CN109704449A - A kind of efficient ozone water treatment system and the preparation of continous way ozone and method for treating water - Google Patents

Abstract

The present invention is a kind of efficient ozone water treatment system, belong to field of water treatment equipment, the system includes gas source preparation system, ozone generator, ozone contact tank and vent ozone destructor, and the gas source preparation system includes the air compressor being sequentially connected by pipeline, air accumulator, freezing type drier and absorption drier.Absorption drier is connected with ozone generator, and ozone generator is connected with ozone contact tank, is connected between ozone contact tank and vent ozone destructor by exhaust emission tube road.The present invention also provides a kind of preparation of continous way ozone and method for treating water.The present invention is able to solve the higher problem of gas water content of gas source preparation system preparation, and the efficiency of ozone generator improves, ozone contact tank gas is evenly distributed and easy to repair.

Description

A kind of efficient ozone water treatment system and the preparation of continous way ozone and method for treating water

Technical field

The present invention relates to field of water treatment equipment, especially a kind of efficient ozone water treatment system；The invention further relates to one Kind carries out the preparation of continous way ozone and method for treating water using aforementioned efficient ozone water treatment system.

Background technique

With the development of industrialization and urbanization, the case where water environment pollution, is got worse, and conventional water treatment process is difficult With the various pollutants gone in water removal.Ozone water treatment technology because its removal efficiency is high, performance is stable, without by-products such as solid waste The advantages that object, high degree of automation, it has also become a kind of effective water depth treatment process and be widely implemented in various water process In.

Currently, efficient ozone water treatment system there is problems in the process of running: the preparation of gas source preparation system Gas water content is higher, ozone generator efficiency needs to improve, evenly distributed needs of ozone contact tank gas are improved and are aerated Disk should be designed as maintenance etc. of being more convenient for.

Summary of the invention

The technical problem to be solved by the present invention is in view of the deficiencies of the prior art, provide at a kind of new efficient ozone water Reason system, the system are able to solve the higher problem of gas water content of gas source preparation system preparation, the efficiency of ozone generator It improves, ozone contact tank gas is evenly distributed and aeration plate is easy to repair etc..

Another technical problem to be solved by this invention is to provide the new continous way ozone preparation of one kind and water process side Method.

The technical problem to be solved by the present invention is to what is be achieved through the following technical solutions: the present invention is a kind of efficiently smelly Oxygen water treatment system, its main feature is that: it is described including gas source preparation system, ozone generator, ozone contact tank and vent ozone destructor Gas source preparation system includes the air compressor being sequentially connected by pipeline, air accumulator, freezing type drier and absorbed type drying Machine；Air intake conduit, the outlet side of ozone generator are connected between absorption drier and the inlet end of ozone generator Ozone outlet pipe is connected between ozone contact tank；It is respectively equipped with contact chamber inlet pipeline on the ozone contact tank and connects Pond outlet pipeline is touched, liquidometer is installed on the contact chamber inlet pipeline；Pass through between ozone contact tank and vent ozone destructor Exhaust emission tube road connects, and is also connected with gas exhaustion line on vent ozone destructor.

Above-described efficient ozone water treatment system, further preferred technical solution is: the ozone generator Including horizontal main tank body, there is end cap at the both ends of main tank body by flanged joint；The inlet end of ozone generator inner cavity be equipped with into Air cavity, outlet side are equipped with outlet chamber, and arc chamber is equipped between inlet chamber and outlet chamber；Arc chamber both ends are equipped with plate port, Several discharge cells are equipped between plate port；The discharge cell includes stainless steel tube and discharge tube, electric discharge outer tube layer coating There is insulating layer, stainless steel tube is set in outside discharge tube and is arranged concentrically with discharge tube, is equipped with and puts between stainless steel tube and discharge tube Electric cavity；Plate port is equipped with the circular hole of fixed discharge cell, circular hole and stainless steel tube sealed set, inlet chamber and outlet chamber It is connected to by discharge cavities；High pressure distribution item is fitted in inlet chamber and outlet chamber, high pressure distribution item is connected with each discharge tube； Air intake conduit connection main tank body is simultaneously connected to inlet chamber, and ozone outlet pipe connection main tank body is simultaneously connected to outlet chamber；Ozone hair It is additionally provided with cooling water recirculation system outside raw device, the cooling water recirculation system includes cooling device and water tank, cooling device and master It is connected between the upper end of tank body by cooling device water inlet pipe, passes through cooling device outlet pipe phase between cooling device and water tank Even, be connected between water tank and the lower end of main tank body by cooling water pipe, cooling device water inlet pipe and cooling water pipe all with arc chamber Connection.

Above-described efficient ozone water treatment system, further preferred technical solution is: the material of the insulating layer Material is ceramics, and fuse is also connected between the high pressure distribution item and discharge tube, and the cooling device is plate heat exchanger, plate The thermal medium inlet of formula heat exchanger connects cooling device water inlet pipe, the thermal medium outlet connection cooling device water outlet of plate heat exchanger Pipe.

Above-described efficient ozone water treatment system, further preferred technical solution is: the air intake duct Road is equipped with pressure gauge and dew point hygrometer, and ozone concentration instrument, the gas exhaustion line are equipped on the ozone outlet pipe On tail-gas analyzer is installed.

