CN106957048B - Stack type cascading efficient ozone generating device and application thereof - Google Patents

Abstract

The invention provides a stack type cascading high-efficiency ozone generating device, which comprises a combined discharge body, an integrated cascading gas circuit pipeline assembly, a display control interface assembly and an integrated waterway pipeline assembly, wherein the combined discharge body is formed by sequentially stacking a plurality of integrated unit ozone assemblies in series, and a sealing ring is arranged between every two adjacent integrated unit ozone assemblies; the upper part and the lower part of the combined discharge body are respectively provided with an integrated cascading gas circuit pipeline assembly and an integrated waterway pipeline assembly; the front end of the combined discharging body is provided with an insulating high-voltage display control power supply interface component. The invention has high integration degree, volume and weight which are only 60 percent of the current like products, simple structure and low cost, reduces the number of phase parts by more than 70 percent compared with the like products, saves the assembly and maintenance time by about 2/3, reduces the energy consumption by 45 percent, realizes high yield and high concentration of ozone, can realize the ozone concentration of 150mg/L under the condition of lower energy consumption, and meets the effective treatment requirement on highly refractory pollutants.

Description

Stack type cascading efficient ozone generating device and application thereof

Technical Field

The invention mainly relates to the technical field of environmental pollution treatment equipment, in particular to the technical field of ozone production devices.

Background

The ozone generating device is used for preparing ozone gas (O) ₃ ) Is provided. Ozone is easy to decompose and can not be stored, and the ozone generator is needed in places where ozone can be used, namely, places where the ozone can be prepared on site (short-time storage can be performed under special conditions). Ozone generating device is widely used in the fields of drinking water, sewage, industrial oxidation, food processing and fresh-keeping, medical synthesis, space sterilization and the like. The ozone gas generated by the ozone generator can be directly utilized, or can be mixed with liquid through a mixing device to participate in the reaction. The classification of the ozone generators is divided into three types, namely a high-voltage discharge type, an ultraviolet irradiation type and an electrolysis type according to the ozone generation mode.

Currently, gap discharge type large ozone generators have been used. With the continuous improvement of materials and process levels, tubular structures have gradually evolved into plate structures. Due to the characteristics of high efficiency, low energy consumption, small volume and the like, the plate-type structure has been widely studied and applied in recent years.

The discharging device of the ozone generator of the patent CN201310097913.5 adopts a plate structure in the ground electrodeThe cooling water channel is arranged at the part, so that the cooling efficiency is improved to a certain extent, but the high-voltage electrode has poor cooling effect, and the ozone concentration of the whole device is difficult to improve; although the patent 201410423413.0 adopts an integrated cooling design, cooling water sequentially passes through each layer of discharge modules, so that the ozone generating device is difficult to increase power, and the cooling effect of the discharge devices arranged at the back is poor; the parallel plate type ozone generating device disclosed in the patent 201410082469.4 also adopts the internal cooling of the ground electrode, but the arrangement of the cavity of the ground electrode leads to poor fluidity of the cooling liquid, cooling dead angles exist, and the high-voltage electrode cannot be cooled; the novel modularized plate type plasma ozone generator of the patent 20152061062.5 also adopts the circulating water cooling in the ground electrode, and although a single electrode plate is adopted for independent cooling, the inside of the high-voltage electrode is not cooled, the whole temperature of the device is high, the ozone concentration is low, the energy consumption is high, and in addition, a plurality of parts are assembled. The main technical indexes of the advanced plate-type ozone generator at home and abroad are as follows: the energy consumption is 8kwh/kgO when the rated ozone concentration is 100mg/L ₃ Yield 1kgO ₃ And (5) square meters. However, these plate-type ozone generators currently have the following main problems:

(1) The congenital defect of the positioning structure causes unbalanced pressure applied to the ceramic discharge plate, so that the ceramic discharge plate is easy to crack and has poor reliability;

(2) The ceramic strip is adopted as a discharge gap positioning device, so that the discharge gap has long gas path and occupies large effective discharge area, and the problems of large energy consumption, low ozone yield per unit discharge area, high material cost and the like are caused;

(3) The structural manufacturability is poor, for example, two air passage interfaces and two water passage interfaces of each discharge plate are connected with corresponding pipelines through 8 connectors and 4 hoses, and the ozone component of 1 kgO/h is composed of 30 discharge plates, so that the number of the connectors and the hoses is 240 and 120; the whole discharge body is assembled by 700 parts, the number of parts is large, the structure is complex, and multiple positioning control processes are needed in the assembly process, so that the problems of high assembly difficulty, high requirements on the skills of operators, poor product maintainability and the like are caused.

