CN213707745U - Horizontal quasi-molecule ozone generator - Google Patents
Horizontal quasi-molecule ozone generator Download PDFInfo
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- CN213707745U CN213707745U CN202022328431.4U CN202022328431U CN213707745U CN 213707745 U CN213707745 U CN 213707745U CN 202022328431 U CN202022328431 U CN 202022328431U CN 213707745 U CN213707745 U CN 213707745U
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Abstract
The utility model belongs to the technical field of sewage, exhaust-gas treatment are used, specifically disclose a horizontal excimer ozone generator, by horizontal subassembly, and the ozone that cooperatees and use takes place the subassembly and constitutes with horizontal subassembly. The utility model discloses a horizontal excimer ozone generator's beneficial effect lies in: 1. the design is reasonable, the energy consumption is low, and the yield per kilogram needs 0.2KW of electric quantity; 2. the oxygen demand is low, and each kilogram of ozone needs 1 cubic pure oxygen; 3. the cooling water is circulated in a closed manner, and tap water is not consumed; 4. the manufacturing equipment is fast, and the manufacturing can be realized without understanding argon arc welding; 5. the equipment volume is small, and the required air source equipment is also small; 6. the power supply of the ozone generator is small and is integrated in a box; 7. the concentration of the ozone is 900ml/L, and the conversion rate of the oxygen converted into the ozone is only 90 percent; 8. the investment and the operation cost are low; 9. the failure rate is low, and the maintenance is convenient; 10. the ozone main engine has no noise when running.
Description
Technical Field
The utility model belongs to the technical field of waste water, exhaust-gas treatment are used, concretely relates to horizontal excimer ozone generator replaces traditional ozone generator for waste gas treatment, sewage treatment's disinfection strong oxidation reduces COD, environmental protection trades such as SOx/NOx control.
Background
The waste gas refers to toxic and harmful gas discharged by human in the production and living process, especially chemical plants, steel plants, pharmaceutical plants, coking plants, oil refineries and the like, and the discharged waste gas has large smell, seriously pollutes the environment and affects the human health.
Waste water (water) is a generic term for water discharged during activities of residents and runoff rainwater. The method comprises the steps of domestic sewage, industrial wastewater and other useless water such as primary rain water flowing into a drainage pipe canal, and generally refers to water which can not be recycled after being treated by a certain technology or can not reach a certain standard after being purified by primary pollution. For example, in the process of coke oven gas cooling, washing, crude benzene processing and tar processing, industrial wastewater containing phenol, cyanogen, oil, ammonia and a large amount of organic matters is generated, the wastewater is seriously damaged, polycyclic aromatic hydrocarbon in the coking wastewater is difficult to degrade and is also a strong carcinogen generally, so that the environment is seriously polluted and the human health is directly threatened.
The current ozone generator for sewage and waste gas has the following disadvantages: 1. the energy consumption is high, and the yield per kilogram needs 7KW of electricity; 2. the oxygen demand is large, and each kilogram of ozone needs 10 cubic pure oxygen; 3. the cooling water amount is large, and 3 cubic cubes of tap water need to be wasted for each kilogram of ozone; 4. the manufacture is troublesome and requires a high welding level; 5, the equipment volume is large, and the required air source equipment is also large; 6. the power supply of the ozone generator is complicated and needs a medium-frequency power supply, a high-voltage transformer and a reactor to be matched; 7. the concentration of ozone is only 110ml/L, and the conversion rate of oxygen converted into ozone is only 10%; 8. the investment and operation costs are high; 9. the failure rate is high, and the maintenance is troublesome; 10. the intermediate frequency noise is large when the ozone operates.
Based on the above problem, the utility model provides a horizontal excimer ozone generator.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: the utility model aims at prior art not enough, provide a horizontal excimer ozone generator, its reasonable in design cooperatees with the processing system of sewage, waste gas and uses and can carry out high-efficient, stable processing to sewage, waste gas, improves sewage, exhaust-gas treatment efficiency, treatment effect, has reduced treatment cost.
