CN208182670U - A kind of electro-chemical water processing system - Google Patents

Abstract

The utility model relates to a kind of electro-chemical water processing systems, electro-chemical water processing system includes system ontology, system ontology includes main electrolytic cell and the first DC power supply for connecting with main electrolytic cell, system ontology further includes assisted electrolysis pond, the second DC power supply being connect with assisted electrolysis pond, water pump and the flusher being connect by water pipe with water pump, assisted electrolysis pond includes cathodic region A and anode region A, water pump is connect by water pipe with the cathodic region in assisted electrolysis pond, increase assisted electrolysis pond, pass through the reaction in assisted electrolysis pond, alkaline electrolyte is generated in the cathodic region in assisted electrolysis pond, during electrolyte is sprayed onto main electrolytic cell by flusher, the carbon dioxide content in main electrolytic cell can be increased, and it can play the role of adjusting acidity and alkalinity environment in main electrolytic cell, routinely work condition environment can be changed It is kind, to improve the water treatment efficiency of main electrolytic cell, while also saving electricity consumption.

Description

A kind of electro-chemical water processing system

Technical field

The utility model relates to chemical equipment technical fields, more particularly, to a kind of electro-chemical water processing system.

Background technique

In the prior art, scale removal electrolytic cell is usually to utilize principle of electrochemical reaction, makes calcium ions and magnesium ions in yin by electrolysis Fouling is formed on extremely, to achieve the purpose that softened water, by discovery, electrochemical water treating method is needed to water quality to be processed Keep a suitable work condition environment, the treatment effeciency that just electro-chemical water can in this way handled improves, and actual in use, Electrochemical water treating method lacks the adjusting to work condition environment, so that electrochemical process is influenced by work condition environment, to reduce The treatment effeciency of electro-chemical water processing, while a large amount of electricity consumption is also consumed, the engineering for significantly limiting electrochemical process answers With.

Utility model content

The technical problem to be solved by the utility model is to provide one kind can improve work condition environment, and improves processing effect The electro-chemical water processing system of rate.

The utility model is the technical scheme adopted is that a kind of electro-chemical water processing system, including system ontology, system sheet Body includes main electrolytic cell and the first DC power supply for connecting with main electrolytic cell, system ontology further include assisted electrolysis pond, with it is auxiliary The second DC power supply, water pump and the flusher being connect by water pipe with water pump for helping electrolytic cell to connect, assisted electrolysis Chi Bao Cathodic region A and anode region A is included, water pump is connect by water pipe with the cathodic region in assisted electrolysis pond.

The beneficial effects of the utility model are: increasing assisted electrolysis pond in electro-chemical water processing system, pass through auxiliary electricity The reaction of Xie Chi generates alkaline electrolyte in the cathodic region in assisted electrolysis pond, and electrolyte is sprayed onto main electrolysis by flusher During pond, the carbon dioxide content in main electrolytic cell can be increased, and can play and adjust pH value in main electrolytic cell The effect of environment can routinely improve work condition environment, so that the water treatment efficiency of main electrolytic cell is improved, while Save electricity consumption.

As preferential, assisted electrolysis pond is divided into cathodic region A and anode region A by diaphragm, is provided with yin in the A of cathodic region Pole A, anode region A are provided with anode A, and cathode A is connect with the cathode of the second DC power supply, and anode A and the second DC power supply are just Pole connects, and is provided with cathode B and anode B in main electrolytic cell, cathode B is connect with the cathode of the first DC power supply, anode B and first The anode connection of DC power supply, using the structure, the reaction of assisted electrolysis pond, the cathode A of cathodic region A generates hydroxide ion, yin Alkalinity is presented in the electrolyte of polar region A, and alkaline electrolyte is sprayed onto main electrolytic cell by water pump and flusher, alkaline electrolyte During sprinkling, a large amount of carbon dioxide can be absorbed, thus can supplement carbon dioxide content by electrolytic cell based on, adjust The pH value of main electrolytic cell；The anode A of anode region A generates hydrogen ion, and anolyte presentation is acid, and the hydroxyl in cathodic region Ion can enter anode region by diaphragm, improve the pH value of the anolyte in the A of anode region.

