CN207877497U - A kind of efficient ammonia still process recycling ammonium hydroxide structure - Google Patents
A kind of efficient ammonia still process recycling ammonium hydroxide structure Download PDFInfo
- Publication number
- CN207877497U CN207877497U CN201820137021.1U CN201820137021U CN207877497U CN 207877497 U CN207877497 U CN 207877497U CN 201820137021 U CN201820137021 U CN 201820137021U CN 207877497 U CN207877497 U CN 207877497U
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- ammonia still
- solenoid valve
- blending tank
- catheter
- combination
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Abstract
The utility model belongs to Industrial Wastewater Treatment applied technical field, specifically disclose a kind of efficient ammonia still process recycling ammonium hydroxide structure, by wastewater collection pond, and the lime electric hybrid module being used in combination with wastewater collection pond, and the clarifying basin being used in combination with lime electric hybrid module, and the negative pressure ammonia still being used in combination with clarifying basin, and the clarifier being used in combination with negative pressure ammonia still forms.A kind of advantageous effect of efficient ammonia still process recycling ammonium hydroxide structure of the utility model is:Its design structure is reasonable, and waste water enters condenser by tower top, is fully liquefied, the liquid portion again from overhead reflux to tower in, remainder is transported to product storage tank as product, as ammonia constantly volatilizees, ammonia density is lower and lower in liquid, and 98% or more ammonia in water is converted to ammonium hydroxide and is recycled.
Description
Technical field
The utility model belongs to Industrial Wastewater Treatment applied technical field, and in particular to a kind of efficient ammonia still process recycling ammonium hydroxide knot
Structure.
Background technology
Industrial wastewater (industrial wastewater) includes production waste water, production waste and cooling water, refers to industry
The waste water and waste liquid generated in production process, wherein containing outflow with water industrial production materials, intermediate product, byproduct and
The pollutant generated in production process.Industrial wastewater type is various, complicated component, such as contains mercury in electrolytic salt industrial wastewater,
The various metals such as the leaded, cadmium of heavy metal metallurgy industry waste water, containing each heavy metal species such as cyanide and chromium, stone in metal plating waste water
Contain phenol in oil refining industrial wastewater, contains various pesticides etc. in pesticide process industry waste water, there are many often containing in industrial wastewater
Noxious material, pollution environment has very big harm to human health, therefore Development & Multipurpose use is wanted to turn harm into good, and according in waste water
Pollutant component and concentration can just discharge after taking corresponding control techniques to be disposed.
A large amount of ammonia nitrogen is all generated in the processing procedure of most of industrial wastewaters, this just needs to carry out ammonia nitrogen a series of
The processing such as purification, to reach the requirement of recycling, and this is currently urgently to be solved.
Therefore, based on the above issues, the utility model provides a kind of efficient ammonia still process recycling ammonium hydroxide structure.
Utility model content
Purpose of utility model:The purpose of this utility model is to provide a kind of efficient ammonia still process recycling ammonium hydroxide structure, design knot
Structure is reasonable, and waste water enters condenser by tower top, is fully liquefied, the liquid portion again from overhead reflux to tower in, remainder
It is transported to product storage tank as product, as ammonia constantly volatilizees, ammonia density is lower and lower in liquid, 98% or more ammonia in water
Ammonium hydroxide is converted to be recycled.
Technical solution:The utility model provides a kind of efficient ammonia still process recycling ammonium hydroxide structure, by wastewater collection pond, and and waste water
The lime electric hybrid module that collecting pit is used in combination, and the clarifying basin that is used in combination with lime electric hybrid module, and and clarifying basin
The negative pressure ammonia still being used in combination, and the clarifier being used in combination with negative pressure ammonia still form;The lime electric hybrid module,
Including frame, and the blending tank that is arranged in frame, and the seal closure that is arranged on blending tank, and what is be arranged in seal closure determine
Position set, and the bearing that is arranged in positioning sleeve, and be located at the mixing axis in blending tank through bearing and one end, and be arranged and mixing
Several combination tooths on axis, and be arranged in blending tank and sealed with the supporting block that mixes axis and be used in combination, and setting
In cover and with mix gear-box, the driving motor that axis is used in combination, and be arranged in the lime blending tank of blending tank side and two
End mixes tank connected first catheter with blending tank, lime respectively, and be arranged on the first catheter the first drawing liquid pump, the
One solenoid valve, wherein connected by the second catheter between wastewater collection pond and blending tank, the second catheter is provided with the second pumping
Liquid pump, second solenoid valve;The clarifying basin, including the first deflector, the second deflector that are arranged in clarifying basin, and and one end
It is connect with blending tank, the other end is located at third catheter above clarifying basin, and the third drawing liquid being arranged on third catheter
Pump, third solenoid valve;It is connected by the 4th catheter between the negative pressure ammonia still and clarifying basin, wherein the 4th catheter
One end is located in clarifying basin, and the 4th drawing liquid pump, the 4th solenoid valve being arranged on the 4th catheter;The negative pressure ammonia still with
It is connected by gas-guide tube between clarifier, and pumping wind turbine, the 5th solenoid valve being arranged on gas-guide tube.
