CN217725177U - Deoxygenated water preparation device based on series connection of deoxygenation towers - Google Patents

Abstract

The utility model discloses a deoxygenated water preparation facilities based on deoxygenation tower is established ties, including deoxygenation tower one and deoxygenation tower two, its characterized in that, the top fixedly connected with water pipe of deoxygenation tower one, the surface mounting of water pipe has the water pump, the bottom fixedly connected with UNICOM's pipeline one of deoxygenation tower one, the surface mounting of UNICOM's pipeline one has the relay pump, the bottom fixedly connected with UNICOM's pipeline two of deoxygenation tower two, the surface mounting of UNICOM's pipeline two has finished product water pump, one side bottom fixedly connected with carbon dioxide pipeline of deoxygenation tower two, deoxygenation tower two is kept away from one side top fixedly connected with UNICOM's pipeline three of carbon dioxide pipeline, the surface mounting of UNICOM's pipeline three has UNICOM valve, beneficial effect: the condition that dissolved oxygen in deoxygenated water cannot meet the use requirement due to the fact that the height of a deoxygenation tower is limited on site and the height of the deoxygenation tower cannot meet the requirement of full mixing of raw water and carbon dioxide is solved through series connection.

Description

Deoxygenated water preparation device based on series connection of deoxygenation towers

Technical Field

The utility model relates to a making wine equipment technical field particularly, relates to a deoxygenated water preparation facilities based on deoxygenation tower is established ties.

Background

In the production of deoxygenated water, the CO2 entering the deoxygenation tower needs to be fully mixed with water, dissolved oxygen is guaranteed to meet the process requirement (generally below 10 PPB), and the deoxygenation tower is required to meet the requirement of sufficient reaction and replacement time of the CO2 and the water in design, so that a deoxygenation tower deoxygenation mode which is simple and reliable, high in mixing efficiency and better in adaptability to the existing buildings is particularly important.

The traditional deoxygenation tower has two main problems: 1. the reaction and replacement space is insufficient. At present, the deoxidation towers of a plurality of equipment manufacturers at home are designed according to the height space of the existing factory buildings, most of the factory buildings are low in height and cannot meet the requirement of the time for fully mixing CO2 and water, so that the equipment efficiency is low, and the product index is abnormal; 2. the plant implementation cost is high. If the plant design is simply carried out according to the mode of meeting the height of the deoxygenation tower and fully mixing, the construction cost of the building can be greatly increased, and the construction difficulty is increased. Therefore, it is important to design a preparation scheme of deoxygenated water that can not only fully mix CO2 with water, but also reduce the construction cost of a factory building.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a deoxygenated water preparation facilities based on deoxygenation tower is established ties to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a deoxygenated water preparation facilities based on deoxygenation tower is established ties, includes deoxygenation tower one and deoxygenation tower two, its characterized in that, the top fixedly connected with water pipe of deoxygenation tower one, the surface mounting of water pipe has the water pump, the bottom fixedly connected with communication pipeline one of deoxygenation tower one, the one end of communication pipeline one with the top of deoxygenation tower two is connected, the surface mounting of communication pipeline one has the relay pump, the bottom fixedly connected with communication pipeline two of deoxygenation tower two, the surface mounting of communication pipeline two has the finished product water pump, one side bottom fixedly connected with carbon dioxide pipeline of deoxygenation tower two, deoxygenation tower two is kept away from one side top fixedly connected with communication pipeline three of carbon dioxide pipeline, the one end of communication pipeline three with the bottom fixed connection of deoxygenation tower one, the surface mounting of communication pipeline three has the communication valve.

Furthermore, a first blow-down valve is arranged at the bottom of the first communication pipeline.

Furthermore, the top of one side of the first deoxygenation tower, which is far away from the water pipe, is fixedly connected with an emptying pipeline.

Furthermore, a second blow-off valve is arranged at the bottom of the second communication pipeline.

Furthermore, a third blow-off valve is arranged at the bottom of the third communicating pipeline.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) The device comprises a first deoxygenation tower, a second deoxygenation tower, a water pipe, a water pump, a first communication pipeline, a relay pump, a second communication pipeline, a finished water pump, a carbon dioxide pipeline, a third communication pipeline and a communication valve, wherein the first deoxygenation tower, the second deoxygenation tower, the water pump, the first communication pipeline, the relay pump, the second communication pipeline, the finished water pump, the carbon dioxide pipeline and the third communication pipeline are arranged in series, and the problem that dissolved oxygen in deoxygenated water cannot meet the use requirement due to the fact that the height of a site is limited and the height of the deoxygenation tower cannot meet the requirement for fully mixing raw water and carbon dioxide is solved.

(2) The carbon dioxide washing pipelines of the two deoxygenation towers are also connected in series in the mode, the mixture of carbon dioxide and air discharged from the second deoxygenation tower can enter the first deoxygenation tower to be fully replaced with raw water, and the carbon dioxide consumption in the serial installation mode is guaranteed not to be increased compared with that in a single tower.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, 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 that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a deoxygenated water preparation device based on series connection of deoxygenating towers according to an embodiment of the present invention.

Reference numerals are as follows:

1. a first deoxygenation tower; 2. a second deoxygenation tower; 3. a water pipe; 4. a water pump; 5. communicating a pipeline I; 6. a relay pump; 7. a second communicating pipe; 8. a finished product water pump; 9. a carbon dioxide conduit; 10. a third communicating pipe; 11. a communication valve; 12. a first blowdown valve; 13. emptying the pipeline; 14. a second blow-off valve; 15. and a third blow-down valve.