The technical scheme is as follows: the utility model provides a horizontal excimer ozone generator, which consists of a horizontal component and an ozone generating component matched with the horizontal component; the horizontal assembly comprises a group of vertical supporting legs, a transverse tank body arranged on the group of vertical supporting legs, a first tank body flange and a second tank body flange which are arranged on the end faces of the two ends of the transverse tank body, a first end socket flange and a second end socket flange which are respectively connected with the first tank body flange and the second tank body flange, a first sight glass flange and a second sight glass flange which are respectively connected with the first end socket flange and the second end socket flange, and a first sight glass and a second sight glass which are respectively connected with the first sight glass flange and the second sight glass flange; the ozone generating assembly comprises a first tube plate, a second tube plate, a polytetrafluoroethylene fixing bayonet, an excimer lamp, a power supply junction box, a conductive terminal, an electric lead, an external electrode net, a hollow water cooling cavity, a cooling water inlet, a cooling water outlet, an ozone outlet and an oxygen inlet, wherein the first tube plate and the second tube plate are arranged on the inner walls of two ends of a transverse tank body, the polytetrafluoroethylene fixing bayonet is arranged on the first tube plate, the excimer lamp is arranged on the polytetrafluoroethylene fixing bayonet, one end of the excimer lamp protrudes out of the second tube plate, the power supply junction box is arranged at one end of the excimer lamp, the conductive terminal is arranged on the outer wall of one end of the transverse tank body, the electric lead is connected with the power supply junction box and the conductive terminal at two ends respectively, the external electrode net is arranged on the excimer lamp, the hollow water cooling cavity is arranged between the first tube plate and the second tube plate.
According to the technical scheme, the ozone outlet, the oxygen inlet and the cooling water outlet are arranged on the same side of the transverse tank body, and the cooling water inlet is arranged on the other side of the oxygen inlet in a staggered manner.
According to the technical scheme, the diameter sizes of the ozone outlet, the oxygen inlet, the cooling water outlet and the cooling water inlet are all 20 mm.
According to the technical scheme, at least five excimer lamps are arranged.
According to the technical scheme, the horizontal excimer ozone generator comprises an air compressor, an air storage tank, a freezing dryer, an adsorption dryer, an oxygen generator, an excimer ozone generator, a water chiller, an ozone oxidation tower, an induced draft fan and an ozone contact pool, wherein the air compressor, the air storage tank, the freezing dryer, the adsorption dryer, the oxygen generator and the excimer ozone generator are connected through a first air conduit, a second air conduit, a third air conduit, a fourth air conduit and a fifth air conduit respectively, and a first oil-water removal filter, a second oil-water removal filter, a third oil-water removal filter and a fourth oil-water removal filter are arranged on the second air conduit and the third air conduit respectively; the excimer ozone generator and the water chiller are connected through a first cooling water outlet pipe and a second cooling water outlet pipe respectively; the quasi-molecular ozone generator and the ozone oxidation tower are connected through an anti-siphon pipe; the ozone oxidation tower and the induced draft fan are connected through an exhaust gas pipe, and the induced draft fan is connected with an exhaust gas inlet pipe; the quasi-molecule ozone generator is connected with the ozone contact pool through an auxiliary conduit.
According to the technical scheme, the first oil-water removal water filter, the second oil-water removal water filter, the third oil-water removal water filter and the fourth oil-water removal water filter are all connected to the drainage ditch.
According to the technical scheme, the horizontal excimer ozone generator further comprises an auxiliary excimer lamp arranged in the upper part of the ozone oxidation tower and an auxiliary power supply junction box arranged on the auxiliary excimer lamp.
According to the technical scheme, the horizontal excimer ozone generator further comprises a first circulating water pipe and a second circulating water pipe which are respectively connected with the outer wall of the upper portion and the outer wall of the lower portion of the ozone oxidation tower, and a circulating pump which is respectively connected with the first circulating water pipe and the second circulating water pipe, wherein one end of the first circulating water pipe is located in the upper portion of the ozone oxidation tower.
According to the technical scheme, the horizontal excimer ozone generator further comprises a fifth oil-water removal filter and a sixth oil-water removal filter which are arranged on the fifth air conduit, wherein the fifth oil-water removal filter and the sixth oil-water removal filter are connected to the drainage ditch, and are arranged on the fifth air conduit and positioned on the upper end of the joint of the fifth oil-water removal filter and the fifth air conduit.