Disclosure of Invention

Aiming at the defects of high energy consumption, complex structure, large volume, low modularization degree, easy breakage of a ceramic discharge plate, high manufacturing and maintenance process difficulty and the like of the traditional plate-type ozone generating device, the invention provides the reliable, efficient, energy-saving and modularized stack-type ozone generating device through an integration technology, and the large-scale ozone generating device can be conveniently realized in a combined mode, and various small-scale ozone generating devices can be flexibly formed. The device is mainly used in the fields of high degradation-resistant sewage (such as landfill leachate, high pollution sludge water formed after domestic sewage treatment, chemical wastewater), waste gas, soil remediation and the like.

The technical scheme provided by the invention is as follows:

the invention provides a stack type cascading high-efficiency ozone generating device, which comprises a combined discharge body, an integrated cascading gas circuit pipeline assembly, a display control interface assembly and an integrated waterway pipeline assembly, wherein the combined discharge body is formed by sequentially stacking a plurality of integrated unit ozone assemblies in series, and a sealing ring is arranged between the adjacent integrated unit ozone assemblies; the upper part and the lower part of the combined discharge body are respectively provided with an integrated cascading gas circuit pipeline assembly and an integrated waterway pipeline assembly; the front end of the combined discharging body is provided with an insulating high-voltage display control power supply interface component.

According to the invention, one side of an integrated unit ozone component is provided with an integrated cooling plate, one side of the integrated cooling plate is provided with a heat conduction insulating plate, one side of the heat conduction insulating plate, which is far away from the integrated cooling plate, is provided with a pressure equalizing lining plate, one side of the pressure equalizing lining plate, which is far away from the heat conduction insulating plate, is provided with a ceramic discharge plate, a hidden waterway and a hidden waterway are arranged in the integrated cooling plate, the hidden waterway is connected with an integrated waterway pipeline component, and the hidden waterway is connected with an integrated cascading air channel pipeline component.

In the invention, the integrated unit ozone component is provided with a final assembly connecting hole.

According to the invention, the integrated cascading gas circuit pipeline assembly comprises a cascading gas circuit pipeline and a bottom plate, the integrated water circuit pipeline assembly comprises a water circuit pipe and a bottom plate, mounting screw holes are formed in the periphery of the bottom plate, the integrated cascading gas circuit pipeline assembly and the integrated water circuit pipeline assembly are mounted on a combined discharge body through fastening screws, plugs are arranged at two ends of the cascading gas circuit pipeline assembly and the water circuit pipe, hidden gas circuit holes are formed in the bottom plate of the integrated cascading gas circuit pipeline assembly, hidden water circuit holes are formed in the bottom plate of the integrated water circuit pipeline assembly, and pipeline interfaces are arranged on the sides of the cascading gas circuit pipeline assembly and the water circuit pipe.

In the invention, an annular sealing ring is arranged between a hidden interface of the integrated cascade gas circuit pipeline assembly and the integrated water circuit pipeline assembly and the combined discharge body.

In the invention, a high-voltage electrode lead of the integrated ozone component is connected with a wiring terminal in a corresponding insulating high-voltage display control power supply interface component.

In the invention, handles are arranged at the two ends of the upper surface of the combined discharge body, mounting clamping plates are arranged at the two sides of the combined discharge body, and reinforcing base angles are arranged outside the bottom relative to the base angles.

In the invention, a cascade isolation plate is arranged in the integrated cascade gas circuit pipeline component.

In the invention, the display control interface component adopts insulating materials and consists of an insulating bottom box and an insulating cover plate, wherein a plurality of unit isolation chamber structures are arranged in the insulating bottom box, and a display circuit board, a high-voltage protective tube, a wiring terminal and a high-voltage bus bar are arranged in the unit isolation chamber.

The invention has the beneficial effects that:

(1) The integration degree is high, and the cost is low. Since a plurality of integration techniques are adopted, 1kgO ₃ Compared with similar products, the volume and the weight of the h stack type cascading high-efficiency ozone generator device are only 60 percent of those of the current similar products, so that the material consumption is greatly reduced, and the material cost of the products is reduced by more than 30 percent.

