CN211595115U - Iron-carbon nano electro-catalysis treatment equipment for blue-green algae, black and odorous water and industrial and agricultural sewage - Google Patents

Abstract

The utility model provides an iron carbon nanometer electro-catalysis treatment side equipment of blue alga, black and odorous water body and industrial and agricultural sewage, which relates to the field of sewage treatment. This iron carbon nanometer electro-catalysis treatment facility of blue alga, black smelly water and industrial and agricultural sewage, including workstation body, electro-catalysis electrolytic separation device, super oxygen device, the interior bottom fixedly connected with nanometer generator of workstation body, the inside of workstation body is provided with the little electrolytic bed of iron carbon, electro-catalysis electrolytic separation device is linked together through acid and alkaline water flow control valve with nanometer generator, super oxygen device is linked together through oxygen catalyst entry with nanometer generator, the left side wall fixedly connected with catalyst gas-liquid mixing pump of workstation body. Through reasonable structural design, the technology has the advantages of wide application range, good treatment effect, low cost, short treatment time, convenience in operation and maintenance and low energy consumption.

Description

Iron-carbon nano electro-catalysis treatment equipment for blue-green algae, black and odorous water and industrial and agricultural sewage

Technical Field

The utility model relates to a sewage treatment technical field specifically is the iron carbon nanometer electro-catalysis treatment equipment of blue alga, black and odorous water body and industrial and agricultural sewage.

Background

With the continuous development and progress of society, people do not worry about the problem of not being full and not warm before, but pay more attention to the health problem, pay more attention to the problem of water resources, and the current serious shortage of water resources seriously causes danger to people, so the treatment of sewage is an urgent problem at present.

At present, various treatment methods exist in the aspect of sewage treatment, but most of the treatment methods are too complicated and the treatment of sewage is too single, the complicated treatment process is very troublesome once the equipment has problems and the maintenance is very troublesome.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The not enough to prior art, the utility model provides an iron carbon nanometer electro-catalysis treatment facility of blue alga, black smelly water and industrial and agricultural sewage has solved present most sewage treatment methods and has all been too loaded down with trivial details and too single to the processing of sewage, loaded down with trivial details processing procedure, in case the equipment goes wrong the situation and leads to the very trouble problem of maintenance.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: blue alga, black smelly water and industrial and agricultural sewage's iron carbon nanometer electro-catalysis treatment equipment, including workstation body, electro-catalysis electrolysis separator, super oxygen device, the interior bottom fixedly connected with nanometer generator of workstation body, the inside of workstation body is provided with the little electrolytic bed of iron carbon, electro-catalysis electrolysis separator is linked together through acid and alkaline water flow control valve with nanometer generator, super oxygen device is linked together through oxygen catalyst entry with nanometer generator.

Preferably, the top of the electrocatalytic decomposition and separation device is fixedly connected with a T-shaped pipe, one end of the T-shaped pipe is fixedly connected with a sewage source water pump, the other end of the T-shaped pipe is fixedly connected with a sewage quantitative inlet, and one end, far away from the T-shaped pipe, of the sewage quantitative inlet extends to the inside of the workstation body and is communicated with the nano generator.

Preferably, the side wall of the workstation body is fixedly connected with a degradation catalytic liquid outlet close to the top, and the degradation catalytic port is positioned above the iron-carbon electrolytic bed.

Preferably, the left side wall of the workstation body is fixedly connected with a catalyst gas-liquid mixing pump, and one end of the catalyst gas-liquid mixing pump, which is far away from the workstation body, is communicated with the electro-catalytic electrolysis separation device.

Preferably, the inside of the superoxide device is in a superoxide state or a pure oxygen state.

(III) advantageous effects

The utility model provides an iron-carbon nano electro-catalysis treatment device for blue algae, black and odorous water and industrial and agricultural sewage. The method has the following beneficial effects:

1. the technology has the advantages of wide application range, good treatment effect, low cost, short treatment time, convenient operation and maintenance and low energy consumption, and can be widely applied to the remediation of black and odorous water bodies in riverways, the treatment of blue-green algae, the treatment of environmental purification, the treatment of industrial wastewater, factory and urban sewage, the pretreatment and the advanced treatment of agricultural water sources and drinking water sources.

2. The method is characterized in that a water body containing pesticide, heavy metal, phosphorus and nitrogen, sulfide and color bodies is subjected to a low-power-consumption degradation technology, a nano generator is arranged at the bottom of the water body, and oxygen-containing, pure oxygen or superoxide gas is injected according to the water body degradation requirement in a high-pressure mode, so that the hardening and passivation of iron and carbon are realized, and the degradation efficiency is accelerated.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Wherein, 1, a sewage source water pump is used; 2. an electrocatalytic separation device; 3. a sewage body quantitative inlet; 4. A catalyst gas-liquid mixing pump; 5. an acid-base water flow regulating valve; 6. a nano-generator; 7. an iron-carbon micro-electrolysis bed; 8. a superoxygenated device; 9. an oxygen catalyst inlet; 10. a degradation catalyst liquid outlet; 11. a workstation body; 12. t-shaped pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example (b):

as shown in figure 1, the embodiment of the utility model provides an iron carbon nanometer electro-catalysis treatment facility of blue alga, black smelly water and industrial and agricultural sewage, includingworkstation body 11, electro-catalysis separation device 2,super oxygen device 8,workstation body 11's interior bottom fixedly connected with nanometer generator 6,workstation body 11's inside is provided with ironcarbon micro-electrolysis bed 7, and electro-catalysis separation device 2 is linked together through acid and alkaline water flow control valve 5 with nanometer generator 6, andsuper oxygen device 8 is linked together through oxygen catalyst entry 9 with nanometer generator 6.

