CN215480132U - Novel membrane method decarbonization device - Google Patents
Novel membrane method decarbonization device Download PDFInfo
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- CN215480132U CN215480132U CN202121828473.2U CN202121828473U CN215480132U CN 215480132 U CN215480132 U CN 215480132U CN 202121828473 U CN202121828473 U CN 202121828473U CN 215480132 U CN215480132 U CN 215480132U
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- decarbonization
- compressed air
- membrane contactor
- regulating valve
- decarburization
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Abstract
The utility model discloses a novel membrane method decarbonization device, which relates to the field of water treatment and comprises a water inlet end, wherein a booster pump is arranged on one side of the water inlet end, a cartridge filter is arranged on one side of the booster pump, a decarbonization membrane contactor is arranged on one side of the cartridge filter, a water production discharge pipe is arranged on one side of the decarbonization membrane contactor, and a compressed air device and a vacuum pump are arranged on the other side of the decarbonization membrane contactor. According to the novel membrane method decarburization device, gas and liquid are fully contacted and mixed, the gas-liquid contact area is enlarged, the degassing efficiency is greatly improved, and the carbon dioxide removal rate is over 99 percent, which cannot be achieved by decarburization through a decarbonizer; in addition, a closed operation environment is provided, no air leakage phenomenon is guaranteed, clean production is realized, the novel membrane method decarburization device has the advantages of high degassing efficiency, small occupied area, simplicity in operation, low maintenance requirement and the like, and the using effect is better than that of a traditional mode.
Description
Technical Field
The utility model relates to the field of water treatment, in particular to a novel membrane method decarburization device.
Background
In the existing water treatment industry, the traditional decarbonization method generally uses a decarbonizer for decarbonization, water enters from the upper part of the decarbonizer, is sprayed by water distribution equipment, and is discharged into a water tank from the lower part after passing through a packing layer, in the decarbonizer, water flow flowing down from the upper part is dispersed into a film shape due to the blocking effect of the packing, air blown from the bottom has a larger contact area with water, and the partial pressure of carbon dioxide in the air is very low, so that carbon dioxide desorbed from water can be taken away, however, the liquid contact area is relatively limited, the degassing efficiency is still to be further improved, the packing of the decarbonizer needs to be replaced regularly, and new troubles are added, therefore, a novel membrane decarbonization device is provided.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide a novel membrane method decarburization device which can effectively solve the problems in the background technology.
In order to achieve the purpose, the utility model adopts the technical scheme that: novel embrane method decarbonization device, including the end of intaking, the one side of end of intaking is equipped with the booster pump, one side of booster pump is equipped with the safety filter ware, one side of safety filter ware is equipped with decarbonization membrane contactor, one side of decarbonization membrane contactor is equipped with the product water delivery pipe, the opposite side of decarbonization membrane contactor is equipped with compressed air ware and vacuum pump, the vacuum pump is located one side of compressed air ware, one side of compressed air ware is equipped with gaseous safety filter ware, the one end surface of compressed air ware is equipped with gas pressure regulating valve, gas pressure regulating valve's one end surface is equipped with the manometer, the one end surface of vacuum pump is equipped with the vacuum gauge.
Preferably, through a water piping connection between end and the booster pump of intaking, be equipped with the cross screw between vacuum pump and the vacuum meter, the one end surface of vacuum pump can be dismantled through the one end surface of cross screw and vacuum meter and be connected.
Preferably, be equipped with first fixed screw thread between compressed air ware and the gas pressure regulating valve, the one end surface of compressed air ware can be dismantled through first fixed screw thread and gas pressure regulating valve's other end surface and be connected.
Preferably, a second fixing thread is arranged between the gas pressure regulating valve and the pressure gauge, and the outer surface of one end of the gas pressure regulating valve is detachably connected with the outer surface of one end of the pressure gauge through the second fixing thread.
Preferably, the decarbonization membrane contactor is in a three-stage series mode.
Preferably, the compressed air device is connected with the decarburization membrane contactor through a first gas pipe, and the vacuum pump is connected with the decarburization membrane contactor through a second gas pipe.
Compared with the prior art, the utility model has the following beneficial effects: according to the novel membrane method decarburization device, gas and liquid are fully contacted and mixed, the gas-liquid contact area is enlarged, the degassing efficiency is greatly improved, and the carbon dioxide removal rate is over 99 percent, which cannot be achieved by decarburization through a decarbonizer; in addition, a closed operation environment is provided, no air leakage phenomenon is guaranteed, clean production is realized, the novel membrane method decarburization device has the advantages of high degassing efficiency, small occupied area, simplicity in operation, low maintenance requirement and the like, and the using effect is better than that of a traditional mode.
Drawings
FIG. 1 is a schematic view showing the overall configuration of a novel membrane process decarburization device of the present invention;
FIG. 2 is a flow chart of the conventional process of the novel membrane decarbonization device;
FIG. 3 is a partial view of a conventional process of the novel membrane process decarburization device of the present invention.
In the figure: 1. a water inlet end; 2. a booster pump; 3. a cartridge filter; 4. a decarbonization membrane contactor; 5. a produced water discharge pipe; 6. a compressed air device; 7. a gas cartridge filter; 8. a gas pressure regulating valve; 9. a pressure gauge; 10. a vacuum gauge; 11. a vacuum pump.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the utility model easily understood, the utility model is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the utility model, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.
Specific embodiments of the present invention are described below with reference to the accompanying drawings.
