CN114772703A - A oxidation reaction system for ecological management - Google Patents

Abstract

The invention discloses an oxidation reaction system for ecological management, which comprises: the mounting shell is provided with an internal accommodating space and an upper surface, a lower surface and side surfaces, and through holes communicated with the internal accommodating space are formed in the upper surface, the lower surface and the side surfaces of the mounting shell; an oxidation module disposed in the inner receiving space of the mounting case, the oxidation module for deconstructing water molecules to generate hydrogen, oxygen, and active oxygen; and the power supply is electrically connected with the oxidation module and used for supplying power to the oxidation module. The invention can improve the purification efficiency and the sewage purification area range.

Description

A oxidation reaction system for ecological management

Technical Field

The invention relates to the technical field of ecological management and river management, in particular to an oxidation reaction system for ecological management.

Background

With the increasing requirements of the country on environmental protection, various ecological treatment and river treatment technologies emerge endlessly, but are comprehensively divided into two major categories, namely a conventional treatment technology and an advanced oxidation treatment technology (AOP). Conventional treatment techniques include aeration, air flotation, coagulation, filtration, biochemistry, and the like, while advanced oxidation treatment techniques include electrochemistry, ultraviolet, ultrasound, microwave, and the like. The electrochemical treatment technology comprises electrocatalysis, electroflocculation, electro-Fenton, electro-flotation, plasma and the like. The adaptation objects and the application range of each technology are different.

Because the area generally needing to be treated is larger in the process of ecological treatment, and the equipment and the technology of the existing equipment have low working efficiency, the requirements of ecological treatment and river treatment in large areas cannot be met.

Disclosure of Invention

The invention provides an oxidation reaction system for ecological management, which can improve the efficiency and effect of the ecological management.

In order to solve the above technical problems, the present invention provides an oxidation reaction system for ecological remediation, comprising:

the mounting shell is provided with an internal accommodating space and an upper surface, a lower surface and side surfaces, and through holes communicated with the internal accommodating space are formed in the upper surface, the lower surface and the side surfaces of the mounting shell;

an oxidation module disposed in the inner receiving space of the installation case, the oxidation module for deconstructing water molecules to generate hydrogen, oxygen, and active oxygen;

and the power supply is electrically connected with the oxidation module and used for supplying power to the oxidation module.

Preferably, the oxidation module decomposes hydrogen generated by water molecules and is used for catalytically activating original indigenous microorganisms, zooplankton and algae in the sewage.

Preferably, in the above technical solution, the active oxygen generated by the oxidation module deconstructing water molecules is used for oxidation-reduction of organic pollutants and generating a photocatalyst substance with a carbon structure, and the photocatalyst substance is used for continuously acting on a water body in a chained manner.

As above-mentioned technical scheme's preferred, oxidation module includes anode plate body and cathode plate body, the quantity of anode plate body and cathode plate body is a plurality of, anode plate body with the cathode plate body is for crisscross and equidistant setting each other, anode plate body with power supply's positive pole electric connection, cathode plate body with power supply's negative pole electric connection.

Preferably, in the above technical solution, the anode plate and the cathode plate have a rectangular thin plate structure.

Preferably, the oxidation module further comprises a retainer, the retainer comprises an upper bracket and a lower bracket, the upper bracket is provided with a first bayonet, the lower bracket is provided with a second bayonet, the upper parts of the anode plate and the cathode plate are clamped in the first bayonet, the lower parts of the anode plate and the cathode plate are clamped in the second bayonet, the upper bracket and the lower bracket are connected through a fastening part, and the upper bracket and the lower bracket are made of non-conductor materials.

As the optimization of the technical scheme, the upper bracket and the lower bracket are made of marble materials.

Preferably, in the above technical solution, the anode plate body is a titanium alloy anode plate.

Preferably, the lower part of the anode plate body is of a net structure.

As an optimization of the above technical solution, the installation housing includes a square box body, the upper surface and the lower surface of the square box body are provided with first through holes, a triangular box body protruding from the side surface is provided on the side surface of the square box body, a flat surface is provided at the top of the triangular box body, a second through hole is provided on the side surface of the square box body, third through holes are provided on the surfaces of two sides of the triangular box body, and a fourth through hole is provided on the flat surface.