According to the technical scheme, the horizontal excimer ozone generator further comprises a control cabinet, wherein the control cabinet is respectively connected with an air compressor, an air storage tank, a freezing dryer, an adsorption dryer, an oxygen generator, the excimer ozone generator, a water cooler, an ozone oxidation tower and an induced draft fan.
Compared with the prior art, the utility model discloses a horizontal excimer ozone generator's beneficial effect lies in: 1. the design is reasonable, the energy consumption is low, and the yield per kilogram needs 0.2KW of electric quantity; 2. the oxygen demand is low, and each kilogram of ozone needs 1 cubic pure oxygen; 3. the cooling water is circulated in a closed manner, and tap water is not consumed; 4. the manufacturing equipment is fast, and the manufacturing can be realized without understanding argon arc welding; 5. the equipment volume is small, and the required air source equipment is also small; 6. the power supply of the ozone generator is small and is integrated in a box; 7. the concentration of the ozone is 900ml/L, and the conversion rate of the oxygen converted into the ozone is only 90 percent; 8. the investment and the operation cost are low; 9. the failure rate is low, and the maintenance is convenient; 10. the ozone main engine has no noise when running.
Drawings
Fig. 1 is a schematic view of a horizontal excimer ozone generator according to the present invention;
fig. 2 is a right view structural schematic diagram of the horizontal excimer ozone generator of the present invention.
FIG. 3 is a schematic structural diagram of an air compressor, an air storage tank, a freezing dryer, an adsorption dryer, an oxygen generator, etc. of the horizontal excimer ozone generator of the present invention;
FIG. 4 is a schematic structural diagram of an excimer ozone generator, a water chiller, an ozone oxidation tower and the like of the horizontal excimer ozone generator of the present invention;
FIG. 5 is a schematic structural diagram of the waste gas pipe, the draught fan, the waste gas inlet pipe, etc. of the horizontal excimer ozone generator of the present invention;
fig. 6 is a schematic structural diagram of the horizontal excimer ozone generator, the ozone contact tank, the auxiliary conduit and the like.
Detailed Description
The invention will be further elucidated with reference to the drawings and the specific embodiments.
The horizontal excimer ozone generator shown in fig. 1 and fig. 2 is composed of a horizontal component and an ozone generating component matched with the horizontal component; the horizontal assembly comprises a group of vertical supporting legs 1, a transverse tank body 2 arranged on the group of vertical supporting legs 1, a first tank body flange 3 and a second tank body flange 4 which are arranged on the end faces of the two ends of the transverse tank body 2, a first end socket flange 5 and a second end socket flange 6 which are respectively connected with the first tank body flange 3 and the second tank body flange 4, a first sight glass flange 9 and a second sight glass flange 10 which are respectively connected with the first end socket flange 5 and the second end socket flange 6, and a first sight glass 11 and a second sight glass 12 which are respectively connected with the first sight glass flange 9 and the second sight glass flange 10; the ozone generating assembly comprises a first tube plate 13 and a second tube plate 22 which are arranged on the inner walls of two ends of a transverse tank body 2, a tetrafluoro fixing bayonet 14 arranged on the first tube plate 13, an excimer lamp 15 arranged on the tetrafluoro fixing bayonet 14, wherein one end of the excimer lamp 15 protrudes out of the second tube plate 22, a power supply junction box 16 arranged at one end of the excimer lamp 15, a conductive terminal 18 arranged on the outer wall of one end of the transverse tank body 2, an external electrode network electric lead 17 arranged on the excimer lamp 15, a hollow water cooling cavity 23 arranged between the first tube plate 13 and the second tube plate 22, a cooling water inlet 24 and a cooling water outlet 25 which are arranged on the outer walls of two ends of the transverse tank body 2, and an ozone outlet 21 and a cooling water outlet 25 which are arranged on the outer walls of two ends of the transverse tank body 2 and are respectively close to one side of a flange 3 of the first tank body and one side of the conductive terminal 18, An oxygen inlet 20.