Above-described efficient ozone water treatment system, further preferred technical solution is: the ozone contact tank Including pond body, aerator and aeration tube, the pond body is to be fixedly connected with the closed structure constituted by bottom plate, top plate and side plate, Be respectively equipped with inlet and outlet in the front side of side plate and rear side, the inlet and outlet respectively with contact chamber water inlet pipe Road is connected with contact chamber outlet pipeline；Exhaust emission tube road is mounted on top plate and is connected to pond body inner cavity；The aerator Including ventilation pipe and two aeration plates being mounted on ventilation pipe, support column is fixed on the bottom plate, ventilation pipe is logical Bindiny mechanism is crossed to be movably arranged on support column；It is provided on corresponding top plate right above aerator and to pass through for aerator Access hole, aeration tube is protruded into pond body by access hole and its outlet side is connected to connection, the inlet end of aeration tube with ventilation pipe It is arranged outside pond body and is connect with ozone outlet pipe.

Above-described efficient ozone water treatment system, further preferred technical solution is: the aeration tube goes out Gas end is connect by threeway with ventilation pipe, and two aeration plates are symmetrically mounted on ventilation pipe.

Above-described efficient ozone water treatment system, further preferred technical solution is: installing on the bottom plate There is lower partition wall, partition wall is installed, the lower partition wall and upper partition wall are preferably by setting on top plate；The top of lower partition wall and top plate Between be equipped with ozone channel, the lower part of lower partition wall is equipped with drain hole；Water stream channel is equipped between the lower part and bottom plate of upper partition wall, on The top of partition wall is equipped with blow vent.

Above-described efficient ozone water treatment system, further preferred technical solution is: the vent ozone destructor There are two installations, and there are two the exhaust emission tube road installations, and each vent ozone destructor connects an exhaust emission tube road, tail gas Discharge line is equipped with valve.

Above-described efficient ozone water treatment system, further preferred technical solution is: connecting on the access hole It is connected to dismountable removable cover, aeration tube passes through removable cover and protrudes into pond body；The pond body is externally provided with gas manifold, gas supply The outlet side of branch pipe connects the inlet end of aeration tube by flange or fast insertion type joint, and the inlet end of gas manifold is smelly for connecting Oxygen outlet pipe；The bindiny mechanism is slot and the inserted link with slot cooperation, and the slot is arranged in support column, described to insert Bar is mounted on ventilation pipe.

The present invention also provides a kind of preparation of continous way ozone and method for treating water, its main feature is that: it is more than this method use The efficient ozone water treatment system, its step are as follows:

(1) air is prepared into compressed air by air compressor, and the pressure at expulsion of air compressor is 0.48MPa- 0.68MPa, capacity 1.5m³/min；

(2) compressed air enters air accumulator storage, operating pressure 0.85MPa, safe traffic 1.8m³/min；Lower stream Speed ensures that compressed air has enough residence times in air accumulator, and under the action of air accumulator and environment heat exchange, compression is empty Vapor and greasy dirt in gas, which coagulate, to be passed through the drain valve of gas storage pot bottom for liquid water droplets and oil droplet and is discharged；

(3) compressed air sequentially enters freezing type drier and absorption drier, further removes compressed air Zhong Shui and oil, Operating pressure≤1.0MPa of freezing type drier, flow 1.2Nm³/min；The operating pressure of absorption drier is 0.6MPa-1.0MPa, flow 1.2Nm³/min；

(4) compressed air enters ozone generator by air intake conduit, and the air pressure in air intake conduit is 0.48MPa-0.68MPa, dew point are -80 DEG C -- 65 DEG C；

(5) after compressed air enters ozone generator, oudin's current is passed through in ozone generator；In the work of exoelectrical reaction Under, the part oxygen molecule in air is decomposed into ozone molecule, to generate ozone；

(6) ozone is discharged from ozone generator enters ozone contact tank by ozone outlet pipe, smelly in ozone outlet pipe Oxygen concentration is 2.0wt%-2.5wt%, and ozone flow is 15kg/h-40kg/h；

(7) after ozone enters ozone contact tank, water enters ozone contact tank by contact chamber inlet pipeline, and ozone is contacted with water and adopted With the mode of Air Exposure, treated, and water is discharged from contact chamber outlet pipeline；After water process, the tail gas of discharge passes through tail Gas discharge line enters vent ozone destructor, discharged after concentrating destruction processing by gas exhaustion line；Vent ozone destructor Blower motor revolving speed is 2845r/min, flow 45m³/h。

Compared with prior art, the invention has the following advantages:

(1) present invention improves the density of oxygen molecule in the air of preparation by setting air compressor, and ozone output is high；Freezing Formula drying machine and absorption drier can be effectively removed the You Heshui in air, improve smelly oxygen purity；By contacting The liquid level that liquidometer monitoring ozone contact tank is installed on the inlet pipeline of pond, avoids water from flowing backwards into vent ozone destructor；Tail gas destroys Device can focus on extra ozone, reduce environmental pollution；

(2) present invention makes each discharge cell while preparing ozone by further preferred technical solution, improves ozone preparation Efficiency；Setting cooling water recirculation system cools down discharge cell, avoids influence of the high temperature to ozone output and concentration；

