CN102815799B - Nanometer foam oxygen increase generator - Google Patents
Nanometer foam oxygen increase generator Download PDFInfo
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- CN102815799B CN102815799B CN201210171689.5A CN201210171689A CN102815799B CN 102815799 B CN102815799 B CN 102815799B CN 201210171689 A CN201210171689 A CN 201210171689A CN 102815799 B CN102815799 B CN 102815799B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Abstract
The invention discloses a nanometer foam oxygen increase generator which comprises a jet flow negative pressure air inlet device, an oxygen generator, a gas liquid mixing tank, a water pump, a rotating aeration head and a magnetization pipe. An oxygen output port of the oxygen generator is communicated with a gas liquid mixing chamber of the jet flow negative pressure air inlet device, and an outlet of the jet flow negative pressure air inlet device is communicated with the gas liquid mixing tank. A liquid inlet and a liquid outlet of the water pump are respectively communicated with the gas liquid mixing tank to form the circulation. The rotating aeration head is connected onto a pipeline loop where the water pump is connected with the gas liquid mixing tank. The magnetization pipe is sleeved on a pipeline where the water pump is connected with the gas liquid mixing tank. The nanometer foam oxygen increase generator utilizes the jet flow negative pressure air inlet device, the gradient magnetization pipe and the rotating aeration injection head, is stable and controllable in proportion, strengthens osmotic pressure, solubility, surface tension and dissolved oxygen content of water, obtains small bubbles with smaller size, larger surface area and larger surface tension and can generate nanometer bubbles of 1-100nm through repeated circulation.
Description
Technical field
The present invention relates to a kind of device that utilizes nanometer foam to increase water oxygen gas content.
Background technology
The people such as rain fruit (Hugo) have proposed solid-liquid interface and have had nano bubble in the process of research surface hydrophobicity long-range mechanism of action, due to the difference of experiment condition, various countries scientist has different views to the pattern of nano bubble, and the bubble being present in liquid that conventionally size is less than to hundreds of nanometers is called nano bubble.The manufacture of nano bubble has several different methods, as directly soaked the method for putting, external source method, alcohol water Shift Method, chemical reaction method etc.The advantages such as it is huge that nano bubble has quantity, and surface-area is huge, and lift velocity is slow, dissolved oxygen content is large, in environmental protection industry (epi), Metallurgy Industry, water industry and agricultural, sewage disposal.Health fields etc. have huge applications prospect.
There is following shortcoming in existing nano bubble manufacture method: gas-liquid enters respectively mixing device, and gas-liquid mixed is inhomogeneous; Lack gradient magnetization technology, liquid infiltration power is little, solubleness is little, dissolved oxygen content is few, surface tension is little; That nano bubble exists is unstable, system fluctuation of service etc.
Summary of the invention
The technical problem to be solved in the present invention is, provide a kind of nanometer foam oxygenation producer, the defect such as solve that the gas-liquid mixed that existing nano bubble manufacture method exists is inhomogeneous, liquid infiltration power is little, solubleness is little, dissolved oxygen content is few, surface tension is little, nano bubble exists unstable, system fluctuation of service.
The technical solution adopted for the present invention to solve the technical problems is: construct a kind of nanometer foam oxygenation producer, it is characterized in that, comprise jet flow negative pressure diffuser, oxygen producing machine, gas-liquid mixed tank, water pump, rotation aeration penetrate head and magnetizing tube;
The oxygen delivery port of this oxygen producing machine is communicated with the gas-liquid mixed chamber of this jet flow negative pressure diffuser, and the outlet of this jet flow negative pressure diffuser is communicated with this gas-liquid mixed tank;
The fluid inlet of this water pump and liquid outlet are communicated with this gas-liquid mixed tank respectively, form circulation loop;
This rotation aeration is penetrated head and is connected on described water pump and the tank connected pipeline of described gas-liquid mixed loop;
This Magnetizing pipe cover is contained on described water pump and the tank connected pipeline of described gas-liquid mixed;
Penetrate head and be positioned at described magnetizing tube rear end along rotating aeration described in pipeline liquid flow path direction;
Described magnetizing tube is gradient magnetizing tube, and the magnetic field intensity gradient grade crescendo of this gradient magnetizing tube arranges, hold the most by force in the magnetic field of this gradient magnetizing tube and described rotation aeration is penetrated adjacent;
Described gradient magnetizing tube comprises three sections, and magneticstrength is followed successively by 0.5 special Lars, 1 special Lars, 1.5 special Lars by crescendo direction.