Preferably, the ozone outlet 21, the oxygen inlet 20 and the cooling water outlet 25 are arranged on the same side of the transverse tank body 2, and the cooling water inlet 24 is arranged on the other side of the oxygen inlet 20 in a staggered manner; the diameters of the ozone outlet 21, the oxygen inlet 20, the cooling water outlet 25 and the cooling water inlet 24 are all 20 mm; and at least five excimer lamps 15 are arranged.
Examples
As shown in figures 3, 4, 5 and 6, the horizontal excimer ozone generator comprises an air compressor 1-1, an air storage tank 2-1, a freezing dryer 3-1, an adsorption dryer 4-1, an oxygen generator 5-1, an excimer ozone generator 19-1 (shown in figures 1 and 2), a water chiller 20-1, an ozone oxidation tower 21-1, an induced draft fan 31 and an ozone contact tank 33, wherein the air compressor 1-1, the air storage tank 2-1, the freezing dryer 3-1, the adsorption dryer 4-1, the oxygen generator 5-1 and the excimer ozone generator 19-1 are respectively communicated with each other through a first air conduit 7-1, a second air conduit 8-1, a third air conduit 13-1 and a fourth air conduit 14-1, The fifth air conduit 15-1 is connected, wherein the second air conduit 8-1 and the third air conduit 13-1 are respectively provided with a first oil-water removal filter 9-1, a second oil-water removal filter 10-1, a third oil-water removal filter 11-1 and a fourth oil-water removal filter 12-1; the excimer ozone generator 19-1 and the water chiller 20-1 are respectively connected through a first cooling water outlet pipe 23-1 and a second cooling water outlet pipe 24-1; the excimer ozone generator 19-1 and the ozone oxidation tower 21-1 are connected through an anti-siphon 22-1; the ozone oxidation tower 21-1 and the induced draft fan 31 are connected through an exhaust gas pipe 30, and the induced draft fan 31 is connected with an exhaust gas inlet pipe 32; the quasi-molecule ozone generator 19-1 is connected with the ozone contact tank 33 through an auxiliary conduit 34.
More preferably, the first oil-water removal filter 9-1, the second oil-water removal filter 10-1, the third oil-water removal filter 11-1 and the fourth oil-water removal filter 12-1 are all connected to a drainage ditch; the horizontal excimer ozone generator also comprises an auxiliary excimer lamp 25-1 arranged in the upper part of the ozone oxidation tower 21-1 and an auxiliary power supply junction box 26 arranged on the auxiliary excimer lamp 25-1; the horizontal excimer ozone generator also comprises a first circulating water pipe 27 and a second circulating water pipe 28 which are respectively connected with the outer wall of the upper part and the outer wall of the lower part of the ozone oxidation tower 21-1, and a circulating pump 29 which is respectively connected with the first circulating water pipe 27 and the second circulating water pipe 28, wherein one end of the first circulating water pipe 27 is positioned in the upper part of the ozone oxidation tower 21-1; the horizontal excimer ozone generator also comprises a fifth oil-water removal filter 16-1 and a sixth oil-water removal filter 17-1 which are arranged on the fifth air conduit 15-1, wherein the fifth oil-water removal filter 16-1 and the sixth oil-water removal filter 17-1 are both connected to a drainage ditch, and a metal float flowmeter 18-1 which is arranged on the fifth air conduit 15-1 and is positioned at the upper end of the interface of the fifth oil-water removal filter 16-1 and the fifth air conduit 15-1; the horizontal excimer ozone generator also comprises a control cabinet 6-1, wherein the control cabinet 6-1 is respectively connected with an air compressor 1-1, an air storage tank 2-1, a freezing dryer 3-1, an adsorption dryer 4-1, an oxygen generator 5-1, an excimer ozone generator 19-1, a water chiller 20-1, an ozone oxidation tower 21-1 and an induced draft fan 31, so that intelligent control is realized.