The invention provides an oxidation reaction system for ecological management, which comprises an installation shell, an oxidation module and a power supply, wherein the installation shell is provided with an internal accommodating space, the installation shell is also provided with an upper surface, a lower surface and a side surface, and through holes communicated with the internal accommodating space are formed in the upper surface, the lower surface and the side surface of the installation shell; the oxidation module is arranged in the inner accommodating space of the mounting shell and is used for deconstructing water molecules to generate hydrogen, oxygen and active oxygen; the power supply is electrically connected with the oxidation module and used for supplying power to the oxidation module, the oxidation module is used for deconstructing water molecules to generate hydrogen, oxygen and active oxygen when the water purifier works, the structure of the mounting shell can be well matched with a water molecule movement circulating system, the generated hydrogen, oxygen and active oxygen can be quickly circulated, the hydrogen, oxygen and active oxygen can be conveniently radiated towards all angles, and the efficiency and the area range of ecological management can be improved.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

FIG. 1 is a schematic view showing a structure of a housing installed in an oxidation reaction system for ecological remediation according to an embodiment of the present invention;

FIG. 2 is a schematic diagram showing the structure of an oxidation module in an oxidation reaction system for ecological remediation according to an embodiment of the present invention;

FIG. 3 is a schematic diagram showing the operation of an oxidation reaction system for ecological remediation according to an embodiment of the present invention;

in the figure: 10. installing a shell; 20. an oxidation module; 101. a square box body; 102. a triangular box body; 103. a flat surface; 104. a third through hole; 105. a second through hole; 106. a fourth via hole; 107. punching the middle of the tube; 108. an inner wall through hole; 109. a first through hole; 201. a holder; 202. a fastening member; 203. a lower bracket; 204. a compression nut; 205. a second bayonet; 206. a network structure; 207. an anode plate body; 208. a cathode plate body; 209. a first bending plate; 210. a first conductive support; 211. a first pipe body; 212. an upper bracket; 213. a second tube body; 214. a second conductive support; 215. a second bending plate; 216. a first bayonet.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 2, an embodiment of the present invention provides an oxidation reaction system for ecological remediation, including:

a mounting case 10, the mounting case 10 having an inner accommodating space, the mounting case 10 further having an upper surface, a lower surface and side surfaces, the upper surface, the lower surface and the side surfaces of the mounting case 10 being provided with through holes communicating with the inner accommodating space;

an oxidation module 20 disposed in the inner receiving space of the installation case 10, the oxidation module 20 for deconstructing water molecules to generate hydrogen, oxygen, and active oxygen;

and the power supply is electrically connected with the oxidation module 20 and used for supplying power to the oxidation module 20.

Referring to fig. 3, in a further embodiment of this embodiment, hydrogen generated by the deconstruction of water molecules by the oxidation module is used to catalytically activate indigenous microorganisms, zooplankton and algae in the wastewater.

The embodiment activates original indigenous microorganisms, zooplankton and algae in the sewage through hydrogen catalysis, and can improve the effects of ecological management and river management.

Referring to fig. 3, in a further implementation manner of the present embodiment, active oxygen generated by the oxidation module deconstructing water molecules is used to oxidize and reduce organic pollutants and generate a photocatalyst substance with carbon as a structure, and the photocatalyst substance is used to continuously chain-act on a water body.

In this embodiment, be used for with organic pollutant redox and generate the photocatalyst material who uses carbon as the structure through active oxygen, photocatalyst material is used for lasting chain action to the water, can promote ecological improvement, the effect of river course improvement.

In a further implementation manner of the present embodiment, the oxidation module 20 includes a plurality of anode plates 207 and cathode plates 208, the anode plates 207 and the cathode plates 208 are staggered and equally spaced, the anode plates 207 are electrically connected to an anode of the power supply, and the cathode plates 208 are electrically connected to a cathode of the power supply.

The oxidation module 20 in this embodiment includes an anode plate 207 and a cathode plate 208, and the plate structures can increase the contact area, and in addition, they are staggered and equally spaced, so that the operation is more stable and the purification efficiency is higher.

In addition, in the present embodiment, a potential is formed between every two adjacent anode plates 207 and cathode plates 208 for electrolyzing water molecules, which can greatly improve the efficiency and effect of water electrolysis.

In a further embodiment of the present embodiment, the anode plate body 207 and the cathode plate body 208 are rectangular thin plate structures.

