PHOTO-CATALYTIC OXIDATION DEVICE FOR ORGANIC WASTE GAS

Abstract

An organic waste gas photocatalytic oxidation device is provided, which includes a shell with an air inlet and an air outlet, and a microwave generator for forming a microwave electromagnetic field in the shell; the air inlet and the air outlet of the shell are both provided with a catalyst mesh plate, and the shell is provided with an ultraviolet lamp tube and a photocatalyst plate. By combining three technologies of microwave, ultraviolet and photocatalyst.

Claims

1. A photocatalytic oxidation device for organic waste gas, comprising: a shell (1) with an air inlet (101) and an air outlet (102) and a microwave generator for forming a microwave electromagnetic field in the shell (1); the air inlet (101) and the air outlet (102) of the shell (1) are provided with a catalyst mesh plate (2), and the shell (1) is provided with an ultraviolet lamp tube (3) and a photocatalyst plate (4).

2. The photocatalytic oxidation device for organic waste gas according to claim 1, wherein, the microwave generator comprises a microwave power supply and a microwave head (5), the microwave power supply is electrically connected with the microwave head (5), and the microwave head (5) is fixed on the shell (1).

3. The photocatalytic oxidation device for organic waste gas according to claim 2, wherein, the input power of the microwave head (5) is 1200 w-1500 w.

4. The photocatalytic oxidation device for organic waste gas according to claim 1, wherein, the air inlet (101) and the gas outlet (102) are arranged relatively, and the catalyst mesh plate (2) is a metal honeycomb mesh plate coated with nano-TiO2.

5. The photocatalytic oxidation device for organic waste gas according to claim 1, wherein, the photocatalyst plate (4) is parallel and adjacent to the ultraviolet lamp tube (3).

6. The photocatalytic oxidation device for organic waste gas according to claim 5, wherein, when the ultraviolet lamp tube (3) and the photocatalyst plate (4) are provided with multiple groups, the ultraviolet lamp tube (3) and the photocatalyst plate (4) are arranged at intervals.

7. The photocatalytic oxidation device for organic waste gas according to claim 1, wherein, the shell (1) is a cuboid, and the air inlet (101) and air outlet (102) are arranged on the opposite end face or side of the shell (1).

8. The photocatalytic oxidation device for organic waste gas according to claim 7, wherein, the width value and height value of the shell (1) are equal, and the length value of the shell (1) is the square of the width value.

9. The photocatalytic oxidation device for organic waste gas according to claim 8, wherein, the size of the shell (1) is 900 mm×300 mm×300 mm or 1600 mm×400 mm×400 mm.

10. The photocatalytic oxidation device for organic waste gas according to claim 1, wherein, the shell (1) is provided with a movable door for replacing and repairing the photocatalyst plate (4) and the ultraviolet lamp tube (3).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] In order to explain the technical scheme in the embodiment of the invention more clearly, the drawings needed in the description of the embodiment will be briefly introduced below.

[0018] FIG. 1 is a stereogram of an organic waste gas photocatalytic oxidation device in the embodiment of the invention;

[0019] FIG. 2 is the right view of FIG. 1;

[0020] FIG. 3 is a sectional view at A-A in FIG. 2;

[0021] FIG. 4 is a stereoscopic view of the organic waste gas photocatalytic oxidation device in another embodiment of the present invention;

[0022] FIG. 5 is the main view of FIG. 4;

[0023] FIG. 6 is the sectional view of B-B in FIG. 5.

DETAILED DESCRIPTION

[0024] The invention will be further described in detail in combination with the attached drawings. It should be noted that the organic waste gas photocatalytic oxidation device in the embodiment can be installed vertically or horizontally when in use.

[0025] An organic waste gas photocatalytic oxidation device includes a shell 1 with an air inlet 101 and an air outlet 102, and a microwave generator for forming a microwave electromagnetic field in the shell 1; a catalyst mesh plate 2 is arranged on the air inlet 101 and air outlet 102 of the shell 1, and the ultraviolet light tube 3 and the photocatalyst plate 4 are arranged in the shell 1.

[0026] In a specific embodiment, as shown in FIGS. 1-3, the shell 1 is cuboid, the size of the shell 1 is 900 mm×300 mm×300 mm, and the shell 1 is made of 304 stainless steel. The air inlet 101 and air outlet 102 are arranged on the side wall of the shell 1, and the air inlet 101 and the air outlet 102 are arranged relatively. The catalyst mesh plate 2 is arranged on the air inlet 101 and the air outlet 102. The catalyst mesh plate 2 is an aluminum alloy honeycomb mesh plate coated with nano-TiO2.

[0027] The microwave generator comprises a microwave power supply (not shown in the figure) and a microwave head 5, the microwave power supply is electrically connected with the microwave head 5, the microwave head 5 is fixed on the end wall of the shell 1, and the input power of the microwave head 5 is 1200 W.

[0028] As shown in FIG. 3, the ultraviolet lamp tube 3 is provided with two groups, each group of ultraviolet lamp tube 3 is parallel to the air inlet 101 and air outlet 102, the photocatalyst plate 4 is arranged between the two groups of ultraviolet lamp tubes 3 and is parallel to the photocatalyst plate 4, the photocatalyst plate 4 is arranged close to the ultraviolet lamp tube 3, and the photocatalyst plate 4 is a ceramic photocatalyst net plate coated with nano-TiO2 on the surface. For the number of ultraviolet lamp tube 3 and photocatalyst plate 4, the invention does not make specific requirements, and can be added or decreased according to the specific situation.

[0029] When the organic waste gas enters the shell 1 through the air inlet 101, it is first broken by the microwave ultra-high frequency electromagnetic field and cuts the molecular bond to form smaller molecules, which is conducive to the photocatalytic oxidation of ultraviolet rays. The specific mechanism is that the ultraviolet light emitted by the ultraviolet lamp 3 irradiates the TiO2 on the photocatalyst plate 4 to produce —O and —Oh oxidation groups, thus strengthening the photocatalytic oxidation of ultraviolet rays, gradually reducing VOCs molecules, and finally forming harmless water and CO2. The treatment efficiency of VOCs is increased by more than two times, and the effective life of the device is prolonged by five times.

[0030] In another specific embodiment, as shown in FIGS. 4-6, the size of the shell 1 is 1600 mm×400 mm×400 mm, and the air inlet 101 and air outlet 102 are arranged on the end wall of the shell 1. At this time, the microwave head 5 is set on the top wall of the shell 1, and the input power of the microwave head 5 is 1500 W. As shown in FIG. 6, the shell 1 is provided with four groups of photocatalyst plates 4 and five groups of ultraviolet lamp tubes 3, and the photocatalyst plates 4 and the ultraviolet lamp tubes 3 are arranged at intervals.

[0031] In addition, in order to facilitate the replacement and maintenance of the ultraviolet lamp tube 3 and the photocatalyst plate 4 in the shell 1, the shell 1 is provided with a movable door, which can be the whole side wall or end wall of the shell 1, or a through groove with a cover plate on the side wall or end wall. During maintenance, the ultraviolet lamp tube 3 and the photocatalyst plate 4 can be replaced or maintained by opening the movable door.

[0032] It should be pointed out that for ordinary technicians in the art, on the premise of not departing from the inventive concept of the invention, a number of modifications and improvements can be made, which belong to the protection scope of the invention.