(2) Simple structure and low manufacturing and maintenance cost. Integration and modularization techniques greatly simplify the system architecture of the device, as in 1kgO ₃ The ozone generator device with the ozone output per hour reduces the number of parts by more than 70% compared with similar products, and reduces the number of joints and connecting hoses by as much as 360. Meanwhile, the process difficulty in the implementation process of the product is greatly reduced, and the assembly and maintenance time is only one third of that of the similar productAnd the manufacturing cost and the maintenance cost of the device are greatly reduced.

(3) The energy-saving effect is obvious. The integration technology obviously improves the electrical performance index of the ozone generating process, improves the effective utilization rate of the discharge plate by more than 20 percent, and can achieve the ozone yield of 1.8kgO ₃ The method has the advantages that the method is capable of improving the square meter by more than 70 percent compared with similar products, and the energy consumption is less than 5.5kWh/kgO when the ozone concentration is 100mg/L ₃ The energy consumption is reduced by 45% compared with the similar products under the condition of the same ozone concentration, and the energy-saving effect is very remarkable.

(4) High yield and high concentration of ozone are achieved. The device realizes the full cooling structure process of the ceramic discharge plate, and the original cascading technology can realize the ozone concentration of 150mg/L under the condition of lower energy consumption, thereby meeting the effective treatment requirement on highly refractory pollutants.

Drawings

Fig. 1 shows a schematic structure of the device according to the present invention.

Fig. 2 is a schematic view of an ozone module structure of an integrated unit according to the present invention.

Fig. 3 is a schematic structural view of an integrated gas circuit pipeline assembly according to the present invention.

FIG. 4 is a schematic view showing the construction of the integrated waterway pipeline assembly of the present invention.

Fig. 5 is a schematic diagram of the structure of the display control interface assembly of the present invention.

Fig. 6 shows a schematic circuit diagram of the present invention.

In fig. 1-6, a 1-integrated unit ozone assembly, a 2-integrated cascade gas circuit pipeline assembly, a 3-display control interface assembly, a 4-handle, a 5-integrated water circuit pipeline assembly, a 6-fastening screw, a 7-installation clamping plate, an 8-reinforcement base angle, a 9-temperature sensor, a 10-high voltage electrode lead, an 11-integrated cooling plate, a 12-ceramic discharge plate, a 13-pressure equalizing lining plate, a 14-heat conducting insulating plate, a 15-process hole plug, a 16-plug, a 17-cascade gas circuit pipeline, an 18-pipeline interface, a 19-cascade isolating plate, a 20-water circuit pipe, a 21-insulating base box, a 22-insulating cover plate, a 23-display circuit board, a 24-high voltage protective tube, a 25-wiring terminal and a 26-high voltage bus bar.

Detailed Description

Specific embodiments of the present invention will be described in further detail below with reference to fig. 1 to 6 and examples, but the apparatus of the present invention is not limited to the examples described below.

In the present invention, for convenience of description, the description of the relative positional relationship of the components in the apparatus of the present invention is described with reference to the layout manner of fig. 1, for example: the upper, lower, left, right, etc. relationships are determined according to the layout direction of fig. 1.

Embodiment one: the invention relates to a stack type cascading high-efficiency ozone generating device

The technical scheme provided by the invention is as follows:

the invention provides a stack type cascading efficient ozone generator, which comprises a combined discharge body, an integrated cascading gas circuit pipeline assembly (2), a display control interface assembly (3) and an integrated water circuit pipeline assembly (5), wherein the combined discharge body is formed by sequentially stacking a plurality of integrated unit ozone assemblies (1) in series, and sealing rings are arranged between the adjacent integrated unit ozone assemblies (1); the upper part and the lower part of the combined discharge body are respectively provided with an integrated cascading gas circuit pipeline assembly (2) and an integrated waterway pipeline assembly (5); one side of the combined discharging body is provided with an insulating high-voltage display control power supply interface component (3).