The horizontal excimer ozone generator with the structure can be used singly or in combination, is very integrated, and has the occupation area of only traditional 1/10 compared with the traditional ozone generator; compared with the traditional ozone generator, the running cost per kilogram can save 7 yuan of electricity per hour, and if the ozone generator is operated at 20kg/h, the electricity per year can save 1226400 yuan; compared with the traditional ozone generator, the yield per kilogram per hour can save 9 cubes of oxygen, if the ozone generator with the volume of 20kg/h is operated for one year, the oxygen can be saved by 1576800 cubes, and the calculation is 5518800 yuan; the yield is high, the concentration is high, the occupied area of equipment is small, the installation is convenient and fast, and the movement is convenient; the generator has long service life, is convenient to replace, saves energy and electricity; the ozone concentration is adjustable, the amount of oxygen input per minute can be effectively controlled, and the higher the oxygen input amount is, the higher the concentration of the generated ozone is correspondingly increased; the efficiency is high, the heat is low, a large-scale cooling system is not needed, and a water chilling unit is arranged in the system; the ozone concentration is not affected by voltage; the investment cost is low, the use cost is low, and 5 ten thousand yuan can be saved for a host with the yield per kilogram; the control cabinet 6-1 is a touch screen with Siemens smartplc and MCGS, and is provided with an Ethernet module to realize remote monitoring; the system has the functions of no cooling water, no oxygen alarm and shutdown; compared with the traditional ozone generator, the quasi-molecular ozone generator reduces COD of the environmental-friendly sewage by 40 percent; the quasi-molecular ozone generator has the treatment capacity of treating environment-friendly waste gas up to 95 percent, short reaction time and small required reaction equipment.
The horizontal excimer ozone generator of the structure utilizes the high-energy irradiation oxygen of a vacuum ultraviolet lamp with the wavelength of 172nm to generate ozone O with higher concentration3And active oxygen atom [ O ] having a strong oxidizing power]The concentration of the ozone generated by the 185nm magnetic energy lamp and the concentration of the ozone generated by the traditional ozone generator are dozens of times higher than that of the ozone generated by the traditional 185nm magnetic energy lamp; the excimer lamp is arranged in a 316L stainless steel container with a cooling water jacket, and pure oxygen is injected into the container and is irradiated and activated by the excimer lamp, so that the ozone yield and the active oxygen atom yield are greatly improved; a single 200W excimer lamp can generate 1.5KG ozone and active oxygen atoms, and can also be combined into a plurality of groups to generate dozens or even hundreds of kilograms of ozone and oxygen atoms; the reaction molecular formula of the quasi-molecular ozone generator under the oxygen condition is as follows:
O2hv→O2 * O2 *is excited oxygen, and hv is ultraviolet photon
O2 *+O2→O3+[O] [O]Is an active oxygen atom
[O]+O2→MO3M is a molecule of the container wall as a catalytic substance.
Case 1: applied to organic waste gas purification and deodorization
System configuration: an ozone generation section: air compressor → air storage tank → oil and water removing filter → freezing dryer → oil and water removing filter → adsorption dryer → oxygen generator → quasi-molecule ozone generator → ozone oxidation tower for aeration.
The equipment main body: organic waste gas pipeline access → draught fan → ozone oxidation spray tower (ozone cyclic aeration, excimer lamp photolysis, catalytic filler catalysis) → standard emission.
The process introduction:
an exhaust gas scrubbing system: the air is supplied to the oxygen generator through the fore air source equipment to generate high-purity oxygen, and the high-purity oxygen is supplied to the excimer ozone generator to generate ozone and active oxygen atoms. The produced ozone and active oxygen atoms are conveyed to a circulating water tank at the bottom of the ozone oxidation tower for aeration. The washing water containing ozone and active oxygen atoms is lifted to the top of the ozone oxidation tower by the circulating water pump to wash the waste gas.
Waste gas photolysis system: the excimer lamp and the excimer light source are arranged on the upper part of the ozone oxidation tower, high-energy photons of the excimer lamp can sufficiently open most of molecular bonds naturally, the light intensity can reach thousands of times of that of a traditional ultraviolet lamp, and the problem that the existing photolysis/photocatalysis technology bottleneck can efficiently photolyze waste gas is solved thoroughly, namely: the ammonia trimethylamine hydrogen sulfide methyl mercaptan methyl sulfide dimethyl disulfide carbon disulfide and styrene, sulfide VOC benzene toluene xylene and other organic pollutants. Under the action of quasi-molecular vacuum ultraviolet, the concentration of active groups such as O active oxygen atoms and OH hydroxyl radicals in the waste gas can reach tens of times that generated by a traditional ultraviolet lamp, macromolecular waste odor pollutants are strongly oxidized by the high-concentration transient active groups and finally mineralized into harmless or low-harmful products such as CO 2H 2O, and the purposes of removing wastes and deodorizing are achieved, and the standard emission is achieved.
