CN111729496A - Chlorine-oxygen ion purification system for waste gas treatment in biological medicine industry - Google Patents

Abstract

The invention discloses a chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, which comprises a shell unit and a treatment unit, wherein the treatment unit is arranged in the shell unit. The shell unit comprises a first air inlet, an air outlet, a double door, a guide plate, a bearing plate and a third air inlet, and the treatment unit comprises an active oxygen treatment assembly, a chloride ion treatment assembly, a connecting piece and a fan. The active oxygen treatment component and the chloride ion treatment component of the device are respectively arranged in the two drums and are communicated only through the connecting piece through which gas passes, so that the risk of electric leakage is avoided; the gas is purified by the active oxygen treatment assembly, inserted into the chlorine-containing solution through the plurality of gas guide pipes, and then fully contacted with the chlorine-containing solution in a bubbling mode, and the gas emerging from the liquid can be discharged only by being sprayed out by the water spraying piece and put into the atomized chlorine-containing solution, so that the purification effect is better.

Description

Chlorine-oxygen ion purification system for waste gas treatment in biological medicine industry

Technical Field

The invention relates to the technical field of waste gas purification treatment, in particular to a chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry.

Background

The multi-component, high-concentration and high-harm waste gas generated by facilities such as pharmaceutical workshops, laboratory animal rooms and biochemical and physical laboratories mainly comprises micromolecular air pollutants such as VOCs (volatile organic chemicals), malodorous gases, hydrogen sulfide and ammonia, biological pollutants such as bacteria and viruses, and suspendable particles, so that the air pollution of places and the surrounding air is caused, and the health of operators, surrounding residents and animals is influenced.

At present, in order to treat the waste gas produced in the production, enterprises often need to use chlorine-oxygen ion air purification devices to treat sulfur, nitrogen and other ions in the waste gas, thereby generating fixed salt harmless to the environment, while the existing chlorine-oxygen ion air purification devices generally contact the solution with chlorine-oxygen ions with the waste gas in a spraying manner in the using process, and the treatment manner can prevent the harmful substances in the waste gas from being effectively contacted with the chlorine-oxygen ions sufficiently, thereby reducing the effect of waste gas treatment.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems with existing chlorine-oxygen ion purification systems for the treatment of waste gases from the biomedical industry.

Therefore, the problem to be solved by the present invention is how to make the harmful substances in the exhaust gas fully contact with the chlorine-oxygen ions.

In order to solve the technical problems, the invention provides the following technical scheme: a chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry comprises a shell unit, a first air inlet and a second air outlet, a first air inlet and a second air inlet, a first air outlet and a second air outlet, wherein an accommodating space is formed in the shell unit; and the processing unit is arranged inside the shell unit and comprises an active oxygen processing assembly communicated with the first air inlet, a chloride ion processing assembly arranged on one side of the active oxygen processing assembly and a connecting piece fixed on the inner side surface of the shell unit and communicated with the active oxygen processing assembly and the chloride ion processing assembly.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the active oxygen treatment assembly comprises a gas barrel, a filter plate inserted in the gas barrel, an ionization part arranged above the filter plate, and a first end cover covering the top of the gas barrel, wherein a first pipe connector is arranged in the center of the first end cover and matched with the connecting part.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the gas barrel comprises a second air inlet correspondingly arranged with the first air inlet, the shell unit further comprises a guide plate arranged between the second air inlet and the first air inlet, an opening of the guide plate is respectively attached to the second air inlet and the first air inlet, and the guide plate is fixed on the shell unit.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the ionization part comprises an electrode fixing seat fixed on the lower surface of the first end cover, a conductor electrode arranged on the electrode fixing seat, and a battery arranged at the bottom of the shell unit and electrically connected with the conductor electrode.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the filter is including setting up in the side and with the limiting plate of laminating of gas barrel side to and set up in the handle of limiting plate side, the gas barrel include with filter complex first recess.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the chloride ion treatment component comprises a liquid barrel arranged on one side of the gas barrel, a second end cover matched with the liquid barrel, a water spraying piece arranged in the liquid barrel and matched with the second end cover, a water spraying piece matched with the bottom of the second end cover and a water pump arranged at the bottom of the shell unit and matched with the water spraying piece, wherein the water pump is connected with the liquid barrel and the water spraying piece through a water pipe.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the second end cover comprises a hollow cylinder arranged at the center, a second pipe connector arranged right above the hollow cylinder and communicated with the hollow cylinder, a plurality of first holes penetrating through the bottom surface of the hollow cylinder and matched with the air guide pipe, and an air outlet hole wrapping the hollow cylinder, wherein the second pipe connector is matched with the connecting piece.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the first pipe connector and the second pipe connector are bent pipes, the connectors of the connecting piece are horizontally arranged, limiting parts are arranged in the connectors at two ends of the connecting piece, and the first pipe connector and the second pipe connector are matched with the limiting parts.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the sprinkler comprises a fixed box body fixedly connected with the hollow cylinder, a rotary box body in rotary fit with the fixed box body, and a sprinkler pipe communicated with the rotary box body, wherein an atomizing nozzle is arranged on the sprinkler pipe.