In nanometer foam oxygenation producer of the present invention, the outlet bore of described jet flow negative pressure diffuser is 3 millimeters, and described rotation aeration splash head bore is 2 millimeters.
In nanometer foam oxygenation producer of the present invention, comprise the rising pipe being connected on described gas-liquid mixed tank and be arranged on the outlet valve on this rising pipe.
In nanometer foam oxygenation producer of the present invention, comprise circulation water intaking valve and recycle water valve, this recycles water valve and is arranged on the pipeline between described gas-liquid mixed tank and described pump intake, and this circulation water intaking valve is arranged on the inlet end of being also close to this gas-liquid mixed tank on the circulation line of described water pump and described gas-liquid mixed tank.
In nanometer foam oxygenation producer of the present invention, comprise under meter and pressure detector, this under meter is arranged on the circulation line of described water pump and described gas-liquid mixed tank, and this pressure detector is arranged on described gas-liquid mixed tank upside and is communicated with this gas-liquid mixed tank.
Implement nanometer foam oxygenation producer of the present invention, compared with the prior art, its beneficial effect is: by arrange be communicated with oxygen producing machine jet flow negative pressure diffuser, by arrange gradient magnetizing tube and rotate aeration penetrate head, jet flow negative pressure air inletting device makes gas-liquid mixed abundant, and ratio is stablized controlled; Gradient magnetic carries out magnetization to liquid-vapor mixture, and under the effect of gradient magnetic, water is subject to lorentz's force, the impacts such as polarized action, hydrogen bond distortion, magnetic torque reorientation, its activation energy changes, originally become the molecular grouping of association chain to fragment into the even single small molecules of less molecular grouping, there is great variety in the physical properties of water, its osmotic pressure strengthens thereupon, and solubleness increases, surface tension strengthens, and the content of dissolved oxygen also increases.The magnetization of gradient magnetic also can increase the meltage of paramagnetic oxygen in water simultaneously.Thereupon, gas-liquid mixture is together at a high speed by rotation aeration splash head, rotation aeration splash head is given with gas-liquid mixture with high pressure, the factor impacts such as the effect of being stressed and saturation pressure force, vacuum exposure, the air pocket gas being dissolved in the water is split into more small bubbles, and its volume is less, surface-area is larger, surface tension is larger, and reaches the nano bubble of 1~100nm through repeatedly circulating, can producing size.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of a kind of embodiment of nanometer foam oxygenation producer of the present invention.
Embodiment
Below in conjunction with drawings and Examples, the invention will be further described.
As shown in Figure 1, comprise that at nanometer foam oxygenation producer of the present invention jet flow negative pressure diffuser 1, oxygen producing machine 2, gas-liquid mixed tank 3, water pump 4, gradient magnetizing tube 5, rotation aeration penetrate 6.
The oxygen delivery port of oxygen producing machine 2 is communicated with the gas-liquid mixed chamber of jet flow negative pressure diffuser 1, and the outlet of jet flow negative pressure diffuser 1 is communicated with this gas-liquid mixed tank 3.In other embodiments, oxygen producing machine 2 can be designed to an entirety with jet flow negative pressure diffuser 1.
Wherein, jet flow negative pressure diffuser 1 is the existing apparatus with venturi tube structure.