(3) present invention is by further preferred technical solution, and using ceramic insulating layer, insulation effect is good；Item is distributed in high pressure Fuse is connected with discharge tube, it is ensured that ozone generator can more steadily be run；It is cooled down, is had using plate heat exchanger There is better cooling effect；

(4) present invention is arranged ventilation pipe and connects aeration plate, make the processing of aerator by further preferred technical solution High-efficient, distribution is more evenly；The support column activity on access hole and ventilation pipe and bottom plate is opened up in top plate to install, and makes to be aerated The maintenance of device is safe and efficient；

(5) two aeration plates are symmetrically installed by further preferred technical solution, aeration quantity can be made more equal by the present invention Even, aeration plate long service life；

(6) for the present invention by further preferred technical solution, lower partition wall and upper partition wall are installed in interval, keep water flow more stable, Improve clean-up effect, additionally it is possible to rapidly water filling exhaust；

(7) present invention installs two vent ozone destructors by further preferred technical solution outside pond body, guarantees incessantly Handle ozone；

(8) present invention makes aeration tube connect gas manifold by further preferred technical solution, reduces ozone outlet pipe paving If difficulty and cost；By the cooperation of slot and inserted link, the mode for making aerator release connection is simpler.

(9) continous way ozone preparation provided by the invention and method for treating water, can be improved the oxygen content in gas source, remove Grease in gas source, ozone preparation is stablized, concentration is high, and water treatment efficiency is good.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the invention；

Fig. 2 is the structural schematic diagram of ozone generator；

Fig. 3 is the left view of plate port；

Fig. 4 is the enlarged diagram in Fig. 2 at A；

Fig. 5 is the structural schematic diagram of ozone contact tank；

Fig. 6 is the top view of ozone contact tank；

Fig. 7 is the left view in the face A in Fig. 6；

Fig. 8 is the left view in the face B in Fig. 6；

Fig. 9 is the left view in the face C in Fig. 6；

Figure 10 is the structural schematic diagram of aerator；

Figure 11 is enlarged diagram when using flanged joint in Fig. 7 at B；

Figure 12 is enlarged diagram when being connected in Fig. 7 using fast insertion type joint at B；

Figure 13 is the main view of support column；

Figure 14 is the top view of support column.

In figure: 1-air compressor, 2-air accumulators, 3-freezing type driers, 4-absorption driers, 5-ozone Generator, 51-main tank bodies, 52-end caps, 53-inlet chambers, 54-outlet chambers, 55-arc chambers, 56-plate ports, 561-circular holes, 57-discharge cells, 571-stainless steel tubes, 572-discharge tubes, 573-insulating layers, 574-discharge cavities, 58-high pressures distribution item, 59-fuses, 6-ozone contact tanks, 61-pond bodies, 62-aerators, 621-ventilation pipes, 622-aeration plates, 623-threeways, 63-aeration tubes, 64-support columns, 65-access holes, 66-lower partition walls, 67-upper partition walls, 68-ozone channels, 69-drain holes, 610-water stream channels, 611-blow vents, 612-removable covers, 613-gas supply branch Pipe, 614-slots, 615-inserted links, 7-vent ozone destructors, 8-air intake conduit, 9-ozone outlet pipes, 10-contacts Pond inlet pipeline, 11-contact chamber outlet pipelines, 12-liquidometers, 13-exhaust emission tube roads, 14-gas exhaustion lines, 15-pressure gauges, 16-dew point hygrometers, 17-ozone concentration instrument, 18-tail-gas analyzers, 19-cooling devices, 191-thermal mediums Import, 192-thermal medium outlets, 193-cold medium imports, 194-cold mediums outlet, 20-water tanks, 21-cooling devices into Water pipe, 22-cooling device outlet pipes, 23-cooling water pipes.

Specific embodiment

A specific embodiment of the invention is described in detail with reference to the accompanying drawing, in order to those skilled in the art The present invention is further understood, without constituting the limitation to its right.

Embodiment 1: referring to Fig.1, a kind of efficient ozone water treatment system, it is characterised in that: including gas source preparation system, smelly Oxygen Generator 5, ozone contact tank 6 and vent ozone destructor 7, the gas source preparation system include the air being sequentially connected by pipeline Compressor 1, air accumulator 2, freezing type drier 3 and absorption drier 4；5 inlet end of absorption drier 4 and ozone generator Between be connected with air intake conduit 8, be connected with ozone escape pipe between the outlet side and ozone contact tank 6 of ozone generator 5 Road 9；Be respectively equipped with contact chamber inlet pipeline 10 and contact chamber outlet pipeline 11 on the ozone contact tank 6, the contact chamber into Liquidometer 12 is installed in water lines 10；It is connected between ozone contact tank 6 and vent ozone destructor 7 by exhaust emission tube road 13, Gas exhaustion line 14 is also connected on vent ozone destructor 7.