In this embodiment, the anode plate 207 and the cathode plate 208 are rectangular thin plates, which not only reduces the weight of the overall structure, but also improves the oxidation effect.

In a further implementation manner of this embodiment, the oxidation module 20 further includes a holder 201, the holder 201 includes an upper holder 212 and a lower holder 203, the upper holder 212 is provided with a first bayonet 216, the lower holder 203 is provided with a second bayonet 205, the upper portions of the anode plate 207 and the cathode plate 208 are clamped in the first bayonet 216, the lower portions of the anode plate 207 and the cathode plate 208 are clamped in the second bayonet 205, the upper holder 212 and the lower holder 203 are connected by a fastening component 202, and the upper holder 212 and the lower holder 203 are made of a non-conductive material.

In this embodiment, the upper bracket 212 is provided with the first bayonet 216, and the lower bracket 203 is provided with the second bayonet 205, so that the upper portions of the anode plate 207 and the cathode plate 208 are clamped at the first bayonet 216, and the lower portions of the anode plate 207 and the cathode plate 208 are clamped at the second bayonet 205, so that the positions of the anode plate 207 and the cathode plate 208 can be well maintained, the stability of the overall structure is improved, in addition, the upper bracket is only required to be clamped at the first bayonet 216 and the second bayonet 205 during installation, and the installation can be more convenient.

Specifically, the fastening member 202 in this embodiment is a threaded column, the threaded column penetrates through the upper bracket 212 and the lower bracket 203, the upper end and the lower end of the threaded column are respectively provided with the compression nuts 204, and the compression nuts 204 are respectively compressed on the upper bracket 212 and the lower bracket 203, and the connection structure in this embodiment not only makes the oxidation module 20 simple in structure, but also has a stable structure.

In this embodiment, the upper portion of the anode plate 207 is provided with a first bending plate 209, the first bending plate 209 and the anode plate 207 are made of the same material and are integrally formed with the anode plate 207, the first bending plate 209 is connected with a first conductive support 210, the first bending plate 209 is a bending structure, which can facilitate the installation and connection of the first bending plate 209 and the first conductive support 210, in this embodiment, the upper portion of the cathode plate 208 is provided with a second bending plate 215, the second bending plate 215 and the cathode plate 208 are made of the same material and are integrally formed with the cathode plate 208, the second bending plate 215 is connected to the second conductive support 214, the second bending plate 215 is a bent structure, the second bending plate 215 and the second conductive bracket 214 can be conveniently installed and connected, and the first conductive bracket 210 and the second conductive bracket 214 in this embodiment are made of a conductive material, so as to conveniently supply power to all of the anode plate 207 and the cathode plate 208.

In addition, the first conductive bracket 210 in this embodiment is provided with a first tube 211, the first tube 211, and the second conductive bracket 214 is provided with a second tube 213.

In a further embodiment of this embodiment, the upper support 212 and the lower support 203 are made of marble.

Since the sewage is corrosive, the upper support 212 and the lower support 203 in this embodiment are made of marble, which not only can prevent corrosion, but also can save cost, and in addition, it can facilitate processing.

In a further implementation of this embodiment, the anode plate body 207 is a titanium alloy anode plate.

The anode plate 207 in this embodiment is a titanium alloy anode plate, which not only can improve the electrolysis effect, but also can prolong the service life.

In a further embodiment of the present embodiment, the lower portion of the anode plate 207 is a mesh structure 206.

The lower part of the anode plate 207 in this embodiment is in a mesh structure, which not only improves the contact with water molecules to improve the electrolysis efficiency, but also facilitates the circulation and circulation of water molecules.

In a further implementation manner of the present embodiment, the installation casing 10 includes a square box 101, the upper surface and the lower surface of the square box 101 are provided with first through holes 109, a triangular box 102 protruding from the side surface is provided on the side surface of the square box 101, the top of the triangular box 102 is provided with a flat surface 103, the side surface of the square box 101 is provided with a second through hole 105, the two side surfaces of the triangular box 102 are provided with third through holes 104, and the flat surface 103 is provided with a fourth through hole 106.

The triangular box 102 in this embodiment is an isosceles triangle, and the triangular box 102 is disposed in the middle of each side surface of the square box 101, and in addition, a middle through hole 107 not connected to the inner accommodating space is disposed in the middle of the top of the square box 101 in this embodiment, the middle through hole 107 is a polygonal hole, and an inner wall through hole 108 is disposed on the inner wall of the middle through hole 107.

