is a schematic flow chart of a full-process continuous gas-assisted magnetic separation system provided by the present invention;

2 is a front elevational view of the magnetic roller of the full flow continuous gas magnetic separation system provided by the present invention.

In the picture:

1, adsorption tank; 2, extraction tower; 3, desorption tower; 4, feed liquid inlet; 5, magnetic particle import; 6, stirring device; 7, air floating column; 8, magnetic roller; 9, scraper; Mixture storage tank; 11, magnetic particle storage tank; 12, raffinate storage tank; 13, product storage tank; 14, peristaltic pump; 15, gas flow meter; 16, magnetic arc-shaped area; 17, flushing liquid storage tank.

detailed description

The technical solution of the present invention will be further described below with reference to the accompanying drawings and specific embodiments.

As shown in FIG. 1 and FIG. 2, the embodiment provides a full-flow continuous gas-assisted magnetic separation system, which comprises an adsorption tank 1, an adsorption tank 1 is connected with an extraction tower 2, and an extraction tower 2 is connected with a desorption tower 3. ;

The top of the adsorption tank 1 is provided with a liquid inlet 4 and a magnetic particle inlet 5, the bottom is provided with a mixed liquid outlet, and the adsorption tank 1 is provided with a stirring device 6;

The extraction tower 2 comprises a hollow air floating column 7, and the air floating column 7 is provided with a mixed liquid inlet and a raffinate outlet, and the mixed liquid inlet and the mixed liquid outlet are connected. The top of the air floating column 7 is provided with a magnetic roller 8 and a magnetic roller. a scraper 9 is disposed on one side of the strip 8, a mixture storage tank 10 is disposed at the end of the scraper 9, and a gas inlet is provided at the bottom of the air float column 7;

The desorption column 3 comprises a hollow air floating column 7, on which the magnetic particle inlet and the product outlet are arranged, the magnetic particle inlet is connected to the mixture storage tank 10, and the top of the air floating column 7 is provided with a magnetic roller 8, and the magnetic roller 8 One side There is a squeegee 9, the end of the squeegee 9 is provided with a magnetic particle storage tank 11, the magnetic particle storage tank 11 is connected with the adsorption tower, and the bottom of the air floating column 7 is provided with a gas inlet;

The extraction column 2 and the air floating column 7 of the desorption column 3 are each connected with a flushing device, and the flushing port of the flushing device is disposed opposite to the scraper 9.

The adsorption tank 1 in the system has a large capacity, that is, a sufficient amount of the adsorption raw material liquid can be prepared for subsequent continuous use, and high-capacity storage is also provided for easy realization of closed loop. A manhole and a liquid level observation hole of the glass are disposed on the adsorption tank 1 to facilitate observation of the material and liquid level inside the adsorption tank 1.

The rinsing device comprises a rinsing liquid storage tank 17 connected to the rinsing port, wherein the extraction column 2 and the desorption column 3 use the same rinsing liquid storage tank 17, or the extraction column 2 and the desorption column 3 are separately provided with rinsing liquid storage Both cans 17 can be used.

In the whole process continuous gas-assisted magnetic separation system, a plurality of extraction towers 2 and a desorption tower 3 may be respectively adopted, specifically including a plurality of extraction towers 2, and a plurality of extraction towers 2 pass through a mixed liquid inlet and a raffinate The liquid outlets are connected in series;

Among them, the mixed liquid inlet of the extraction column 2 at the head end is connected to the mixed liquid outlet, and the raffinate outlet of the end extraction column 2 is connected to the raffinate storage tank 12.

Or a plurality of extraction columns 2 are included, the mixed liquid inlets of each of the extraction columns 2 are respectively connected to the mixed liquid outlet, and the raffinate outlet of each of the extraction columns 2 is connected to the raffinate storage tank 12.

The above two forms are respectively a form in which a plurality of extraction towers 2 are connected in series and in parallel, wherein when the extraction towers 2 are connected in series, the multi-stage magnetic separation can make the separation of magnetic particles in the raffinate more fully; When connected in parallel, multiple extraction columns 2 can be used simultaneously, and the magnetic separation efficiency is higher.