The technical program, ammonium hydroxide structure is recycled in the efficient ammonia still process, further includes control assembly, wherein control assembly by
Microcontroller, liquid crystal display, data transceiving unit and prewarning unit composition, liquid crystal display, data transceiving unit, early warning list
Member, the first drawing liquid pump, the first solenoid valve, the second drawing liquid pump, second solenoid valve, third drawing liquid pump, third solenoid valve, the 4th drawing liquid
Pump, the 4th solenoid valve, pumping wind turbine, the 5th solenoid valve are connect with the microcontroller of control assembly respectively.
Compared with prior art, a kind of advantageous effect of efficient ammonia still process recycling ammonium hydroxide structure of the utility model is:Its
Design structure is reasonable, and waste water enters condenser by tower top, is fully liquefied, the liquid portion again from overhead reflux to tower in, remain
Remaining part is allocated as being transported to product storage tank for product, and as ammonia constantly volatilizees, ammonia density is lower and lower in liquid, the ammonia in water
98% or more, which is converted to ammonium hydroxide, is recycled.
Description of the drawings
Fig. 1 is a kind of structural schematic diagram of efficient ammonia still process recycling ammonium hydroxide structure of the utility model;
Wherein, serial number mark is as follows in figure:1- waste water collecting tank, 2- frames, 3- blending tanks, 4- lime blending tank, 5- are clear
Clear pond, 6- negative pressure ammonia still, 7- clarifiers, the second catheters of 8-, the second drawing liquid pumps of 9-, 10- second solenoid valves, 11- first are led
Liquid pipe, the first drawing liquid pumps of 12-, the first solenoid valves of 13-, 14- seal closures, 15- gear-boxes, 16- driving motors, 17- positioning sleeves,
18- bearings, 19- mixing axis, 20- combination tooths, 21- supporting blocks, 22- thirds catheter, 23- thirds drawing liquid pump, 24- third electromagnetism
Valve, the first deflectors of 25-, the second deflectors of 26-, the 4th catheters of 27-, the 4th drawing liquid pumps of 28-, the 4th solenoid valves of 29-, 30-
Gas-guide tube, 31- pumpings wind turbine, the 5th solenoid valves of 32-.
Specific implementation mode
In the following with reference to the drawings and specific embodiments, the utility model is furtherd elucidate.
Ammonium hydroxide structure is recycled in a kind of efficient ammonia still process as shown in Figure 1, matches by wastewater collection pond 1, and with wastewater collection pond 1
The lime electric hybrid module that uses is closed, and the clarifying basin 5 being used in combination with lime electric hybrid module, and matches and make with clarifying basin 5
Negative pressure ammonia still 6 (using Jiangxi it is resistance to can chemical industry equipment filler Co., Ltd production negative pressure ammonia still), and with negative pressure steam
The clarifier 7 that ammonia tower 6 is used in combination forms;Lime electric hybrid module, including frame 2, and the blending tank 3 that is arranged in frame 2,
And the seal closure 14 being arranged on blending tank 3, and the positioning sleeve 17 that is arranged in seal closure 14, and be arranged in positioning sleeve 17
Bearing 18, and be located at the mixing axis 19 in blending tank 3 through bearing 18 and one end, and be arranged on mixing axis 19 several are mixed
Close tooth 20, and be arranged in the blending tank 3 and with the supporting block 21 that mix axis 19 and be used in combination, and setting it is interior in seal closure 14 and
With mix gear-box 15, the driving motor 16 that axis 19 is used in combination, and the lime blending tank 4 in 3 side of blending tank is set, and
The first catheter 11 that both ends are connect with blending tank 3, lime blending tank 4 respectively, and be arranged on the first catheter 11 first
Drawing liquid pump 12, the first solenoid valve 13, wherein connected by the second catheter 8 between wastewater collection pond 1 and blending tank 3, second leads
Liquid pipe 8 is provided with the second drawing liquid pump 9, second solenoid valve 10;Clarifying basin 5, including the first deflector for being arranged in clarifying basin 5
25, the second deflector 26 (height that the height of the first deflector 25 is more than the second deflector 26 is step type), and with one end with
The connection of blending tank 3, the other end are located at the third catheter 22 of 5 top of clarifying basin, and the third being arranged on third catheter 22
Drawing liquid pump 23, third solenoid valve 24;It is connected by the 4th catheter 27 between negative pressure ammonia still 6 and clarifying basin 5, wherein the 4th
One end of catheter 27 is located in clarifying basin 5, and the 4th drawing liquid pump 28, the 4th solenoid valve being arranged on the 4th catheter 27
29;Connected by gas-guide tube 30 between negative pressure ammonia still and clarifier 7, and be arranged on gas-guide tube 30 pumping wind turbine 31,
Five solenoid valves 32.