According to the invention, one side of an integrated unit ozone assembly (1) is provided with an integrated cooling plate (11), one side of the integrated cooling plate (11) is provided with a heat conduction insulating plate (14), one side of the heat conduction insulating plate (14) away from the integrated cooling plate (11) is provided with a pressure equalizing lining plate (13), one side of the pressure equalizing lining plate (13) away from the heat conduction insulating plate (14) is provided with a ceramic discharge plate (12), a hidden waterway and a hidden air channel are arranged in the integrated cooling plate (11), two ends of the hidden waterway are respectively connected with a water inlet assembly and a water outlet assembly in the integrated waterway pipeline assembly (5), one end of the hidden waterway is connected with the integrated cascading air channel pipeline assembly (2), and the other end of the hidden waterway is arranged in a high-voltage discharge cavity.

In the invention, the integrated unit ozone component (1) is provided with a final assembly connecting hole which is used for penetrating through the fastening screw (6) during final assembly.

According to the invention, the integrated cascading gas circuit pipeline assembly (2) comprises a cascading gas circuit pipeline (17) and a bottom plate, the integrated waterway pipeline assembly (5) comprises a waterway pipe (20) and the bottom plate, mounting screw holes are formed in the periphery of the bottom plate, the integrated cascading gas circuit pipeline assembly (2) and the integrated waterway pipeline assembly (5) are mounted on a combined discharge body through fastening screws, plugs (16) are arranged at two ends of the cascading gas circuit pipeline (17) and the waterway pipe (20), hidden gas circuit holes are formed in the bottom plate of the integrated cascading gas circuit pipeline assembly (2), hidden waterway holes are formed in the bottom plate of the integrated waterway pipeline assembly (5), and pipeline interfaces (18) are formed in the side surfaces of the cascading gas circuit pipeline (17) and the waterway pipe (20).

In the invention, an annular sealing ring is arranged between the integrated cascade gas circuit pipeline assembly (2) and the integrated water circuit pipeline assembly (5) and the combined discharge body.

In the invention, a high-voltage electrode lead (10) of an integrated ozone assembly is connected with a wiring terminal (25) in a corresponding insulating high-voltage display control power supply interface assembly.

In the invention, a cascade isolation plate (19) is arranged in a cascade gas circuit pipeline (17).

In the invention, a display control interface component (3) consists of an insulating bottom box (21) and an insulating cover plate (22), wherein a plurality of unit isolation chamber structures are arranged in the insulating bottom box, and a display circuit board (23), a high-voltage protective tube (24), a wiring terminal (25) and a high-voltage bus bar (26) are arranged in the unit isolation chamber.

Embodiment two: the invention relates to a stack type cascading high-efficiency ozone generating device

When the technical scheme of the invention is implemented, the integrated unit ozone components (1) are sequentially stacked in series, annular sealing rings are placed between adjacent ones of the integrated unit ozone components, the integrated unit ozone components are connected and fastened by 4 fastening screws penetrating through the assembly connecting holes, handles (4) are arranged at two ends of the upper surface of the integrated unit ozone component, mounting clamping plates (7) are arranged at two sides of the integrated unit ozone component, reinforcing base angles (8) are arranged outside the bottom relative to the base angles, and a temperature sensor (9) is arranged on the integrated unit ozone component.

Embodiment III: the invention relates to a design principle of a stack type cascading high-efficiency ozone generating device

The stacked type serial stacking realizes the full cooling structure of the two sides of the ceramic discharge plate (12), solves the structural problem of single-side cooling of the conventional plate type discharge plate, and improves the cooling effect by more than 30 percent; through the cascade isolation plates (19) in the pipeline, the continuous repeated ionization of ozone among all discharge units is avoided, high-concentration ozone is effectively realized, the effective utilization rate of the discharge plates is improved, and the energy consumption is reduced; the display control interface component (3) is of a unit isolation chamber structure, and each power supply unit and each detection unit are arranged in an independent isolation chamber, so that the problem of high-voltage creepage is effectively solved; and a sealing ring is arranged at each gas path or waterway interface to ensure that the gas path and waterway are in a fully-closed state after the integrated cascade gas path pipeline assembly (2) and the integrated waterway pipeline assembly (5) are assembled with the discharge body. The structural design greatly simplifies the structural system of the discharge plate, realizes the integrated structure of the discharge body assembly, the integrated cascading gas circuit pipeline assembly (2) and the integrated waterway pipeline assembly (5), and adopts a process hole plug to block the discharge body assembly except a water inlet and outlet port after the waterway channel which is internally crosslinked is formed in the side surface of the integrated cooling plate (11) in order to set a hidden waterway in the integrated cooling plate (11).