Case 2: applied to high-concentration wastewater
System configuration: an ozone generation section: air compressor → air storage tank → oil and water filter → freezing dryer → oil and water filter → adsorption dryer → oxygen generator → quasi-molecule ozone generator → ozone contact tank.
The process introduction:
an exhaust gas scrubbing system: the air is supplied to the oxygen generator through the fore air source equipment to generate high-purity oxygen, and the high-purity oxygen is supplied to the excimer ozone generator to generate ozone and active oxygen atoms. The produced ozone and active oxygen atoms are conveyed to the ozone contact tank for aeration, the ozone has strong disinfection and strong oxidation capability to reduce COD, not only can thoroughly sterilize and disinfect, but also can degrade harmful components contained in water and remove heavy metal ions, various organic matters and other impurities, such as iron, manganese, sulfide, benzene, phenol, organic phosphorus, organic chlorine, cyanide and the like, and can deodorize and decolor the water, thereby achieving the purpose of purifying the water. The ozone has strong adaptability, is less influenced by water temperature and PH value, has wide ozone application range, is not limited by strains, can be automatically decomposed into oxygen, and cannot generate secondary pollution.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principle of the present invention, and these modifications should also be regarded as the protection scope of the present invention.
Claims (10)
1. A horizontal excimer ozone generator is characterized in that: the ozone generator consists of a horizontal component and an ozone generating component matched with the horizontal component; the horizontal assembly comprises a group of vertical supporting legs (1), a transverse tank body (2) arranged on the group of vertical supporting legs (1), a first tank body flange (3) and a second tank body flange (4) which are arranged on the end faces of the two ends of the transverse tank body (2), a first end socket flange (5) and a second end socket flange (6) which are respectively connected with the first tank body flange (3) and the second tank body flange (4), a first sight glass flange (9) and a second sight glass flange (10) which are respectively connected with the first end socket flange (5) and the second end socket flange (6), and a first sight glass (11) and a second sight glass (12) which are respectively connected with the first sight glass flange (9) and the second sight glass flange (10); the ozone generating assembly comprises a first tube plate (13) and a second tube plate (22) which are arranged on the inner walls of two ends of a transverse tank body (2), a tetrafluoro fixing bayonet (14) arranged on the first tube plate (13), and an excimer lamp (15) arranged on the tetrafluoro fixing bayonet (14), wherein one end of the excimer lamp (15) protrudes out of the second tube plate (22), a power supply junction box (16) arranged at one end of the excimer lamp (15), a conductive terminal (18) arranged on the outer wall of one end of the transverse tank body (2), an electric lead (19) with two ends respectively connected with the power supply junction box (16) and the conductive terminal (18), an external electrode net (17) arranged on the excimer lamp (15), a hollow water cooling cavity (23) arranged between the first tube plate (13) and the second tube plate (22), and a cooling water inlet (24) arranged on the outer walls of two ends of the transverse tank body (2), A cooling water outlet (25), and an ozone outlet (21) and an oxygen inlet (20) which are arranged on the outer walls of the two ends of the transverse tank body (2) and are respectively close to one side of the flange (3) of the first tank body and one side of the conductive terminal (18).
2. The horizontal excimer ozone generator of claim 1, wherein: the ozone outlet (21), the oxygen inlet (20) and the cooling water outlet (25) are arranged on the same side of the transverse tank body (2), and the cooling water inlet (24) is arranged on the other side of the oxygen inlet (20) in a staggered mode.
3. The horizontal excimer ozone generator of claim 2, wherein: the diameters of the ozone outlet (21), the oxygen inlet (20), the cooling water outlet (25) and the cooling water inlet (24) are all 20 mm.