It is further preferred that efficiently ammonium hydroxide structure is recycled in ammonia still process, further include control assembly, wherein control assembly is by monolithic
Machine, liquid crystal display, data transceiving unit and prewarning unit composition, liquid crystal display, data transceiving unit, prewarning unit, the
One drawing liquid pump 12, the first solenoid valve 13, the second drawing liquid pump 9, second solenoid valve 10, third drawing liquid pump 23, third solenoid valve 24,
Four drawing liquid pumps 28, the 4th solenoid valve 29, pumping wind turbine 31, the 5th solenoid valve 32 are connect with the microcontroller of control assembly respectively.
Ammonium hydroxide structure is recycled in the efficient ammonia still process of this structure, respectively further comprises and is arranged in wastewater collection pond 1, blending tank 3, lime
Blending tank 4, clarifying basin 5, negative pressure ammonia still 6, the temperature sensor in clarifier 7, and be separately positioned on blending tank 3, negative pressure is steamed
Pressure sensor in ammonia tower 6, clarifier 7, and it is separately positioned on the second catheter 8, the first catheter 11, third catheter
22, the flow sensor in the 4th catheter 27, wherein several temperature sensors, several pressure sensors, several streams
Fast sensor with the microcontroller of control assembly, and then realizes intelligentized production operation purpose respectively.
The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art
It for art personnel, without departing from the principle of this utility model, can also make several improvements, these improvement also should be regarded as
The scope of protection of the utility model.
Claims (2)
1. ammonium hydroxide structure is recycled in a kind of efficient ammonia still process, it is characterised in that:By wastewater collection pond (1), and with wastewater collection pond (1) phase
The lime electric hybrid module being used cooperatively, and the clarifying basin (5) that is used in combination with lime electric hybrid module, and with clarifying basin (5) phase
The negative pressure ammonia still (6) being used cooperatively, and the clarifier (7) being used in combination with negative pressure ammonia still (6) form;The lime is mixed
Seaming element, including frame (2), and blending tank (3) of the setting in frame (2), and seal closure of the setting on blending tank (3)
(14), and positioning sleeve (17) in seal closure (14) is set, and the bearing (18) being arranged in positioning sleeve (17), and runs through axis
It holds (18) and one end is located at mixing axis (19) in blending tank (3), and several combination tooths of setting on mixing axis (19)
(20), and setting in the blending tank (3) and with the supporting block (21) that mix axis (19) and be used in combination, and setting is in seal closure
(14) in and with mix gear-box (15), the driving motor (16) that axis (19) is used in combination, and setting is in blending tank (3) side
Lime blending tank (4) and the first catheter (11) for being connect respectively with blending tank (3), lime blending tank (4) of both ends, and set
Set the first drawing liquid pump (12), the first solenoid valve (13) on the first catheter (11), wherein wastewater collection pond (1) with mix
It is connected by the second catheter (8) between tank (3), the second catheter (8) is provided with the second drawing liquid pump (9), second solenoid valve
(10);The clarifying basin (5), include the first deflector (25), the second deflector (26) in clarifying basin (5) is set, and with
One end is connect with blending tank (3), the other end is located at the third catheter (22) above clarifying basin (5), and is arranged in third drain
Manage third drawing liquid pump (23), the third solenoid valve (24) on (22);Pass through between the negative pressure ammonia still (6) and clarifying basin (5)
4th catheter (27) connects, wherein one end of the 4th catheter (27) is located in clarifying basin (5), and is arranged in the 4th drain
Manage the 4th drawing liquid pump (28), the 4th solenoid valve (29) on (27);Pass through air guide between the negative pressure ammonia still and clarifier (7)
(30) connection is managed, and pumping wind turbine (31), the 5th solenoid valve (32) being arranged on gas-guide tube (30).
2. ammonium hydroxide structure is recycled in a kind of efficient ammonia still process according to claim 1, it is characterised in that:The efficient ammonia still process recycling
Ammonium hydroxide structure further includes control assembly, wherein control assembly is by microcontroller, liquid crystal display, data transceiving unit and early warning list
Member composition, liquid crystal display, data transceiving unit, prewarning unit, the first drawing liquid pump (12), the first solenoid valve (13), second are taken out
Liquid pump (9), second solenoid valve (10), third drawing liquid pump (23), third solenoid valve (24), the 4th drawing liquid pump (28), the 4th electromagnetism
Valve (29), pumping wind turbine (31), the 5th solenoid valve (32) are connect with the microcontroller of control assembly respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820137021.1U CN207877497U (en) | 2018-01-26 | 2018-01-26 | A kind of efficient ammonia still process recycling ammonium hydroxide structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820137021.1U CN207877497U (en) | 2018-01-26 | 2018-01-26 | A kind of efficient ammonia still process recycling ammonium hydroxide structure |
Publications (1)
Publication Number | Publication Date |
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CN207877497U true CN207877497U (en) | 2018-09-18 |
Family
ID=63507715
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820137021.1U Expired - Fee Related CN207877497U (en) | 2018-01-26 | 2018-01-26 | A kind of efficient ammonia still process recycling ammonium hydroxide structure |
Country Status (1)
Country | Link |
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CN (1) | CN207877497U (en) |
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2018
- 2018-01-26 CN CN201820137021.1U patent/CN207877497U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180918 Termination date: 20210126 |