CN106673174A - Device and method for producing nano/micron gas bubbles - Google Patents

Abstract

The invention relates to a device for producing nano/micron gas bubbles. The device comprises a nano/micron gas bubble producing spray head (3), wherein the nano/micron gas bubble producing spray head is connected with an air compressor (1) through a gas pipeline (2); the nano/micron gas bubble producing spray head (3) comprises a spray head threaded pipe (31) and a zeolite flake layer (32) which is located at an outlet of the spray head threaded pipe and is tightly pressed by a pressing nut cap (34). The invention also relates to a method for producing the nano/micron gas bubbles. The device for producing the nano/micron gas bubbles in a claim 1 is used in the production method, wherein a gas is compressed until the pressure is not less than 5MPa through using the air compressor, and then the gas is enabled to flow through the zeolite flake layer to produce the nano/micron gas bubbles. The device and the method, which are provided by the invention, can be used for the field of the treatment of sewage drainage areas.

Description

One kind receives micron bubble generation device and production method

Technical field

The invention belongs to sewage valley harnessing equipment and administering method field, and in particular to one kind receive micron bubble produce dress Put and production method.

Background technology

It is a kind of effective especially in the sewage disposal process rich in organic pollution in sewage valley harnessing field Method be air oxidation process, i.e., aoxidize organic pollution to large quantity of air is blasted in sewage.Technical staff wishes what is blasted Air bubble diameter is the smaller the better, to improve the contact area of air and waste water, improves oxidation efficiency.But it is limited by air sparge The limitation of spray orifice processing dimension, the minimum bubble volume that can accomplish at present namely hundreds of microns, then it is small cannot be with normal Rule mechanical means is realized, or can only be realized with cavitation erosion method, but the Production conditions of cavitation erosion are very harsh, using limited.

Therefore, sewage valley harnessing field wish a kind of energy produce simple and easy to applyly receive micron bubble device and side Method.

The content of the invention

First aspect present invention is related to one kind to receive micron bubble generation device, and it is included by gas piping (2) and air Compressor (1) connection receive micron bubble produce shower nozzle (3), this receive micron bubble produce shower nozzle (3) include：Shower nozzle screwed pipe (31) and positioned at its exit it is compacted the zeolite lamella (32) of nut (34) compression.

Preferably, it is provided with packing ring (33) between the zeolite lamella (32) and the clamping nut (34).The packing ring is used for The fastening force that buffering clamp nut is applied to zeolite lamella, it is to avoid zeolite lamella ruptures.

Wherein, the micro-pore diameter of the zeolite in the zeolite lamella (32) is 5-1000 nanometers.By using different boilings Stone selects different micro-pore diameters.Generally, it is straight that the various natural zeolites and synthetic zeolite for industrially using all meet this micropore The requirement in footpath.

Preferably, the zeolite lamella (32) is only stone-type monolith, wherein only stone-type zeolite refers to the zeolite day It is so overall bulk.After suitable shape and size being cut or being polished into by the natural overall lump zeolite, you can as this Zeolite lamella in invention.

Preferably, the air compressor (1) is positive displacement type air compressor, such as positive displacement in liquid transportation art Pump can provide that almost limitless output pressure high is the same, and this positive displacement type air compressor can also provide almost limitless height Gas output pressure.

The second aspect of the present invention provides one kind and receives micron bubble production method, and it is used described in the first aspect of the present invention Receive micron bubble generation device, wherein by using air compressor by gas compression is to the pressure for being not less than 5MPa and then makes The gas flows through the zeolite lamella and receives micron bubble producing.Inventor experimental studies have found that, when gas output pressure is less than During 5MPa, gas can hardly be by above-mentioned zeolite lamella (32), and when gas output pressure is higher than 5MPa, gas can be strong By above-mentioned zeolite lamella (32) under big pressure, and diameter is produced in hundreds of nanometers to the micron bubble of receiving between some tens of pm.

Beneficial effects of the present invention

1st, the present invention can be produced with apparatus and method simple and easy to apply and receive micron bubble.

2nd, by using the zeolite lamella of different micro-pore diameters, generation receive micron bubble diameter it is adjustable.

Brief description of the drawings

Fig. 1 is the schematic diagram for receiving micron bubble generation device of the invention.

Fig. 2 is that micron bubble of receiving of the invention produces shower nozzle schematic diagram.

Reference is：1- air compressors；2- gas pipings；3- receive micron bubble produce shower nozzle；31- shower nozzle screw threads Pipe；32- zeolite lamellas；33- packing rings；34- clamping nuts.

Specific embodiment

Detailed description below is only used for illustrating the present invention, limits the invention never in any form.

Air is compressed to pressure for 5MPa (gauge pressure) by air compressor 1, then the air after compressing is passed to receive it is micro- Rice bubble produces shower nozzle 3, its structure as shown in Fig. 2 zeolite lamella 32 therein uses clinoptilolite, and this zeolite is easily with only Stone form is obtained, and can often be obtained with the intact geometric shape in intact or part at the rock compact texture near volcanic crater The clinoptilolite of plate crystal form, only stone diameter is cut and is polished into the disc-shaped of suitable dimension i.e. up to several tens cm Can be used as the zeolite lamella in the present invention.Can certainly be using the zeolite of other forms, as long as it can exist with monolithic form .

Gas is under 5MPa pressure by after the zeolite lamella, becoming diameter range for receiving for 300-800 rans is micro- Rice bubble.Gas pressure is further improved, it is found that bubble size can become larger, but maximum is not more than some tens of pm.

Claims (6)

1. one kind receives micron bubble generation device, it is characterised in that it is included by gas piping (2) and air compressor (1) Connection receive micron bubble produce shower nozzle (3), this receive micron bubble produce shower nozzle (3) include：Shower nozzle screwed pipe (31) and it is located at Its exit is compacted the zeolite lamella (32) of nut (34) compression.

2. micron bubble generation device of receiving according to claim 1, it is characterised in that the zeolite lamella (32) with it is described Packing ring (33) is provided between clamping nut (34).

3. micron bubble generation device of receiving according to claim 1, it is characterised in that the zeolite lamella (32) is only stone Type monolith.

4. micron bubble generation device of receiving according to claim 1, it is characterised in that the boiling in the zeolite lamella (32) The micro-pore diameter of stone is 4-1000 nanometers.

5. micron bubble generation device of receiving according to claim 1, it is characterised in that the air compressor (1) is for just Displacement type air compressor.

6. one kind receives micron bubble production method, it is characterised in that the micron bubble of receiving described in its usage right requirement 1 produces dress Put, wherein by using air compressor by gas compression is to the pressure for being not less than 5MPa and then the gas is flowed through the zeolite Lamella receives micron bubble to produce.