As preferential, system ontology further includes the main flow divider being connected to by A pipeline with main electrolytic cell and by B pipeline The cathodic region A of the adjustment flow divider being connected to main flow divider, assisted electrolysis pond is connected to by C pipeline with adjustment flow divider, is assisted The anode region A of electrolytic cell is connected to by D pipeline with adjustment flow divider, and the anode region A in assisted electrolysis pond is managed by overflow pipe and A Road connection, using the structure, always waterpipe enters water flow, enters main electrolysis by A pipeline by main flow divider a part Pond, a part is by B pipeline, then is divided into two by B pipeline and has respectively entered the cathodic region A and anode region A in assisted electrolysis pond, The water of A pipeline and B pipeline can be entered by the control of main flow divider according to pH value, adjustment flow divider control enters C and manages The water in road and D pipeline.

As acid preferential, that system ontology further includes and carrys out the carbon dioxide monitoring device of water pipe connection, connect with B pipeline Basicity monitoring device and controller, using the structure, the monitoring of carbon dioxide monitoring device carrys out the carbon dioxide of water in water pipe Content controls the water of A pipeline and B pipeline by monitoring obtained carbon dioxide content, makes the electrolysis in winner's electrolytic cell Liquid pH value improves, to improve water treatment efficiency；The pH value of water in B pipeline is monitored by pH value monitoring device to control Water in C pipeline and D pipeline processed, so that the pH value of electrolyte improves in assisted electrolysis pond.

As preferential, system ontology further includes controller, carbon dioxide monitoring device, pH value monitoring device, adjustment point Stream valve and main flow divider are connect with controller, using the structure, controller can by carbon dioxide monitoring device and The monitoring data of pH value monitoring device adjusts flow divider and main flow divider to control, and realizes automation control.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of electro-chemical water processing system of the utility model；

It is as shown in the figure: 1, main flow divider；2, flow divider is adjusted；3, assisted electrolysis pond；4, the second DC power supply；5, main electrolysis Pond；6, the first DC power supply；7, water pump；8, flusher；9, controller；10, carbon dioxide monitoring device；11, pH value is supervised Control device；12, anode A；13, diaphragm；14, cathode A；15, anode B；16, cathode B；17, carry out water pipe；18, outlet pipe；19, A is managed Road；20, B pipeline；21, C pipeline；22, D pipeline；23, cathodic region A；24, anode region A；25, overflow pipe.

Specific embodiment

Utility model is further described referring to the drawings and in conjunction with specific embodiment, to enable those skilled in the art Refer to the instruction text can be implemented accordingly, and scope of protection of the utility model is not limited to the specific embodiment.

The utility model relates to a kind of electro-chemical water processing system, including system ontology, system ontology includes main electrolytic cell 5 And the first DC power supply 6 connecting with main electrolytic cell 5, system ontology further include that assisted electrolysis pond 3 and assisted electrolysis pond 3 connect The second DC power supply 4, water pump 7 and the flusher 8 being connect by water pipe with water pump 7 connect, assisted electrolysis pond 3 include cathode Area 23A and anode region 24A, water pump 7 are connect by water pipe with the cathodic region A23 in assisted electrolysis pond 3.Pass through assisted electrolysis pond 3 Reaction, the cathodic region A23 in assisted electrolysis pond 3 generates a large amount of alkaline electrolyte, after being sprayed by flusher 8, Ke Yizeng Add the carbon dioxide content in main electrolytic cell 5, the electrolyte in assisted electrolysis pond 3, which enters in main electrolytic cell 5, can also adjust master Acidity and alkalinity environment in electrolytic cell 5, both sides comprehensive function improve the water treatment efficiency of main electrolytic cell 5, reduce power consumption.