As shown in fig. 1-3, a novel membrane decarbonization device comprises a water inlet end 1, one side of the water inlet end 1 is provided with a booster pump 2, one side of the booster pump 2 is provided with a cartridge filter 3, one side of the cartridge filter 3 is provided with a decarbonization membrane contactor 4, one side of the decarbonization membrane contactor 4 is provided with a water production discharge pipe 5, the other side of the decarbonization membrane contactor 4 is provided with a compressed air device 6 and a vacuum pump 11, the vacuum pump 11 is located at one side of the compressed air device 6, one side of the compressed air device 6 is provided with a gas cartridge filter 7, the outer surface of one end of the compressed air device 6 is provided with a gas pressure regulating valve 8, the outer surface of one end of the gas pressure regulating valve 8 is provided with a pressure gauge 9, and the outer surface of one end of the vacuum pump 11 is provided with a vacuum gauge 10.
Furthermore, the water inlet end 1 is connected with the booster pump 2 through a water pipe, a cross screw is arranged between the vacuum pump 11 and the vacuum meter 10, and the outer surface of one end of the vacuum pump 11 is detachably connected with the outer surface of one end of the vacuum meter 10 through the cross screw.
Furthermore, be equipped with first fixed screw thread between compressed air ware 6 and the gas pressure regulating valve 8, the one end surface of compressed air ware 6 can be dismantled through the other end surface of first fixed screw thread with gas pressure regulating valve 8 and be connected.
Furthermore, a second fixing thread is arranged between the gas pressure regulating valve 8 and the pressure gauge 9, and the outer surface of one end of the gas pressure regulating valve 8 is detachably connected with the outer surface of one end of the pressure gauge 9 through the second fixing thread.
Further, the decarburization membrane contactor 4 is in a three-stage series mode.
Further, the compressed air device 6 is connected with the decarburization membrane contactor 4 through a first gas pipe, and the vacuum pump 11 is connected with the decarburization membrane contactor 4 through a second gas pipe.
It should be noted that, the utility model is a novel membrane method decarbonization device, when in use, the water to be decarbonized needs to be pressurized to five kilograms by a booster pump 2 through a water inlet end 1, then enters a decarbonization membrane contactor 4 through a security filter 3 to remove carbon dioxide contained in the water, the decarbonization membrane contactor 4 is in a three-stage series mode to remove the carbon dioxide in the water step by step, the carbon dioxide content of the final produced water is less than 0.5ppm, a compressed air device 6 removes impurities in the air through a gas security filter 7, the pressure of the compressed air is adjusted by a gas pressure adjusting valve 8, the pressure is controlled to be 0.7 kilogram, the pressure of the compressed air is measured by a pressure gauge 9, the compressed air enters the decarbonization membrane contactor 4 to sweep the dissolved carbon dioxide in the water, a vacuum pump 11 pumps the sweep air and the dissolved carbon dioxide in the water through the generated negative pressure, a vacuum gauge 10 measures the negative pressure value, the vacuum degree is ensured to be 50mm mercury, and the vacuum degree is practical.
The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (6)
1. Novel embrane method decarbonization device, including intaking end (1), its characterized in that: one side of intaking end (1) is equipped with booster pump (2), one side of booster pump (2) is equipped with safety filter (3), one side of safety filter (3) is equipped with decarbonization membrane contactor (4), one side of decarbonization membrane contactor (4) is equipped with product water delivery pipe (5), the opposite side of decarbonization membrane contactor (4) is equipped with compressed air ware (6) and vacuum pump (11), vacuum pump (11) are located one side of compressed air ware (6), one side of compressed air ware (6) is equipped with gaseous safety filter (7), the one end surface of compressed air ware (6) is equipped with gas pressure regulating valve (8), the one end surface of gas pressure regulating valve (8) is equipped with manometer (9), the one end surface of vacuum pump (11) is equipped with vacuum meter (10).
2. The novel membrane method decarburization device as defined in claim 1, wherein: the utility model discloses a vacuum meter, including intake end (1) and booster pump (2), be equipped with the cross screw between vacuum pump (11) and vacuum meter (10), the one end surface of vacuum pump (11) can be dismantled through the cross screw and be connected with the one end surface of vacuum meter (10) through a water piping connection between intake end (1) and booster pump (2).
3. The novel membrane method decarburization device as defined in claim 1, wherein: be equipped with first fixed screw thread between compressed air ware (6) and gas pressure regulating valve (8), the one end surface of compressed air ware (6) can be dismantled through the other end surface of first fixed screw thread with gas pressure regulating valve (8) and be connected.
4. The novel membrane method decarburization device as defined in claim 1, wherein: and a second fixing thread is arranged between the gas pressure regulating valve (8) and the pressure gauge (9), and the outer surface of one end of the gas pressure regulating valve (8) is detachably connected with the outer surface of one end of the pressure gauge (9) through the second fixing thread.
5. The novel membrane method decarburization device as defined in claim 1, wherein: the decarbonization membrane contactor (4) is in a three-stage series mode.
6. The novel membrane method decarburization device as defined in claim 1, wherein: the compressed air device (6) is connected with the decarburization membrane contactor (4) through a first air pipe, and the vacuum pump (11) is connected with the decarburization membrane contactor (4) through a second air pipe.
Priority Applications (1)
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CN202121828473.2U CN215480132U (en) | 2021-08-06 | 2021-08-06 | Novel membrane method decarbonization device |
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CN202121828473.2U CN215480132U (en) | 2021-08-06 | 2021-08-06 | Novel membrane method decarbonization device |
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CN215480132U true CN215480132U (en) | 2022-01-11 |
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- 2021-08-06 CN CN202121828473.2U patent/CN215480132U/en active Active
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