Similarly, the desorption column 3 can also be connected in series or in parallel, that is, including a plurality of desorption columns 3, and the plurality of desorption columns 3 are connected in series through the magnetic particle inlet and the product outlet;

Among them, the magnetic particle inlet of the desorption column 3 at the head end is connected to the mixture storage tank 10, and the product outlet of the desorbing column 3 at the end is connected to the product storage tank 13.

Alternatively, a plurality of desorption columns 3 are included, the magnetic particle inlets of each desorption column 3 are respectively connected to the mixture storage tank 10, and the product outlet of each desorption column 3 is connected to the product storage tank 13.

The desorption column 3 connected in series is more sufficient for the recovery of the magnetic particles, reducing the circulation loss of the magnetic particles; and the desorption column 3 connected in parallel can improve the recovery efficiency of the magnetic particles.

The liquid inlet 4, the magnetic particle inlet 5 and the stirring device 6 are all disposed on the can lid of the adsorption tank 1, and the can lid of the adsorption tank 1 is connected with a lifting assembly.

The adsorption tank 1 can be lifted and lowered by setting the lifting assembly, which facilitates maintenance and inspection of the interior of the device later. Among them, the lifting assembly is a telescopic cylinder, a hydraulic cylinder, an electric hoist, and the like.

Preferably, a peristaltic pump 14 is provided between the adsorption tank 1 and the extraction column 2, between the extraction column 2 and the desorption column 3, and between the rinsing device and the squeegee 9. The flow rate of the peristaltic pump 14 is adjusted from 3 to 6800 mL/min.

The embodiment further includes a control device including a controller connected to the stirring device 6, the magnetic roller 8, the lifting assembly and the peristaltic pump 14, and the controller is provided with a control button. The control device is arranged at the lower part of the system for easy operation, and the control device is provided with corresponding control buttons for convenient operation by the operator.

The present embodiment further includes a gas supply line connected to the gas inlets of the extraction column 2 and the desorption column 3, respectively, and a gas flow meter 15 at the gas inlet of the extraction column 2 and the desorption column 3.

The extraction column 2 and the desorption column 3 are subjected to a uniform gas supply operation through the gas supply line, wherein a corresponding gas flow meter 15 is provided at the gas inlet, and the range of the gas flow meter 15 is set to 6 to 60 L/h.

The magnet roller 8 includes a magnetic arcuate region 16 having an arc of 240°. The surface of the magnetic arc-shaped region 16 of the magnetic roller 8 has a relatively uniform trapping force on the magnetic particles, and in the design of the magnetic circuit system, a certain amount is small The type of NdFeB rare earth permanent magnets are arranged in a ring shape at a certain interval along the surface of the cylinder to enable uniform magnetic field strength on the surface of the sleeve.

Wherein, the whole process continuous gas assisted magnetic separation system, the mixture storage tank 10, the magnetic particle storage tank 11, the raffinate storage tank 12, the product storage tank 13 and the flushing liquid storage tank 17 are all made of stainless steel, generally Set its shape to a cuboid shape. At the same time, a plurality of spare storage tanks can be provided for arranging and storing the washing supernatant and the desorbent.

In specific use, the magnetic carrier (ie, magnetic particles) and the solution containing the target separation are mixed in the adsorption tank 1, and fully stirred by the stirring device 6, accelerating the extraction process of the magnetic particles to the target and promoting the sufficient suspension of the magnetic particles. And then pumped into the extraction column 2 (taking two extraction columns 2 as an example, one can be used at the same time, or can be used alternately or in series), and the magnetic particles are fully supported by the magnetic roller 8 with the aid of the air floating column 7. Capture, pumping the rinsing liquid from the rinsing fluid storage tank 17 to wash the magnetic particles on the magnetic roller 8 and collecting them into the mixture storage tank 10, and collecting the raffinate into the raffinate storage tank 12, in the mixture storage tank 10. The suspension is pumped into the desorption column 3, and the desorbing column 3 has a desorbing liquid. The target is desorbed from the magnetic particles and enters the product storage tank 13. The desorbed magnetic particles are captured by the magnetic roller 8 and washed by the washing liquid to enter the magnetic field. In the particle storage tank 11, the magnetic particles can be refluxed into the adsorption tower for recycling, and form a continuous closed circuit cycle.

The technical principles of the present invention have been described above in connection with specific embodiments. The descriptions are merely illustrative of the principles of the invention and are not to be construed as limiting the scope of the invention. Based on the explanation herein, those skilled in the art can devise various other embodiments of the present invention without departing from the scope of the invention.