The course of work of ozone water treatment system described in the present embodiment are as follows:

The first step, gas source preparation system preparation compressed air simultaneously remove water oil removing, detailed process are as follows: air compressor 1 is by air system It is standby become compressed air and be sent into air accumulator 2 store, air accumulator 2 tentatively removed water compressed air, oil removing.Later, compression is empty Gas sequentially enters freezing type drier 3 and absorption drier 4, further goes water removal and oil；

Compressed air is prepared into ozone, detailed process by second step, ozone generator 5 are as follows: compressed air passes through air inlet Pipeline 8 enters ozone generator 5, and is passed through oudin's current in ozone generator 5.It is empty under the action of exoelectrical reaction Part oxygen molecule in gas is decomposed into ozone molecule, to generate ozone；

Third step, ozone carry out water process, detailed process in ozone contact tank 6 are as follows: ozone is entered by ozone outlet pipe 9 Ozone contact tank 6, water enter ozone contact tank 6 by contact chamber inlet pipeline 10, and ozone is contacted with water carries out at aeration water Reason, treated, and water is discharged from contact chamber outlet pipeline 11.In water treatment procedure, remaining ozone passes through exhaust emission tube road 13 Into vent ozone destructor 7, discharge after concentrating destruction processing by gas exhaustion line 14.On contact chamber inlet pipeline 10 Liquidometer 12 is used to monitor the liquid level data of ozone contact tank 6, to control the inflow of ozone contact tank 6 to keep liquid level steady It is fixed, avoid water from being pressed into vent ozone destructor 7.

Embodiment 2: described smelly in a kind of efficient ozone water treatment system described in embodiment 1 referring to Fig. 2, Fig. 3, Fig. 4 Oxygen Generator 5 includes horizontal main tank body 51, and there is end cap 52 at the both ends of main tank body 51 by flanged joint；In ozone generator 5 The inlet end of chamber is equipped with inlet chamber 53, and outlet side is equipped with outlet chamber 54, and arc chamber 55 is equipped between inlet chamber 53 and outlet chamber 54； 55 both ends of arc chamber are equipped with plate port 56, are equipped with several discharge cells 57 between plate port 56；The discharge cell 57 Including stainless steel tube 571 and discharge tube 572,572 outer layer of discharge tube is coated with insulating layer 573, and stainless steel tube 571 is set in electric discharge Pipe 572 is outer and is arranged concentrically with discharge tube 572, and discharge cavities 574 are equipped between stainless steel tube 571 and discharge tube 572；Plate end Mouth 56 is equipped with the circular holes 561 of fixed discharge cell 57, circular hole 561 and 571 sealed set of stainless steel tube, inlet chamber 53 and outlet Chamber 54 is connected to by discharge cavities 574；High pressure distribution item 58 is fitted in inlet chamber 53 and outlet chamber 54, high pressure distributes item 58 It is connected with each discharge tube 572；Air intake conduit 8 connects main tank body 51 and is connected to inlet chamber 53, the connection master of ozone outlet pipe 9 Tank body 51 is simultaneously connected to outlet chamber 54；It is additionally provided with cooling water recirculation system outside ozone generator, the cooling water recirculation system includes Cooling device 19 and water tank 20 are connected between cooling device 19 and the upper end of main tank body 51 by cooling device water inlet pipe 21, cold But it is connected between device 19 and water tank 20 by cooling device outlet pipe 22, by cold between water tank 20 and the lower end of main tank body 51 But water pipe 23 is connected, and cooling device water inlet pipe 21 and cooling water pipe 23 are all connected to arc chamber.

The course of work of ozone generator 5 described in the present embodiment are as follows: compressed air is entered smelly by air intake conduit 8 The inlet chamber 53 of Oxygen Generator 5 is set since the stainless steel tube 571 of circular hole 561 and discharge cell 57 on plate port 56 seals It sets, the compressed air in inlet chamber 53 enters in the discharge cavities 574 of each discharge cell 57.High-field electrode distributes item by high pressure 58 make discharge tube 572 flow through oudin's current, and insulating layer 573 makes to insulate between discharge tube 572 and stainless steel tube 571, So high voltage electric field is formed between discharge tube 572 and stainless steel tube 571, so that exoelectrical reaction occur in discharge cavities 574 Generate electrostatic induced current.Under the action of electrostatic induced current, the part oxygen molecule in air decomposes compressed air in discharge cavities 574 As ozone molecule, so that generating ozone enters outlet chamber 54, and it is discharged by ozone outlet pipe 9.Each discharge cell 57 is same Air is transformed into ozone by Shi Jinhang exoelectrical reaction, and ozone preparation efficiency is high.

The heat that exoelectrical reaction generates increases the temperature of discharge cell 57, and high temperature is unfavorable for the generation of ozone but is conducive to smelly The decomposition of oxygen causes ozone output and concentration to decline, cooling water recirculation system is needed to carry out cooling treatment to discharge cell 57.Water Cooling water in case 20 enters arc chamber 55 by cooling water pipe 23, is discharged into cooling dress after carrying out cooling heat absorption to discharge cell 57 Set water inlet pipe 21.Hot water enters cooling device 19 becomes cooling water after cooling treatment, is entered by cooling device outlet pipe 22 Water tank 20 forms cooling water circulation.

Embodiment 3: referring to Fig. 2, Fig. 4, in a kind of efficient ozone water treatment system as described in example 2, the insulating layer 573 material is ceramics, is also connected with fuse 59, the cooling device between the high pressure distribution item 58 and discharge tube 572 19 be plate heat exchanger, and the thermal medium inlet 191 of plate heat exchanger connects cooling device water inlet pipe 21, and the heat of plate heat exchanger is situated between 192 connection cooling device outlet pipe 22 of matter outlet.