The fluid inlet of water pump 4 and liquid outlet are communicated with gas-liquid mixed tank 3 respectively, form circulation loop.Gradient magnetizing tube 5 is sleeved on the pipeline that water pump 4 is connected with gas-liquid mixed tank 3, and rotation aeration is penetrated 6 and is connected on the pipeline loop that water pump 4 is connected with gas-liquid mixed tank 3.
In the present embodiment, rotation aeration is penetrated 6 and is arranged on the rear end of gradient magnetizing tube 5 along pipeline liquid flow path direction.In other embodiments, as required, rotation aeration is penetrated 6 rear ends that can be arranged on along pipeline liquid flow path direction gradient magnetizing tube 5, also can be arranged on other positions of pipeline.
Preferred as one, the outlet bore of jet flow negative pressure diffuser adopts 3 millimeters, and the bore of rotation aeration splash head 6 adopts 2 millimeters.In other embodiments, as required, the bore that the bore of the outlet bore of jet flow negative pressure diffuser and rotation aeration splash head 6 can adopt other to satisfy the demand.
In the present embodiment, the magnetic field intensity gradient grade of gradient magnetizing tube 5 arranges by crescendo, and the magnetic field of gradient magnetizing tube 5 hold the most by force and rotated aeration and penetrate 6 adjacent.In other embodiments, gradient magnetizing tube 5 can adopt the equicohesive magnetizing tube of magneticstrength to replace.
Preferred as one, the magneticstrength of gradient magnetizing tube 5 is divided three sections, and magneticstrength is followed successively by 0.5 special Lars, 1 special Lars, 1.5 special Lars by crescendo direction.In other embodiments, the magneticstrength of gradient magnetizing tube 5 can be selected the hop count of other magneticstrengties of satisfying the demand and magneticstrength.
In other embodiments, along pipeline liquid flow path direction, before gradient magnetizing tube 5 can be arranged on water pump 4, rotation aeration penetrate 6 also can be arranged on water pump 4 before.
For convenience of gas-liquid mixed tank 3, the water that is rich in nanometer foam complete preparation is discharged, arrange and be connected to the rising pipe on gas-liquid mixed tank 3 and be arranged on the outlet valve 9 on this rising pipe.In other embodiments, do not set out water pipe and outlet valve 9, adopt other modes (as the opening part from gas-liquid mixed tank 3 is extracted out) to take out, can realize the object of the invention yet.
For convenience of the control with the circulation line of gas-liquid mixed tank 3 to water pump 4, circulation water intaking valve 10 is set and recycles water valve 11, recycle water valve 11 and be arranged on the pipeline between gas-liquid mixed tank 3 and water pump 4 water-ins, circulation water intaking valve 10 is arranged on the inlet end of being also close to this gas-liquid mixed tank 3 on the circulation line of water pump 4 and gas-liquid mixed tank 3.In other embodiments, circulation water intaking valve 10 be not set and recycle water valve 11, not affecting the realization of the object of the invention.
For convenience of the monitoring of the internal pressure to circulation line flow and gas-liquid mixing tank 3, under meter 7 and pressure detector 8 are set, under meter 7 is arranged on the circulation line of water pump 4 and gas-liquid mixed tank 3 (the present embodiment is arranged on the pipeline of gas-liquid mixed tank 3 entrance ends), and this pressure detector 8 is arranged on gas-liquid mixed tank 3 upsides and is communicated with this gas-liquid mixed tank.In other embodiments, under meter 7 and pressure detector 8 are not set, do not affect the realization of the object of the invention.
While utilizing aforesaid device to manufacture nanometer foam, after oxygen producing machine creates oxygen, jet flow negative pressure diffuser high-speed water jets, sucks oxygen, squeezes into together in gas-liquid mixed tank.Abundant mixed liquid-vapor mixture is squeezed into gradient magnetizing tube via water pump, and gas-liquid mixture is together at a high speed by rotation aeration splash head, and so repeatedly circulation can produce size and reach the nano bubble of 1~100nm.