Claims

A full-process continuous gas-assisted magnetic separation system, comprising: an adsorption tank (1) connected to an extraction tower (2), and the extraction tower (2) is connected with a desorption tower ( 3);

The top of the adsorption tank (1) is provided with a liquid inlet (4) and a magnetic particle inlet (5), and a bottom is provided with a mixed liquid outlet, and the adsorption tank (1) is provided with a stirring device (6);

The extraction column (2) comprises a hollow air floating column (7), and the air floating column (7) is provided with a mixed liquid inlet and a raffinate outlet, and the mixed liquid inlet and the mixed liquid outlet are connected. The top of the air floating column (7) is provided with a magnetic roller (8), one side of the magnetic roller (8) is provided with a squeegee (9), and the end of the squeegee (9) is provided with a mixture storage tank (10) a gas inlet is provided at a bottom of the air floating column (7);

The desorption column (3) comprises a hollow air flotation column (7) having a magnetic particle inlet and a product outlet, the magnetic particle inlet being connected to the mixture storage tank (10) The top of the air floating column (7) is provided with a magnetic roller (8), one side of the magnetic roller (8) is provided with a squeegee (9), and the end of the squeegee (9) is provided with magnetic particles a storage tank (11), the magnetic particle storage tank (11) is connected to the adsorption tower, and a gas inlet is arranged at a bottom of the air floating column (7);

The extraction tower (2) and the air floatation column (7) of the desorption column (3) are each connected with a flushing device, and the flushing port of the flushing device is disposed opposite to the scraper (9).
A full-flow continuous gas assisted magnetic separation system according to claim 1, comprising a plurality of extraction columns (2) through which said plurality of extraction columns (2) pass and said mixed liquid inlet The raffinate outlets are connected in series;

Wherein the mixed liquid inlet of the extraction column (2) at the head end is connected to the mixed liquid outlet, and the raffinate outlet of the extraction column (2) at the end is connected to the raffinate storage tank (12).
A full-flow continuous gas-assisted magnetic separation system according to claim 1, comprising a plurality of extraction columns (2), said mixed liquid inlets of said extraction columns (2) being separately mixed with said The liquid outlet is connected, and the raffinate outlet of each of the extraction columns (2) is connected to a raffinate storage tank (12).
A full-flow continuous gas-assisted magnetic separation system according to claim 1, comprising a plurality of desorption columns (3) through which said plurality of desorption columns (3) pass and said magnetic particle inlet Product outlets are connected in series;

Wherein the magnetic particle inlet of the desorption column (3) at the head end is connected to the mixture storage tank (10), and the product outlet of the desorbing column (3) at the end is connected to the product storage tank (13).
The full-flow continuous gas-assisted magnetic separation system according to claim 1, comprising a plurality of desorption columns (3), said magnetic particle inlets of each of said desorption columns (3) and said mixture The storage tanks (10) are connected, and the product outlet of each of the desorption columns (3) is connected to a product storage tank (13).
The full-flow continuous gas-assisted magnetic separation system according to claim 1, wherein said liquid inlet (4), said magnetic particle inlet (5) and said stirring device (6) are disposed at the same On the can lid of the canister (1), the can lid of the canister (1) is connected with a lifting assembly.
The full-flow continuous gas-assisted magnetic separation system according to claim 6, wherein said adsorption tank (1) and said extraction column (2), said extraction column (2) and said desorption A peristaltic pump (14) is provided between the towers (3) and between the flushing device and the scraper (4).
A full-process continuous gas-assisted magnetic separation system according to claim 7, further comprising control means, said control means comprising a controller, said controller and said stirring means (6), said magnetic A roller (8), the lifting assembly and the peristaltic pump (14) are connected, and a control button is arranged on the controller.
A full-flow continuous gas-assisted magnetic separation system according to claim 1, further comprising a gas supply line, said gas supply line and said extraction column (2) and said desorption column (3) A gas inlet is connected, and a gas flow meter (15) is provided at the gas inlet of the extraction column (2) and the desorption column (3).
The full-flow continuous gas-assisted magnetic separation system according to claim 1, wherein The magnet roller (8) includes a magnetic arcuate region (16) having an arc of 240°.