Ceramics have good insulation effect as common insulating materials；It is parallel relationship between each discharge tube 572, When a certain discharge tube 572 breaks down, the corresponding disconnection of fuse 59 disconnects the discharge tube 572 with entire circuit, It avoids influencing other discharge tubes 572；Hot water is entered in plate heat exchanger by thermal medium inlet 191, and cooling medium passes through cold Jie Matter import 193 enters in plate heat exchanger, and the two carries out heat exchange by heat exchange plate.Shape between the plate of plate heat exchanger At thin rectangular shape channel, heat exchange area is big, good cooling results.The heat cooled medium absorption of hot water becomes cooling water, passes through heat Media outlet 192 is discharged, while the heat of cooling medium absorption hot water passes through 194 discharge of cold medium outlet.

Embodiment 4: referring to Fig.1, in a kind of efficient ozone water treatment system described in embodiment 1, the air intake duct Pressure gauge 15 and dew point hygrometer 16 are installed on road 8, ozone concentration instrument 17, the gas are installed on the ozone outlet pipe 9 Tail-gas analyzer 18 is installed on discharge pipe 14.

Pressure gauge 15 and dew point hygrometer 16 are used to detect the pressure and dew point of compressed air in air intake conduit 8, pass through tune The parameter of each device in the preparation system of solar term source, it is ensured that meet ozone generator 5 into the compressed air in ozone generator 5 Service requirement.

Ozone concentration instrument 17 is used to detect the concentration of ozone in ozone outlet pipe 9, by the ginseng for adjusting ozone generator 5 Number, it is ensured that meet water process requirement into the ozone in ozone contact tank 6.

Concentration of the tail-gas analyzer 18 for ozone in detection gas discharge pipe 14, by adjusting vent ozone destructor 7 Parameter, it is ensured that ozone concentration meets discharge standard in the gas of discharge.

Embodiment 5: described smelly in a kind of efficient ozone water treatment system described in embodiment 1 referring to Fig. 5, Fig. 6, Figure 10 Oxygen contact chamber 6 includes pond body 61, aerator 62 and aeration tube 63, and the pond body 61 is to be connected by bottom plate, top plate and side plate are fixed The closed structure for connecing composition is respectively equipped with inlet and outlet, the inlet and outlet in the front side of side plate and rear side It is connected respectively with contact chamber inlet pipeline 10 and contact chamber outlet pipeline 11；Exhaust emission tube road 13 is mounted on top plate and and pond The connection of 61 inner cavity of body；The aerator 62 includes ventilation pipe 621 and two aeration plates being mounted on ventilation pipe 621 622, support column 64 is fixed on the bottom plate, and ventilation pipe 621 is movably arranged on support column 64 by bindiny mechanism；Aeration The access hole 65 passed through for aerator 62 is provided with right above device 62 on corresponding top plate, aeration tube 63 passes through access hole 65 It protrudes into pond body 61 and its outlet side is connected to connection with ventilation pipe 621, the inlet end of aeration tube 63 is arranged outside pond body 61 simultaneously It is connect with ozone outlet pipe 9.

The course of work of ozone contact tank 6 described in the present embodiment are as follows: water enters pond body by contact chamber inlet pipeline 10 61, ozone prepared by ozone generator 5 is transported to aeration tube 63 by ozone outlet pipe 9, then enters from aeration tube 63 and ventilate Ozone distribution is entered two aeration plates 622 by pipeline 621.Aeration plate 622 carries out Air Exposure to water, and purified water is from contact Pond outlet pipeline 11 is discharged.In water treatment procedure, some ozone cannot be dissolved with water to be diffused into pond body 61.Due to pond Body 61 is closed structure, and remaining ozone all passes through the collection of exhaust emission tube road 13 and handled into vent ozone destructor 7.Aeration Pipe 63 and aerator 62 can be uniformly mounted in pond body 61, can also need to adjust 63 He of aeration tube according to water process The quantity and installation site of aerator 62.

Ozone distributes ozone by ventilation pipe 621 and enters aeration plate 622, makes the treatment effeciency height of aerator 62, matches Gas is more evenly.

Ventilation pipe 621 is movably arranged on support column 64, and ventilation pipe 621 and support column 64 can be released when needing Connection, convenient for the taking-up of aerator 62.When aerator 62 needs repairing, it is only necessary to by aerator 62 and aeration tube 63 It is whole to carry out disassembling section from the taking-up of access hole 65, disassembly difficulty and operating risk are reduced, avoids and cuts off the water for a long time Maintenance.

Embodiment 6: referring to Fig.1 0, in a kind of efficient ozone water treatment system described in embodiment 5, the aeration tube 63 Outlet side is connected to connection with ventilation pipe 621 by threeway 623, and two aeration plates 622 are symmetrically mounted on ventilation pipe 621.

Since two aeration plates 622 are symmetrically mounted on ventilation pipe 621, ventilation pipe 621 distributes to aeration plate 622 Ozone amount is more uniform, and gas pressure distribution is also more uniform, improves the service life of aeration plate 622.