Assisted electrolysis pond 3 is divided into cathodic region A23 and anode region A24 by diaphragm 13, is provided with yin in the A23 of cathodic region Pole A14, anode region A24 are provided with anode A 12, and cathode A14 is connect with the cathode of the second DC power supply 4, anode A 12 and second The anode of DC power supply 4 connects, and is provided with cathode B16 and anode B15, cathode B16 and the first DC power supply 6 in main electrolytic cell 5 Cathode connection, the positive of anode B15 and the first DC power supply 6 connect.When assisted electrolysis pond 3 is reacted, the electrolysis of anode A 12 is produced It is acid that anolyte is presented in raw hydrogen ion, and catholyte, which generates hydroxide ion, makes catholyte that alkalinity, cathode be presented The hydroxide ion in area 23 can be such that the acid of anode region A24 weakens by diaphragm 13 into anode region A24, and anode region A24 Hydrogen ion stopped and cathodic region A23 can not be had an impact by diaphragm 13.

System ontology further include the main flow divider 1 being connected to by A pipeline 19 with main electrolytic cell 5 and by B pipeline 20 with The cathodic region 23A of the adjustment flow divider 2 that main flow divider 1 is connected to, assisted electrolysis pond is connected to by C pipeline 21 with adjustment flow divider 2, The anode region A24 in assisted electrolysis pond is connected to by D pipeline 22 with adjustment flow divider 2, and the anode region A24 in assisted electrolysis pond is by overflowing Flow tube road 25 is connect with A pipeline 19.

The soda acid that system ontology further includes and carrys out the carbon dioxide monitoring device 10 of the connection of water pipe 18, connect with B pipeline 20 Spend monitoring device 11 and controller 9.

System ontology further includes controller 9, carbon dioxide monitoring device 10, pH value monitoring device 11, adjustment flow divider 2 And main flow divider 1 is connect with controller 9.

Claims (5)

1. a kind of electro-chemical water processing system, including system ontology, system ontology include main electrolytic cell (5) and with main electrolytic cell (5) the first DC power supply (6) connected, it is characterised in that: system ontology further includes assisted electrolysis pond (3) and assisted electrolysis pond (3) the second DC power supply (4), water pump (7) and the flusher (8) being connect by water pipe with water pump (7) connected, auxiliary electricity Xie Chi (3) includes cathodic region A (23) and anode region A (24), and water pump (7) passes through the cathodic region A of water pipe and assisted electrolysis pond (3) (23) it connects.

2. a kind of electro-chemical water processing system according to claim 1, it is characterised in that: assisted electrolysis pond (3) by every Film (13) is divided into cathodic region A (23) and anode region A (24), and cathode A (14), anode region A are provided in cathodic region A (23) (24) it is provided with anode A (12), cathode A (14) is connect with the cathode of the second DC power supply (4), anode A (12) and the second direct current The anode of power supply (4) connects, and cathode B (16) and anode B (15), cathode B (16) and the first direct current are provided in main electrolytic cell (5) The cathode of power supply (6) connects, and anode B (15) is connect with the anode of the first DC power supply (6).

3. according to claim 1 or a kind of electro-chemical water processing system as claimed in claim 2, it is characterised in that: system ontology Further include the main flow divider (1) being connected to by A pipeline (19) with the main electrolytic cell (5) and is divided by B pipeline (20) and master The adjustment flow divider (2) of valve (1) connection is flowed, the cathodic region A (23) of the assisted electrolysis pond (3) passes through C pipeline (21) and adjustment The anode region A (24) of flow divider (2) connection, assisted electrolysis pond is connected to by D pipeline (22) with adjustment flow divider (2), auxiliary electricity The anode region A (24) of Xie Chi is connect by overflow pipe (25) with A pipeline (19).

4. a kind of electro-chemical water processing system according to claim 3, it is characterised in that: system ontology further includes and water The carbon dioxide monitoring device (10) of pipe (18) connection, the pH value monitoring device (11) being connect with B pipeline (20) and control Device (9).

5. a kind of electro-chemical water processing system according to claim 4, it is characterised in that: system ontology further includes controller (9), carbon dioxide monitoring device (10), pH value monitoring device (11), adjustment flow divider (2) and main flow divider (1) with Controller (9) connection.