The device can work only after being supplied with 3000V and 4000 Hz-6500 Hz power, and the circuit schematic diagram is shown in figure 6. When the power supply is switched on between the high voltage electrode and the ground electrode of the integrated discharge plate, an electric field is formed between the gaps of the two plate electrodes, a discharge corona is generated, part of oxygen molecules passing through the electric field are ionized into oxygen ions, and the oxygen ions are combined with the oxygen molecules which are not ionized to form ozone molecules, namely ozone (O) ₃ ) The generated ozone is conveyed to an ozone gas system through a pipeline under the pressure effect.

Fifth embodiment: the stack type cascading high-efficiency ozone generating device of the invention is compared with the prior art

The stack type cascading high-efficiency ozone generating device is compared with the prior art, the test site is in the Shenyang ceramic industry garden Tianyuan water treatment limited company, the time is 2016, 10 months and 2017, 4 months, and the comparison test equipment is as follows: the patent is one set of 40kg equipment, and the prior art is one set of 80kg equipment (products of other domestic factories).

The test results are as follows:

the present invention may be better implemented as described above, and the above examples are merely illustrative of preferred embodiments of the present invention and not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solution of the present invention should fall within the scope of protection defined by the present invention without departing from the spirit of the design of the present invention.

Claims (7)

1. A stack type cascading high-efficiency ozone generating device comprises a combined discharge body, an integrated cascading gas circuit pipeline assembly, a display control interface assembly and an integrated water circuit pipeline assembly, and is characterized in that the combined discharge body is formed by sequentially stacking a plurality of integrated unit ozone assemblies in series, and sealing rings are arranged between the adjacent integrated unit ozone assemblies; the upper part and the lower part of the combined discharge body are respectively provided with an integrated cascading gas circuit pipeline assembly and an integrated waterway pipeline assembly; the integrated unit ozone component one side be provided with the integration cooling plate, integration cooling plate one side be provided with the heat conduction insulation board, heat conduction insulation board keeps away from one side of integration cooling plate and is provided with the pressure equalizing lining board, pressure equalizing lining board keeps away from heat conduction insulation board one side and is provided with the ceramic discharge board, be provided with hidden water route and hidden gas circuit in the integration cooling plate, hidden water route is connected with integration water route pipeline component, hidden gas circuit and integration cascade gas circuit pipeline component, integration cascade gas circuit pipeline component include cascade gas circuit pipeline and bottom plate, integration water route pipeline component includes water route pipe and bottom plate, the bottom plate is provided with the installation screw hole all around, integration cascade gas circuit pipeline component and integration water route pipeline component pass through fastening screw and install on the combination discharge body, cascade gas circuit pipeline and water route pipe both ends are provided with the end cap on the integration cascade gas circuit pipeline component bottom plate, be provided with hidden water route hole on the integration water route pipeline component bottom plate, cascade gas circuit pipeline and water route pipe side are provided with the pipeline interface, combination body upper surface both sides be provided with the heat transfer device, the combination is provided with the temperature sensor bottom plate sets up the relative bottom plate, the combination is provided with the discharge angle.

2. The stacked cascade high efficiency ozone generator as defined in claim 1, wherein said integrated unit ozone assembly is provided with a final assembly connection hole.

3. The stacked cascade high-efficiency ozone generator as recited in claim 1, wherein a sealing ring is placed between a hidden interface of said integrated cascade gas circuit pipeline assembly and said integrated water circuit pipeline assembly and said combined discharge body.

4. The apparatus of claim 1, wherein the high voltage electrode leads of the integrated unit ozone module are connected to terminals in the corresponding insulated high voltage display control power interface module.

5. The stacked cascade high efficiency ozone generator as defined in claim 1, wherein a cascade separator is provided in the integrated cascade gas circuit conduit assembly.

6. The stacked cascade high-efficiency ozone generating device according to claim 1, wherein the display control interface component is made of insulating materials and consists of an insulating bottom box and an insulating cover plate, a plurality of unit isolation chamber structures are arranged in the insulating bottom box, and a display circuit board, a high-voltage protective tube, a wiring terminal and a high-voltage bus bar are arranged in the unit isolation chamber.

7. Use of a stacked cascade high efficiency ozone generating device as defined in any one of claims 1-6 for the production of ozone.

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