Embodiment 7: referring to Fig. 5, Fig. 6, Fig. 8, Fig. 9, in a kind of efficient ozone water treatment system described in embodiment 5, institute It states and lower partition wall 66 is installed on bottom plate, partition wall 67, the lower partition wall 66 and the setting of the interval of upper partition wall 67 are installed on top plate；Under Ozone channel 68 is equipped between the top and top plate of partition wall 66, the lower part of lower partition wall 66 is equipped with drain hole 69；Under upper partition wall 67 Water stream channel 610 is equipped between portion and bottom plate, the top of upper partition wall 67 is equipped with blow vent 611.

Lower partition wall 66 and the setting of the interval of upper partition wall 67 enable water and ozone fully for carrying out current stabilization, buffering to water Contact, improves the effect of water process.Ozone channel 68 and 611 one side of blow vent are used to that remaining ozone inflow to be made to be mounted on top On the other hand the exhaust emission tube road 13 of postlaminar part is used for pressure when start-stop ozone contact tank 6 in release pond；Water stream channel 610 and 69 one side of drain hole for realizing fast water injection when opening ozone contact tank 6, on the other hand for stopping pond maintenance when it is real Now ponding is drained from a drainage point.

Embodiment 8: referring to Fig. 5, Fig. 6, in a kind of efficient ozone water treatment system described in embodiment 5, the tail gas is broken There are two the installations of bad device 7, and there are two the installations of exhaust emission tube road 13, and each vent ozone destructor 7 connects a tail gas discharge Pipeline 13, exhaust emission tube road 13 are equipped with valve.

Two vent ozone destructors 7, one is used as main computer, another is as guest machine.The tail gas discharge of main computer connection Valve on pipeline 13 is main valve, and the valve on the exhaust emission tube road 13 of guest machine connection is time valve.Main computer is normal In use, opening main valve, time valve is closed；When main computer breaks down, time valve is opened, closes main valve, use is spare Machine.Two vent ozone destructors 7 of the using and the reserved, guarantee to handle residual ozone incessantly.

Embodiment 9: a kind of high described in embodiment 5 referring to Fig. 5, Fig. 6, Fig. 7, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14 It imitates in ozone water treatment system, dismountable removable cover 612 is connected on the access hole 65, aeration tube 63 passes through removable cover Plate 612 protrudes into pond body 61；The pond body 61 is externally provided with gas manifold 613, and the outlet side of gas manifold 613 is by flange or fastly Plug type joint connects the inlet end of aeration tube 63, and the inlet end of gas manifold 613 is for connecting ozone outlet pipe 9；The company Connection mechanism is slot 614 and the inserted link 615 with the cooperation of slot 614, and the slot 614 is arranged in support column 64, the inserted link 615 are mounted on ventilation pipe 621.

When aerator 62 needs repairing, removable cover 612 is disassembled from access hole 65 first, further takes out aeration Device 62 and aeration tube 63.

Ozone prepared by ozone generator 5 is transported to gas manifold 613 by ozone outlet pipe 9, enters back into aeration tube 63.Gas manifold 613 can be laid on any position outside pond body 61, convenient for the laying of ozone outlet pipe 9.Gas manifold 613 and aeration tube 63 be metal tube when, pipeline by flange seal connection；When gas manifold 613 and aeration tube 63 are PPR pipe, Pipeline is connected by fast insertion type joint.When aerator 62 needs repairing, the connection of flange or fast insertion type joint is first released, then Take out aerator 62 and aeration tube 63.

When 62 normal use of aerator, the inserted link 615 on ventilation pipe 621 is inserted into the slot 614 in support column 64 Play the role of connection.When aerator 62 needs repairing, it only need to lift aerator 62 and aeration tube 63 can be by inserted link 615 extract from slot 614.

Embodiment 10: a kind of preparation of continous way ozone and method for treating water, this method use any an example in embodiment 1-9 A kind of efficient ozone water treatment system, its step are as follows:

(1) air is prepared into compressed air by air compressor 1, and the pressure at expulsion of air compressor 1 is 0.48MPa, exhaust Amount is 1.5m³/min；

(2) compressed air enters the storage of air accumulator 2, operating pressure 0.85MPa, safe traffic 1.8m³/min.Lower stream Speed ensures that compressed air has enough residence times in air accumulator 2, under the action of air accumulator 2 and environment heat exchange, compression Vapor and greasy dirt in air, which coagulate, to be passed through the drain valve of 2 bottom of air accumulator for liquid water droplets and oil droplet and is discharged；

(3) compressed air sequentially enters freezing type drier 3 and absorption drier 4, further remove compressed air in water and Oil, the operating pressure of freezing type drier 3 are 1.0MPa, flow 1.2Nm³/min；The operating pressure of absorption drier 4 is 0.6MPa, flow 1.2Nm³/min；

(4) compressed air enters ozone generator 5 by air intake conduit 8, and the air pressure in air intake conduit 8 is 0.48MPa, dew point are -80 DEG C；

(5) after compressed air enters ozone generator 5, oudin's current is passed through in ozone generator 5；In exoelectrical reaction Under effect, the part oxygen molecule in air is decomposed into ozone molecule, to generate ozone；