4. The horizontal excimer ozone generator of claim 1, wherein: the excimer lamps (15) are at least five.
5. The horizontal excimer ozone generator of claim 1 or 2 or 3 or 4, wherein: the horizontal excimer ozone generator comprises an air compressor (1-1), a gas storage tank (2-1), a freezing dryer (3-1), an adsorption dryer (4-1), an oxygen generator (5-1), an excimer ozone generator (19-1), a water chiller (20-1), an ozone oxidation tower (21-1), an induced draft fan (31) and an ozone contact tank (33), wherein the air compressor (1-1), the gas storage tank (2-1), the freezing dryer (3-1), the adsorption dryer (4-1), the oxygen generator (5-1) and the excimer ozone generator (19-1) are respectively communicated with one another through a first air conduit (7-1), a second air conduit (8-1), a third air conduit (13-1), The fourth air conduit (14-1) and the fifth air conduit (15-1) are connected, wherein the second air conduit (8-1) and the third air conduit (13-1) are respectively provided with a first oil-water removal filter (9-1), a second oil-water removal filter (10-1), a third oil-water removal filter (11-1) and a fourth oil-water removal filter (12-1); the excimer ozone generator (19-1) and the water chiller (20-1) are respectively connected through a first cooling water outlet pipe (23-1) and a second cooling water outlet pipe (24-1); the excimer ozone generator (19-1) and the ozone oxidation tower (21-1) are connected through an anti-siphon pipe (22-1); the ozone oxidation tower (21-1) and the induced draft fan (31) are connected through an exhaust gas pipe (30), and the induced draft fan (31) is connected with an exhaust gas inlet pipe (32); the excimer ozone generator (19-1) is connected with the ozone contact pool (33) through an auxiliary conduit (34).
6. The horizontal excimer ozone generator of claim 5, wherein: the first oil-water removal filter (9-1), the second oil-water removal filter (10-1), the third oil-water removal filter (11-1) and the fourth oil-water removal filter (12-1) are all connected to the drainage ditch.
7. The horizontal excimer ozone generator of claim 5, wherein: the horizontal excimer ozone generator also comprises an auxiliary excimer lamp (25-1) arranged in the upper part of the ozone oxidation tower (21-1) and an auxiliary power supply junction box (26) arranged on the auxiliary excimer lamp (25-1).
8. The horizontal excimer ozone generator of claim 7, wherein: the horizontal excimer ozone generator further comprises a first circulating water pipe (27) and a second circulating water pipe (28) which are respectively connected with the outer wall of the upper portion and the outer wall of the lower portion of the ozone oxidation tower (21-1), and a circulating pump (29) which is respectively connected with the first circulating water pipe (27) and the second circulating water pipe (28), wherein one end of the first circulating water pipe (27) is located in the upper portion of the ozone oxidation tower (21-1).
9. The horizontal excimer ozone generator of claim 8, wherein: the horizontal excimer ozone generator further comprises a fifth oil-water removal filter (16-1) and a sixth oil-water removal filter (17-1) which are arranged on the fifth air conduit (15-1), wherein the fifth oil-water removal filter (16-1) and the sixth oil-water removal filter (17-1) are connected to a drainage ditch, and a metal float flowmeter (18-1) which is arranged on the fifth air conduit (15-1) and is positioned at the upper end of the joint of the fifth oil-water removal filter (16-1) and the fifth air conduit (15-1).
10. The horizontal excimer ozone generator of claim 9, wherein: the horizontal excimer ozone generator further comprises a control cabinet (6-1), wherein the control cabinet (6-1) is respectively connected with the air compressor (1-1), the air storage tank (2-1), the freezing dryer (3-1), the adsorption dryer (4-1), the oxygen generator (5-1), the excimer ozone generator (19-1), the water chiller (20-1), the ozone oxidation tower (21-1) and the induced draft fan (31).
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| Application Number | Priority Date | Filing Date | Title |
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| CN202022328431.4U CN213707745U (en) | 2020-10-19 | 2020-10-19 | Horizontal quasi-molecule ozone generator |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202022328431.4U CN213707745U (en) | 2020-10-19 | 2020-10-19 | Horizontal quasi-molecule ozone generator |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112047305A (en) * | 2020-10-19 | 2020-12-08 | 宜兴市高塍镇领峰自动化设备厂 | Horizontal quasi-molecule ozone generator |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112047305A (en) * | 2020-10-19 | 2020-12-08 | 宜兴市高塍镇领峰自动化设备厂 | Horizontal quasi-molecule ozone generator |
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