As a preferable scheme of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the system comprises: the shell unit is still including setting up in the loading board of lower half, and set up in the third air intake of first air intake below, gaseous bucket with the liquid bucket all set up in on the loading board, be provided with the second hole on the loading board, gaseous barrel bottom be provided with second hole complex third hole, the processing unit still including set up in the fan of second hole below.

The invention has the advantages that the active oxygen treatment component and the chloride ion treatment component are respectively arranged in the two drums and are communicated only through the connecting piece through which gas passes, so that the risk of electric leakage is avoided; the gas is purified by the active oxygen treatment assembly, inserted into the chlorine-containing solution through the plurality of gas guide pipes, and then fully contacted with the chlorine-containing solution in a bubbling mode, and the gas emerging from the liquid can be discharged only by being sprayed out by the water spraying piece and put into the atomized chlorine-containing solution, so that the purification effect is better.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is a block diagram of an oxychloride ion purification system for waste gas treatment in the biopharmaceutical industry in example 1.

FIG. 2 is a schematic diagram of the chlorine-oxygen ion purification system for waste gas treatment in the biopharmaceutical industry of example 1 after removing the double doors.

FIG. 3 is a block diagram of the treatment unit of the chlorine-oxygen ion purification system for waste gas treatment in the biopharmaceutical industry in example 1.

Fig. 4 is an exploded view of the treatment unit of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry in example 1.

FIG. 5 is a block diagram of the second end cap and sprinkler of the chlorine-oxygen ion purification system for waste gas treatment of the biopharmaceutical industry in example 1.

Fig. 6 is another perspective structural view of the second end cap and sprinkler of the chlorine-oxygen ion purification system for waste gas treatment in the biopharmaceutical industry in example 1.

Fig. 7 is a cross-sectional view of the gas barrel of the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry in example 1.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 7, a first embodiment of the present invention provides a chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry, the chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry includes a housing unit 100 and a processing unit 200, the processing unit 200 is disposed inside the housing unit 100, and waste gas enters a gas barrel 201a through a first air inlet 101, and is sequentially purified by a filter plate 201b, active oxygen, a liquid chloride solution, and a mist chloride solution for four times, and then is discharged.

Specifically, the housing unit 100 has an accommodating space formed therein, and includes a first air inlet 101 and an air outlet 102 disposed on the same side, and a double door 103 disposed on the other side, wherein the air outlet 102 is disposed on the upper portion of the housing unit 100 and is a rectangular hole disposed at an interval. If it is defined that the air outlet 102 is disposed at the front side, the double door 103 is disposed at the back side, the rotation axis of the double door 103 is disposed at the central axis of the back side of the housing unit 100, and when the double door 103 is opened, the air barrel 201a and the liquid barrel 202a can be screwed out of the housing unit 100.

The treatment unit 200 comprises an active oxygen treatment assembly 201 communicated with the first air inlet 101, a chloride ion treatment assembly 202 arranged on one side of the active oxygen treatment assembly 201, and a connecting piece 203 fixed on the inner side surface of the casing unit 100 and communicated with the active oxygen treatment assembly 201 and the chloride ion treatment assembly 202. The active oxygen treatment component 201 comprises a gas barrel 201a, a filter plate 201b inserted in the gas barrel 201a, an ionization part 201c arranged above the filter plate 201b, and a first end cover 201d covering the top of the gas barrel 201a, wherein a first pipe interface 201d-1 is arranged in the center of the first end cover 201d, the first pipe interface 201d-1 is matched with a connecting part 203, the filter plate 201b has two functions, the filter plate has a two-layer structure, and a waterproof filter plate is arranged at the lower layer and can prevent water mist from penetrating through the filter plate. The upper strata is the active carbon filter plate, but the pollutant in the prefilter waste gas, and ionization spare 201c ionization produces active oxygen composition, through its strong oxidation characteristic, gets rid of the microorganism in the waste gas to carry out oxidative decomposition to partial VOCs and smell molecule.