(6) ozone is discharged from ozone generator 5 passes through the entrance ozone contact tank 6 of ozone outlet pipe 9, in ozone outlet pipe 9 Ozone concentration be 2.0wt%, ozone flow be 15kg/h；

(7) after ozone enters ozone contact tank 6, water enters ozone contact tank 6 by contact chamber inlet pipeline 10, and ozone connects with water Touching is by the way of Air Exposure, and treated, and water is discharged from contact chamber outlet pipeline 11；After water process, the tail gas of discharge Enter vent ozone destructor 7 by exhaust emission tube road 13, discharged after concentrating destruction processing by gas exhaustion line 14；Tail The blower motor revolving speed of gas destructor 7 is 2845r/min, flow 45m³/h。

Embodiment 11: a kind of preparation of continous way ozone and method for treating water, this method use any an example in embodiment 1-9 A kind of efficient ozone water treatment system, its step are as follows:

(1) air is prepared into compressed air by air compressor 1, and the pressure at expulsion of air compressor 1 is 0.68MPa, exhaust Amount is 1.5m³/min；

(2) compressed air enters the storage of air accumulator 2, operating pressure 0.85MPa, safe traffic 1.8m³/min.Lower stream Speed ensures that compressed air has enough residence times in air accumulator 2, under the action of air accumulator 2 and environment heat exchange, compression Vapor and greasy dirt in air, which coagulate, to be passed through the drain valve of 2 bottom of air accumulator for liquid water droplets and oil droplet and is discharged；

(3) compressed air sequentially enters freezing type drier 3 and absorption drier 4, further remove compressed air in water and Oil, the operating pressure of freezing type drier 3 are 0.5MPa, flow 1.2Nm³/min；The operating pressure of absorption drier 4 is 1.0MPa, flow 1.2Nm³/min；

(4) compressed air enters ozone generator 5 by air intake conduit 8, and the air pressure in air intake conduit 8 is 0.68MPa, dew point are -65 DEG C；

(5) after compressed air enters ozone generator 5, oudin's current is passed through in ozone generator 5；In exoelectrical reaction Under effect, the part oxygen molecule in air is decomposed into ozone molecule, to generate ozone；

(6) ozone is discharged from ozone generator 5 passes through the entrance ozone contact tank 6 of ozone outlet pipe 9, in ozone outlet pipe 9 Ozone concentration be 2.5wt%, ozone flow be 40kg/h；

(7) after ozone enters ozone contact tank 6, water enters ozone contact tank 6 by contact chamber inlet pipeline 10, and ozone connects with water Touching is by the way of Air Exposure, and treated, and water is discharged from contact chamber outlet pipeline 11；After water process, the tail gas of discharge Enter vent ozone destructor 7 by exhaust emission tube road 13, discharged after concentrating destruction processing by gas exhaustion line 14；Tail The blower motor revolving speed of gas destructor 7 is 2845r/min, flow 45m³/h。

Claims (10)

1. a kind of efficient ozone water treatment system, it is characterised in that: including gas source preparation system, ozone generator, ozone contact Pond and vent ozone destructor, the gas source preparation system include the air compressor, air accumulator, freezing type being sequentially connected by pipeline Drying machine and absorption drier；It is connected with air intake conduit between absorption drier and the inlet end of ozone generator, Ozone outlet pipe is connected between the outlet side and ozone contact tank of ozone generator；It is respectively equipped on the ozone contact tank Contact chamber inlet pipeline and contact chamber outlet pipeline are equipped with liquidometer on the contact chamber inlet pipeline；Ozone contact tank with It is connected between vent ozone destructor by exhaust emission tube road, gas exhaustion line is also connected on vent ozone destructor.

2. a kind of efficient ozone water treatment system according to claim 1, it is characterised in that: the ozone generator includes There is end cap at horizontal main tank body, the both ends of main tank body by flanged joint；The inlet end of ozone generator inner cavity is equipped with inlet chamber, Outlet side is equipped with outlet chamber, and arc chamber is equipped between inlet chamber and outlet chamber；Arc chamber both ends are equipped with plate port, plate end Several discharge cells are equipped between mouthful；The discharge cell includes stainless steel tube and discharge tube, and electric discharge outer tube layer is coated with insulation Layer, stainless steel tube are set in outside discharge tube and are arranged concentrically with discharge tube, and discharge cavities are equipped between stainless steel tube and discharge tube； Plate port is equipped with the circular hole of fixed discharge cell, and circular hole and stainless steel tube sealed set, inlet chamber and outlet chamber are by putting Electric cavity connection；High pressure distribution item is fitted in inlet chamber and outlet chamber, high pressure distribution item is connected with each discharge tube；Air into Air pipe connection main tank body is simultaneously connected to inlet chamber, and ozone outlet pipe connection main tank body is simultaneously connected to outlet chamber；Outside ozone generator It is additionally provided with cooling water recirculation system, the cooling water recirculation system includes cooling device and water tank, cooling device and main tank body It is connected between upper end by cooling device water inlet pipe, is connected between cooling device and water tank by cooling device outlet pipe, water tank It is connected between the lower end of main tank body by cooling water pipe, cooling device water inlet pipe and cooling water pipe are all connected to arc chamber.