The structure of installation casing 10 in this embodiment can combine with hydrologic cycle better, can be convenient for realize ecological improvement, river course improvement in the solid, can with ecological improvement, river course improvement spread to use installation casing 10 to center to 500 to 2500 between, improved the scope of ecological improvement, river course improvement greatly.

The middle through hole 107 in this embodiment is a polygonal hole and the inner wall of the middle through hole 107 is provided with the inner wall through hole 108, so that water circulation can be conveniently formed in the vertical direction during sewage circulation, and sewage purification can be conveniently formed in a three-dimensional manner.

First through-hole 109 in this embodiment is the circular port, second through-hole 105, third through-hole 104, fourth through-hole 106 and inner wall through-hole 108 are waist shape hole, and the size in waist shape hole is greater than the size of circular port, because the degree of depth of waters water in natural environment in this embodiment, consequently first through-hole 109 in this embodiment is the circular port, second through-hole 105, third through-hole 104, fourth through-hole 106 and inner wall through-hole 108 are waist shape hole, and the size in waist shape hole is greater than the size of circular port and can be convenient for to diffusion all around in the cyclic process, be convenient for more form the purification of water on the solid.

Particularly, the installation shell 10 in this embodiment can be more convenient for forming the diversion warehouse, can deconstruct water molecules more quickly, is more favorable to the continuous interaction of carbon points and oxidation modules, and is more favorable to the management and management of circulating water and bottom mud.

In addition, the power supply in this embodiment is a solar power supply.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An oxidation reaction system for ecological remediation, comprising:

the mounting shell is provided with an internal accommodating space and an upper surface, a lower surface and side surfaces, and through holes communicated with the internal accommodating space are formed in the upper surface, the lower surface and the side surfaces of the mounting shell;

an oxidation module disposed in the inner receiving space of the mounting case, the oxidation module for deconstructing water molecules to generate hydrogen, oxygen, and active oxygen;

and the power supply is electrically connected with the oxidation module and used for supplying power to the oxidation module.

2. The oxidation reaction system for ecological remediation of claim 1 wherein oxygen produced by deconstruction of water molecules by the oxidation module is used to catalytically activate indigenous microorganisms, zooplankton and algae in the wastewater.

3. The oxidation reaction system for ecological remediation of claim 1, wherein the active oxygen produced by the deconstruction of water molecules by the oxidation module is used for oxidation-reduction of organic pollutants and for generation of carbon-structured photocatalyst materials for continuous chain action on a body of water.

4. The oxidation reaction system for ecological management according to claim 1, wherein the oxidation module includes a plurality of anode plates and a plurality of cathode plates, the anode plates and the cathode plates are staggered and disposed at equal intervals, the anode plates are electrically connected to an anode of the power supply, and the cathode plates are electrically connected to a cathode of the power supply.

5. The oxidation reaction system for ecological remediation of claim 4, wherein the anode plate and the cathode plate are of rectangular sheet construction.

6. The oxidation reaction system for ecological management according to claim 4, wherein the oxidation module further comprises a holder, the holder comprises an upper bracket and a lower bracket, the upper bracket is provided with a first bayonet, the lower bracket is provided with a second bayonet, the upper portions of the anode plate and the cathode plate are clamped in the first bayonet, the lower portions of the anode plate and the cathode plate are clamped in the second bayonet, the upper bracket and the lower bracket are connected through a fastening component, and the upper bracket and the lower bracket are made of non-conductor materials.

7. The oxidation reaction system for ecological remediation of claim 6, wherein the upper and lower racks are of marble material.

8. The oxidation reaction system for ecological remediation of claim 4, wherein the anode plate body is a titanium alloy anode plate.

9. The oxidation reaction system for ecological remediation of claim 4, wherein the lower portion of the anode plate is in a mesh structure.

10. The oxidation reaction system for ecological remediation as claimed in any one of claims 1 to 9, wherein the mounting housing comprises a square box, the upper and lower surfaces of the square box are provided with first through holes, a triangular box protruding from the side surface is provided on the side surface of the square box, the top of the triangular box is provided with a flat surface, the side surface of the square box is provided with second through holes, the two side surfaces of the triangular box are provided with third through holes, and the flat surface is provided with fourth through holes.

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