Claims (5)
1. a nanometer foam oxygenation producer, is characterized in that, comprise jet flow negative pressure diffuser, oxygen producing machine, gas-liquid mixed tank, water pump, rotation aeration penetrate head and magnetizing tube;
The oxygen delivery port of this oxygen producing machine is communicated with the gas-liquid mixed chamber of this jet flow negative pressure diffuser, and the outlet of this jet flow negative pressure diffuser is communicated with this gas-liquid mixed tank;
The fluid inlet of this water pump and liquid outlet are communicated with this gas-liquid mixed tank respectively, form circulation loop;
This rotation aeration is penetrated head and is connected on described water pump and the tank connected pipeline of described gas-liquid mixed loop;
This Magnetizing pipe cover is contained on described water pump and the tank connected pipeline of described gas-liquid mixed;
Penetrate head and be positioned at described magnetizing tube rear end along rotating aeration described in pipeline liquid flow path direction;
Described magnetizing tube is gradient magnetizing tube, and the magnetic field intensity gradient grade crescendo of this gradient magnetizing tube arranges, hold the most by force in the magnetic field of this gradient magnetizing tube and described rotation aeration is penetrated adjacent;
Described gradient magnetizing tube comprises three sections, and magneticstrength is followed successively by 0.5 special Lars, 1 special Lars, 1.5 special Lars by crescendo direction.
2. nanometer foam oxygenation producer as claimed in claim 1, is characterized in that, the outlet bore of described jet flow negative pressure diffuser is 3 millimeters, and described rotation aeration splash head bore is 2 millimeters.
3. nanometer foam oxygenation producer as claimed in claim 2, is characterized in that, comprises the rising pipe being connected on described gas-liquid mixed tank and is arranged on the outlet valve on this rising pipe.
4. nanometer foam oxygenation producer as claimed in claim 3, it is characterized in that, comprise circulation water intaking valve and recycle water valve, this recycles water valve and is arranged on the pipeline between described gas-liquid mixed tank and described pump intake, and this circulation water intaking valve is arranged on the inlet end of being also close to this gas-liquid mixed tank on the circulation line of described water pump and described gas-liquid mixed tank.
5. nanometer foam oxygenation producer as claimed in claim 4, it is characterized in that, comprise under meter and pressure detector, this under meter is arranged on the circulation line of described water pump and described gas-liquid mixed tank, and this pressure detector is arranged on described gas-liquid mixed tank upside and is communicated with this gas-liquid mixed tank.
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CN201210171689.5A CN102815799B (en) | 2012-05-30 | 2012-05-30 | Nanometer foam oxygen increase generator |
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CN201210171689.5A CN102815799B (en) | 2012-05-30 | 2012-05-30 | Nanometer foam oxygen increase generator |
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CN102815799B true CN102815799B (en) | 2014-05-21 |
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CN105540888A (en) * | 2016-02-16 | 2016-05-04 | 太仓百诺纳米科技有限公司 | Pure oxygen nanobuble device |
CN105600960A (en) * | 2016-03-13 | 2016-05-25 | 牛其永 | Aeration type oxygen-enriched bubbly water treatment machine |
CN109890492A (en) * | 2016-09-28 | 2019-06-14 | 夸图斯·保罗斯·博塔 | Nano-bubble generator and the method for generating nano bubble |
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CN106673145A (en) * | 2016-12-13 | 2017-05-17 | 浙江水马环保科技有限公司 | Gradient alternating water activator |
CN106975376A (en) * | 2017-05-03 | 2017-07-25 | 上海益顿机电设备有限公司 | A kind of microbubble Physical generators |
CN109502876B (en) * | 2019-01-02 | 2023-10-03 | 樊宝康 | Super-magnetized nano-gas water infusing device |
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CN201024112Y (en) * | 2006-09-28 | 2008-02-20 | 张文豪 | High gradient magnetic field fluid magnetizer |
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CN85205255U (en) * | 1985-11-29 | 1986-11-12 | 赵国显 | Fluidic device for magnetizing fluid |
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