3. a kind of efficient ozone water treatment system according to claim 2, it is characterised in that: the material of the insulating layer is Ceramics are also connected with fuse between the high pressure distribution item and discharge tube, the cooling device is plate heat exchanger, board-like to change The thermal medium inlet of hot device connects cooling device water inlet pipe, and the thermal medium outlet of plate heat exchanger connects cooling device outlet pipe.

4. a kind of efficient ozone water treatment system according to claim 1, it is characterised in that: the air intake duct road Pressure gauge and dew point hygrometer are installed, ozone concentration instrument is installed on the ozone outlet pipe, the gas discharge pipe road is pacified Equipped with tail-gas analyzer.

5. a kind of efficient ozone water treatment system according to claim 1, it is characterised in that: the ozone contact tank includes Pond body, aerator and aeration tube, the pond body is to be fixedly connected with the closed structure constituted by bottom plate, top plate and side plate, in side The front side of plate and rear side are respectively equipped with inlet and outlet, the inlet and outlet respectively with contact chamber inlet pipeline and Contact chamber outlet pipeline is connected；Exhaust emission tube road is mounted on top plate and is connected to pond body inner cavity；The aerator includes Ventilation pipe and two aeration plates being mounted on ventilation pipe are fixed with support column on the bottom plate, and ventilation pipe passes through company Connection mechanism is movably arranged on support column；The maintenance passed through for aerator is provided on corresponding top plate right above aerator Mouthful, aeration tube is protruded into pond body by access hole and its outlet side is connected to connection, the inlet end setting of aeration tube with ventilation pipe It is connect outside pond body and with ozone outlet pipe.

6. a kind of efficient ozone water treatment system according to claim 5, it is characterised in that: the outlet side of the aeration tube It is connect by threeway with ventilation pipe, two aeration plates are symmetrically mounted on ventilation pipe.

7. a kind of efficient ozone water treatment system according to claim 5, it is characterised in that: be equipped with down on the bottom plate Partition wall is equipped with partition wall on top plate, and the lower partition wall and upper partition wall are preferably by setting；Between the top and top plate of lower partition wall Equipped with ozone channel, the lower part of lower partition wall is equipped with drain hole；Water stream channel, upper partition wall are equipped between the lower part and bottom plate of upper partition wall Top be equipped with blow vent.

8. a kind of efficient ozone water treatment system according to claim 5, it is characterised in that: the vent ozone destructor installation There are two, there are two the exhaust emission tube road installations, and each vent ozone destructor connects an exhaust emission tube road, tail gas discharge Pipeline is equipped with valve.

9. a kind of efficient ozone water treatment system according to claim 5, it is characterised in that: be connected on the access hole Dismountable removable cover, aeration tube pass through removable cover and protrude into pond body；The pond body is externally provided with gas manifold, gas manifold Outlet side the inlet end of aeration tube is connected by flange or fast insertion type joint, the inlet end of gas manifold goes out for connecting ozone Air pipe；The bindiny mechanism is slot and the inserted link with slot cooperation, and the slot is arranged in support column, the inserted link peace On ventilation pipe.

10. a kind of continous way ozone preparation and method for treating water, it is characterised in that: this method uses any in claim 1-9 A kind of efficient ozone water treatment system described in one, its step are as follows:

(1) air is prepared into compressed air by air compressor, and the pressure at expulsion of air compressor is 0.48MPa- 0.68MPa, capacity 1.5m³/min；

(2) compressed air enters air accumulator storage, operating pressure 0.85MPa, safe traffic 1.8m³/min；Lower flow velocity Ensure that compressed air there are enough residence times in air accumulator, under the action of air accumulator and environment heat exchange, compressed air In vapor and greasy dirt coagulate and pass through the drain valve of gas storage pot bottom for liquid water droplets and oil droplet and be discharged；

(3) compressed air sequentially enters freezing type drier and absorption drier, further removes compressed air Zhong Shui and oil, Operating pressure≤1.0MPa of freezing type drier, flow 1.2Nm³/min；The operating pressure of absorption drier is 0.6MPa-1.0MPa, flow 1.2Nm³/min；

(4) compressed air enters ozone generator by air intake conduit, and the air pressure in air intake conduit is 0.48MPa-0.68MPa, dew point are -80 DEG C -- 65 DEG C；

(5) after compressed air enters ozone generator, oudin's current is passed through in ozone generator；In the work of exoelectrical reaction Under, the part oxygen molecule in air is decomposed into ozone molecule, to generate ozone；

(6) ozone is discharged from ozone generator enters ozone contact tank by ozone outlet pipe, smelly in ozone outlet pipe Oxygen concentration is 2.0wt%-2.5wt%, and ozone flow is 15kg/h-40kg/h；

(7) after ozone enters ozone contact tank, water enters ozone contact tank by contact chamber inlet pipeline, and ozone is contacted with water and adopted With the mode of Air Exposure, treated, and water is discharged from contact chamber outlet pipeline；After water process, the tail gas of discharge passes through tail Gas discharge line enters vent ozone destructor, discharged after concentrating destruction processing by gas exhaustion line；Vent ozone destructor Blower motor revolving speed is 2845r/min, flow 45m³/h。