Further, the gas barrel 201a includes a second air inlet 201a-1 corresponding to the first air inlet 101, the housing unit 100 further includes a guide plate 104 disposed between the second air inlet 201a-1 and the first air inlet 101, an opening of the guide plate 104 is respectively attached to the second air inlet 202a-1 and the first air inlet 101, and the guide plate 104 is fixed to the housing unit 100 and functions to prevent the waste gas from entering other places of the housing unit 100, and to allow more waste gas to enter the gas barrel 201 a. The ionization part 201c includes an electrode holder 201c-1 fixed to a lower surface of the first end cap 201d, a conductor electrode 201c-2 disposed on the electrode holder 201c-1, and a battery 201c-3 disposed at a bottom of the housing unit 100 and electrically connected to the conductor electrode 201 c-2. The filter 201b comprises a limiting plate 201b-1 arranged on the side face and attached to the side face of the gas barrel 201a and a handle 201b-2 arranged on the side face of the limiting plate 201b-1, the gas barrel 201a comprises a first groove 201a-2 matched with the filter 201b, and the filter 201b is arranged below the ionization piece 201c, so that waste gas firstly passes through the filter 201b to be discharged and preliminarily filtered and then contacts with ionized active oxygen, on one hand, the purification efficiency and effect can be improved, and on the other hand, electricity leakage can be prevented. The filter plate 201b is inserted into the gas barrel 201a for easy replacement.

Further, the chloride ion treatment assembly 202 includes a liquid barrel 202a disposed on one side of the gas barrel 201a, a second end cap 202b engaged with the liquid barrel 202a, a plurality of gas tubes 202c disposed in the liquid barrel 202a and engaged with the second end cap 202b, a water spray member 202d engaged with the bottom of the second end cap 202b, and a water pump 202e disposed at the bottom of the housing unit 100 and engaged with the water spray member 202d, wherein the water pump 201c-3 is connected to the liquid barrel 202a and the water spray member 202d through a water tube 202 f. The diameter of the air duct 202c should be small, and the air duct 202c is provided to make the air sufficiently contact with the air purification liquid in a bubbling manner, and if the diameter of the air duct 202c is too large, the air bubbles will be too large to make the air sufficiently contact with the liquid. The side surfaces of the gas barrel 201a and the liquid barrel 202a are symmetrically provided with rotating shaft holes, the housing unit 100 further comprises rotating shafts matched with the rotating shaft holes, namely, the gas barrel 201a and the liquid barrel 202a can rotate, the top view of the housing unit 100 is an ellipse, the rotating shafts are arranged at two ends of the long axis of the ellipse, and therefore, when the gas barrel 201a and the liquid barrel 202a rotate respectively by the rotating shafts, the housing unit 100 can be screwed out. The second end cap 202b comprises a hollow cylinder 202b-1 arranged at the center, a second pipe interface 202b-2 arranged right above the hollow cylinder 202b-1 and communicated with the hollow cylinder, a plurality of first holes 202b-3 penetrating through the bottom surface of the hollow cylinder 202b-1 and matched with the gas guide pipe 202c, and a gas outlet hole 202b-4 wrapping the hollow cylinder 202b-1, wherein the second pipe interface 202b-2 is matched with a connecting piece 203, the first pipe interface 201d-1 and the second pipe interface 202b-2 are bent pipes, the interfaces of the connecting piece 203 are horizontally arranged, a limiting part 203a is arranged in each interface at the two ends of the connecting piece, and the first pipe interface 201d-1 and the second pipe interface 202b-2 are matched with the limiting part 203a, so that two pipe interfaces are arranged, the first advantage is that the installation is convenient, the gas barrel 201a is screwed out of the shell unit 100, the first pipe interface 201d-1 is separated from the connection member 203, and when the gas cylinder 201a is screwed to the housing unit 100, the first pipe interface 201d-1 is coupled to the connection member 203; the second advantage is that the first pipe interface 201d-1 is limited by the limiting part 203a, that is, the gas barrel 201a rotates to a certain angle, and after the end surface of the first pipe interface 201d-1 is attached to the limiting part 203a, the gas barrel 201a cannot rotate any more, and the gas barrel 201a is limited by the connecting part 203. The sprinkling member 202d comprises a fixed box 202d-1 fixedly connected with the hollow cylinder 202b-1, a rotary box 202d-2 rotatably matched with the fixed box 202d-1, and a sprinkling pipe 202d-3 communicated with the rotary box 202d-2, the sprinkling pipe 202d-3 is provided with two atomizing nozzles 202d-4, the sprinkling pipes 202d-3 are symmetrically provided with two atomizing nozzles 202d-4, each atomizing nozzle 202d-3 is provided with a plurality of atomizing nozzles 202d-4, the water outlet direction of each atomizing nozzle 202d-4 is clockwise or counterclockwise, and the arrangement is informed that the rotary box 202d-2 can rotate when the atomizing nozzle 202d-4 sprays atomized liquid, so that the whole liquid barrel 202a can be filled with atomized chloride liquid drops, the waste gas can be better contacted with the atomized chloride. Preferably, the bottom of the liquid barrel 202a is provided with a liquid outlet, and when the chloride solution needs to be replaced, the liquid can be discharged through the liquid outlet.