The top of the electro-catalyticelectrolysis separation device 2 is fixedly connected with a T-shaped pipe 12, one end of the T-shaped pipe 12 is fixedly connected with a sewage source water pump 1, the other end of the T-shaped pipe 12 is fixedly connected with a sewage quantitative inlet 3, and one end, far away from the T-shaped pipe 12, of the sewage quantitative inlet 3 extends to the inside of theworkstation body 11 and is communicated with the nano generator 6.

A degradation catalystliquid outlet 10 is fixedly connected to the side wall of theworkstation body 11 and close to the top, and thedegradation catalyst port 10 is positioned above the iron-carbon electrolysis bed 7.

The left side wall ofworkstation body 11 is fixedly connected with catalyst gas-liquid mixing pump 4, and the one end thatworkstation body 11 was kept away from to catalyst gas-liquid mixing pump 4 is linked together with electro-catalytic decomposition separator 2.

The inside of thesuper-oxygen device 8 is in a super-oxygen state or a pure oxygen state.

The working principle is as follows: introducing a part of raw water extracted by a sewage source water pump 1 to an electro-catalyticelectrolysis separation device 2, carrying out point-location catalytic reaction to form oxygen and hydrogen, forcibly pressing the formed oxygen and hydrogen and catalytic liquid to aworkstation body 11 through a catalyst gas-liquid mixing pump 4, carrying out reaction, controlling the amount of acid-base liquid subjected to electrolytic separation to enter a nano generator 6 according to the required amount, introducing another part of raw water extracted by the sewage source water pump 1 to quantitatively enter a molecular separation layer of an internal nano generator 6 of theworkstation body 11, carrying out gasification reaction on a nano core layer through an oxidant according to the required amount, carrying out water regulation pretreatment on acid-base liquid subjected to electrolytic separation to a water body to be treated, regulating the pH value of the treated water body, forming a nano molecular structure after the water body passes through an electrolytic catalyst, the oxidant and the pH value, then entering an iron-carbonmicro-electrolysis bed 7, and generating a 'primary cell' effect on filled micro-electrolysis filler, the reactor can form a nano electro-catalyst with super density and stable 1.2V potential difference combined with the super density and stable 1.2V potential difference, a nano oxidant is assisted with potential detection, variable potential is adopted for cooperative adjustment to ensure that the potential is constantly locked at the optimal potential required by iron-carbon, a water body to be treated is taken as an electrolyte carrier of the electrolytic catalyst, current and the shatter friction effect of the nano generator 6 are formed through discharge, the continuous potential capability and the potential intensity of the iron-carbon micro-electrolysis bed 7 are maintained, the required water body is subjected to electrolytic catalysis, gas-liquid oxidation, shatter friction effect reduction treatment of the iron-carbonmicro-electrolysis bed 7 and the nano generator 6, and the oxygen demand of the water body to be treated is injected through thesuper oxide device 8 according to the water body degradation demand when thewater body 11 reacts.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Blue alga, black smelly water and industry and agriculture sewage's iron carbon nanometer electro-catalysis treatment equipment, including workstation body (11), electro-catalysis electrolytic separation device (2), super oxygen device (8), its characterized in that: the interior bottom fixedly connected with nanometer generator (6) of workstation body (11), the inside of workstation body (11) is provided with indisputable carbon microelectrolysis bed (7), electro-catalysis separation device (2) are linked together through acid and alkaline water flow control valve (5) with nanometer generator (6), super oxygen device (8) are linked together through oxygen catalyst entry (9) with nanometer generator (6).

2. The iron-carbon nano electro-catalysis treatment equipment for blue algae, black and odorous water and industrial and agricultural sewage according to claim 1, which is characterized in that: the top of the electrocatalysis decomposition separation device (2) is fixedly connected with a T-shaped pipe (12), one end of the T-shaped pipe (12) is fixedly connected with a sewage source water pump (1), the other end of the T-shaped pipe (12) is fixedly connected with a sewage quantitative inlet (3), and one end, far away from the T-shaped pipe (12), of the sewage quantitative inlet (3) extends to the inside of the workstation body (11) and is communicated with the nano generator (6).

3. The iron-carbon nano electro-catalysis treatment equipment for blue algae, black and odorous water and industrial and agricultural sewage according to claim 1, which is characterized in that: the side wall of workstation body (11) just is close to top fixedly connected with and divides degradation catalysis liquid export (10), divide degradation catalysis liquid export (10) to be located the top that iron carbon is electrolysis bed (7).

4. The iron-carbon nano electro-catalysis treatment equipment for blue algae, black and odorous water and industrial and agricultural sewage according to claim 1, which is characterized in that: the left side wall of workstation body (11) fixedly connected with catalyst gas-liquid mixture pump (4), the one end that workstation body (11) was kept away from in catalyst gas-liquid mixture pump (4) is linked together with electro-catalytic decomposition separator (2).

5. The iron-carbon nano electro-catalysis treatment equipment for blue algae, black and odorous water and industrial and agricultural sewage according to claim 1, which is characterized in that: the inside of the super-oxygen device (8) is in a super-oxygen state or a pure oxygen state.

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