Detailed Description

The following, with reference to the drawings and the detailed description, further description of the present invention is made:

the first embodiment is as follows:

referring to fig. 1, a deoxygenated water preparation device based on series connection of deoxygenation towers according to an embodiment of the present invention includes a first deoxygenation tower 1 and a second deoxygenation tower 2, and is characterized in that a water pipe 3 is fixedly connected to the top of the first deoxygenation tower 1, a water pump 4 is installed on the surface of the water pipe 3, a first communication pipe 5 is fixedly connected to the bottom of the first deoxygenation tower 1, one end of the first communication pipe 5 is connected to the top of the second deoxygenation tower 2, a relay pump 6 is installed on the surface of the first communication pipe 5, a second communication pipe 7 is fixedly connected to the bottom of the second deoxygenation tower 2, a water pump finished product 8 is installed on the surface of the second communication pipe 7, a carbon dioxide pipeline 9 is fixedly connected to the bottom of one side of the second deoxygenation tower 2, a third communication pipe 10 is fixedly connected to the top of one side of the second deoxygenation tower 2 far away from the carbon dioxide pipeline 9, one end of the third communication pipe 10 is fixedly connected to the bottom of the first deoxygenation tower 1, the water is pumped into a semi-finished product tank through the first communication pipe 3 and the second communication pipe 6, and then pumped into the semi-finished product tank through the second deoxygenation tower 2.

Example two:

referring to fig. 1, the mixed waste gas purifying device comprises a first deoxygenation tower 1 and a second deoxygenation tower 2, and is characterized in that a water pipe 3 is fixedly connected to the top of the first deoxygenation tower 1, a water pump 4 is mounted on the surface of the water pipe 3, a first communication pipeline 5 is fixedly connected to the bottom of the first deoxygenation tower 1, one end of the first communication pipeline 5 is connected to the top of the second deoxygenation tower 2, a relay pump 6 is mounted on the surface of the first communication pipeline 5, a second communication pipeline 7 is fixedly connected to the bottom of the second deoxygenation tower 2, a finished water pump 8 is mounted on the surface of the second communication pipeline 7, a carbon dioxide pipeline 9 is fixedly connected to the bottom of the second deoxygenation tower 2, a third communication pipeline 10 is fixedly connected to the top of the second deoxygenation tower 2 far away from the carbon dioxide pipeline 9, one end of the third communication pipeline 10 is fixedly connected to the bottom of the first deoxygenation tower 1, a communication valve 11 is mounted on the surface of the third communication pipeline 10, a first blowoff valve 12 is mounted at the bottom of the first communication pipeline 5, a side of the first deoxygenation tower 1 far away from the top of the first communication tower 3 is fixedly connected to the bottom of the second deoxygenation tower 1, a mixed waste gas inlet pipeline 13, and a mixed waste gas is discharged into a mixed waste gas saving valve 14, and mixed waste gas is mounted in the second carbon dioxide mixing tower, and mixed waste gas saving valve 13.

In practical application, RO water firstly enters a first deoxygenation tower 1 through a water pipe 3, semi-finished product water is pumped into a second deoxygenation tower 2 through a communicating pipeline 5 and a relay pump 6, then the finished product water is pumped into a deoxygenation water tank through a finished product water pump 8, high-purity carbon dioxide enters the second deoxygenation tower 2 from the bottom of the second deoxygenation tower 2 through a carbon dioxide pipeline 9, the carbon dioxide and the air are mixed fully through a filler in the second deoxygenation tower 2 and then are changed into a mixture of the carbon dioxide and the air, then the mixture enters the bottom of the first deoxygenation tower 1 through a communicating pipeline three 10 and a communicating valve 11, the carbon dioxide and raw water of mixed gas are further mixed through the filler in the first deoxygenation tower 1, and then the mixed waste gas is discharged into the atmosphere through an emptying pipeline 13, so that the effect of saving the carbon dioxide is achieved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a deoxygenated water preparation facilities based on deoxygenation tower is established ties, includes deoxygenation tower (1) and deoxygenation tower two (2), its characterized in that, the top fixedly connected with water pipe (3) of deoxygenation tower one (1), the surface mounting of water pipe (3) has water pump (4), the bottom fixedly connected with communication pipeline one (5) of deoxygenation tower one (1), the one end of communication pipeline one (5) with the top of deoxygenation tower two (2) is connected, the surface mounting of communication pipeline one (5) has relay pump (6), the bottom fixedly connected with communication pipeline two (7) of deoxygenation tower two (2), the surface mounting of communication pipeline two (7) has finished product water pump (8), one side bottom fixedly connected with carbon dioxide pipeline (9) of deoxygenation tower two (2), deoxygenation tower two (2) are kept away from one side top fixedly connected with communication pipeline three (10) of carbon dioxide pipeline (9), the one end of communication pipeline three (10) with the fixed connection of deoxygenation tower one (1), surface mounting has three communication pipeline (11).

2. The deoxygenated water preparation device based on the series connection of the deoxygenation towers as claimed in claim 1, wherein the bottom of the first communication pipeline (5) is provided with a first drainage valve (12).

3. The deoxygenated water preparation device based on the series connection of the deoxygenation towers as claimed in claim 2, wherein a drainage pipeline (13) is fixedly connected to the top of one side of the first deoxygenation tower (1) far away from the water pipe (3).

4. The deoxygenated water preparation device based on the series connection of the deoxygenation towers as claimed in claim 3, wherein a second drainage valve (14) is installed at the bottom of the second communication pipeline (7).

5. The deoxygenated water preparation device based on the series connection of the deoxygenation towers as claimed in claim 4, wherein the bottom of the communication pipeline III (10) is provided with a drain valve III (15).

Images