Further, the housing unit 100 further includes a bearing plate 105 disposed on the lower half portion and a third air inlet 106 disposed below the first air inlet 101, the gas barrel 201a and the liquid barrel 202a are both disposed on the bearing plate 105, the bearing plate 105 is provided with a second hole 105a, the bottom surface of the gas barrel 201a is provided with a third hole 201a-3 engaged with the second hole 105a, and the processing unit 200 further includes a fan 204 disposed below the second hole 105 a. The third air inlet 106 is a rectangular hole provided at an interval, and is provided at upper and lower sides of the housing unit 100 corresponding to the air outlet 102, because air is supplied to the blower 204. The fan 204 faces the second hole 105a of the bearing plate 105 and the third hole 201a-3 of the gas barrel 201a, and the fan 204 is arranged to make gas flow, so as to prevent the waste gas in the gas barrel 201a from having insufficient pressure and being unable to enter the liquid barrel 202 a. The bearing plate 105 and the housing unit 100 can be connected by welding or screws and are fixed on the housing unit 100, the fan 204, the battery 201c-3 and the water pump 202e are all arranged below the bearing plate 105, preferably, the battery 201c-3 and the water pump 202e are separated by a partition plate, and the liquid thrown out of the water pump 202e is prevented from contacting with the battery 201c-3 to cause electric leakage.

In summary, the housing unit 100 is provided with the first air inlet 101, the air outlet 102 and the double door 103, the double door 103 is disposed on the opposite side of the first air inlet 101 and the air outlet 102, the air barrel 201a and the liquid barrel 202a are disposed inside the housing unit 100 side by side, and the air barrel 201a and the liquid barrel 202a can be respectively screwed out of the housing unit 100. The gas barrel 201a is internally provided with a filter plate 201b and an ionization part 201c, the liquid barrel 202a is internally provided with chloride solution, and a water sprinkling part 202d is arranged above the inside of the liquid barrel 202a, so that atomized chloride solution can be sprayed out, the gas purified by the gas barrel 201a is guided into air purification liquid through a gas guide pipe 202c and fully contacts with the chloride solution in a bubbling mode, and the gas emerging from the liquid can be sprayed out through the water sprinkling part 202d and put into atomized chlorine solution to be discharged, and the fan 201 is arranged under the gas barrel 201a, and the air can be blown into the gas barrel 201a through the fan 201 to flow according to a preset line.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. A chlorine-oxygen ion purification system for waste gas treatment in the biomedical industry is characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the air conditioner comprises a shell unit (100), a first air inlet (101) and an air outlet (102) which are arranged on the same side, and a double door (103) arranged on the other side, wherein a containing space is formed in the shell unit; and the number of the first and second groups,

the treatment unit (200) is arranged inside the shell unit (100) and comprises an active oxygen treatment assembly (201) communicated with the first air inlet (101), a chloride ion treatment assembly (202) arranged on one side of the active oxygen treatment assembly (201), and a connecting piece (203) fixed on the inner side surface of the shell unit (100) and communicated with the active oxygen treatment assembly (201) and the chloride ion treatment assembly (202).

2. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 1, wherein: the active oxygen treatment assembly (201) comprises a gas barrel (201a), a filter plate (201b) inserted into the gas barrel (201a), an ionization part (201c) arranged above the filter plate (201b), and a first end cover (201d) covered on the top of the gas barrel (201a), wherein a first pipe interface (201d-1) is arranged in the center of the first end cover (201d), and the first pipe interface (201d-1) is matched with the connecting part (203).

3. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 2, wherein: the gas barrel (201a) comprises a second air inlet (201a-1) correspondingly arranged with the first air inlet (101), the shell unit (100) further comprises a guide plate (104) arranged between the second air inlet (201a-1) and the first air inlet (101), openings of the guide plate (104) are respectively attached to the second air inlet (202a-1) and the first air inlet (101), and the guide plate (104) is fixed on the shell unit (100).

4. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 3, wherein: the ionization part (201c) comprises an electrode fixing seat (201c-1) fixed on the lower surface of the first end cover (201d), a conductor electrode (201c-2) arranged on the electrode fixing seat (201c-1), and a battery (201c-3) arranged at the bottom of the shell unit (100) and electrically connected with the conductor electrode (201 c-2).

5. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 4, wherein: the gas barrel is characterized in that the filter plate (201b) comprises a limiting plate (201b-1) arranged on the side face and attached to the side face of the gas barrel (201a), and a handle (201b-2) arranged on the side face of the limiting plate (201b-1), and the gas barrel (201a) comprises a first groove (201a-2) matched with the filter plate (201 b).

6. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 5, wherein: the chloride ion treatment assembly (202) comprises a liquid barrel (202a) arranged on one side of the gas barrel (201a), a second end cover (202b) matched with the liquid barrel (202a), a plurality of air guide pipes (202c) arranged in the liquid barrel (202a) and matched with the second end cover (202b), a sprinkling piece (202d) matched with the bottom of the second end cover (202b), and a water pump (202e) arranged at the bottom of the shell unit (100) and matched with the sprinkling piece (202d), wherein the water pump (201c-3) is connected with the liquid barrel (202a) and the sprinkling piece (202d) through a water pipe (202 f).

7. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 6, wherein: the second end cover (202b) comprises a hollow cylinder (202b-1) arranged at the center, a second pipe connector (202b-2) arranged right above the hollow cylinder (202b-1) and communicated with the hollow cylinder, a plurality of first holes (202b-3) penetrating through the bottom surface of the hollow cylinder (202b-1) and matched with the air guide pipe (202c), and air outlet holes (202b-4) wrapping the hollow cylinder (202b-1), wherein the second pipe connector (202b-2) is matched with the connecting piece (203).

8. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 7, wherein: the first pipe interface (201d-1) and the second pipe interface (202b-2) are bent pipes, the interfaces of the connecting piece (203) are horizontally arranged, limiting parts (203a) are arranged in the interfaces at the two ends of the connecting piece, and the first pipe interface (201d-1) and the second pipe interface (202b-2) are matched with the limiting parts (203 a).

9. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 8, wherein: the sprinkling piece (202d) comprises a fixed box body (202d-1) fixedly connected with the hollow cylinder (202b-1), a rotary box body (202d-2) in rotary fit with the fixed box body (202d-1), and a sprinkling pipe (202d-3) communicated with the rotary box body (202d-2), wherein an atomizing nozzle (202d-4) is arranged on the sprinkling pipe (202 d-3).

10. The oxychloride ion purification system for use in the treatment of waste gas from the biopharmaceutical industry of claim 9, wherein: the shell unit (100) further comprises a bearing plate (105) arranged on the lower half part, and a third air inlet (106) arranged below the first air inlet (101), the gas barrel (201a) and the liquid barrel (202a) are arranged on the bearing plate (105), a second hole (105a) is formed in the bearing plate (105), a third hole (201a-3) matched with the second hole (105a) is formed in the bottom surface of the gas barrel (201a), and the processing unit (200) further comprises a fan (204) arranged below the second hole (105 a).

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