CN102815768A - Electrolytic method of self-cleaning stainless steel electrode and device thereof - Google Patents
Electrolytic method of self-cleaning stainless steel electrode and device thereof Download PDFInfo
- Publication number
- CN102815768A CN102815768A CN2012102299358A CN201210229935A CN102815768A CN 102815768 A CN102815768 A CN 102815768A CN 2012102299358 A CN2012102299358 A CN 2012102299358A CN 201210229935 A CN201210229935 A CN 201210229935A CN 102815768 A CN102815768 A CN 102815768A
- Authority
- CN
- China
- Prior art keywords
- electrode
- stainless steel
- electrolysis
- electrolytic
- steel electrode
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Classifications
-
- 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
- Y02W10/30—Wastewater or sewage treatment systems using renewable energies
- Y02W10/37—Wastewater or sewage treatment systems using renewable energies using solar energy
Abstract
The invention relates to an electrolytic method of a self-cleaning stainless steel electrode and a device thereof, and belongs to the technical field of electrochemistry. According to the invention, a periodic reverse electrolytic apparatus is adopted. The apparatus comprises an electrolytic tank, a periodic reverse controller and a DC power supply system. Positive and negative electrodes of the electrolytic tank are carbonaceous electrodes. The periodic reverse controller is used to realize the cycle operation of energization, deenergization, reverse energization and deenergization. The electrolytic method comprises the following steps of: 1) introducing a material into the electrolytic tank, wherein the conductivity for electrolyzing the material should be greater than 0.1 S/m; 2) adjusting the periodic reverse controller; and 3) energizing to carry out an electrode oxidation-reduction reaction. By the adoption of the method and the device, self-cleaning of the stainless steel electrode can be realized during the electrode oxidation-reduction process, concentration polarization is reduced, electrolytic efficiency is raised, and electrolytic energy consumption is reduced. In addition, the electrolytic method provided by the invention is easy for industrial implementation.
Description
Technical field
The present invention relates to a kind of electrochemical electrolysis technical field, specifically a kind of electrolysis process of automatically cleaning stainless steel electrode and device.
Technical background
The ultimate principle of electrochemical electrolysis water technology is the effect through extra electric field, in specific electrochemical reactor, through chemical reaction, electrochemical process or physical process, produces hydroxyl radical free radical (OH), ozone (O usually
3), hydrogen peroxide (H
2O
2), hypochlorite (ClO
-), chlorine (Cl
2) or strong oxidizer such as atomic oxygen, and then pollutants in waste water degraded, the electrochemical electrolysis technology is a kind of high-level oxidation technology.The electrochemical electrolysis treatment process obtains extensive studies and application as a kind of " environmental friendliness technology " in some bio-refractory Pollutant Treatment.As clean technology, the electrochemical electrolysis method has the handiness of height, both can use separately, can combine with other treatment processs again.
Electrochemical electrolysis is that oxidation-reduction reaction takes place on electrode surface, and the singularity of this reaction shows and has electrostatic double layer and surface field on the electrode surface.The main reaction process that takes place two types on the electrode, one type is the transmittance process that electric charge carries out through metal-solution interface, the transmission of this electronics realizes oxidation or reduction reaction.Because these reactions are arranged by Faraday's law (amount that promptly flows through caused chemical reaction by electric current is directly proportional with the electric weight that passes through), so be called faraday's process.Another kind of is at a given electrode-solution interface, will show such potential range, and charge transfer does not take place in this scope, yet the process as absorption and desorption possibly take place.The structure of electrode-solution interface can change by means of changing electromotive force or solution composition, and these processes are called non-faraday's process.Although electric charge when electromotive force, electrode area or solution composition change, still has extrinsic current to flow through not through the interface in these cases.When generating electrodes was reacted, two kinds of processes of faraday and non-faraday all existed.
The electrochemical electrolysis method is emerging in recent years a kind of sewage water treatment method, mainly is to utilize the anodizing reduction reaction that takes place on the anode and cathode, realizes handling the purpose of waste water.The bio-refractory organism has carried out big quantity research in people's Applied Electrochemistry method removal waste water.Anodic oxidation can be divided into two types of direct oxidation and indirect oxidations.In the direct oxidation process, organism at first is adsorbed onto electrode surface, makes organic pollutant and part inorganic pollutant be converted into innoxious substance through anodic oxidation reactions then; Indirect oxidation is to produce the material with strong oxidation or the reaction outside the anodic reaction takes place through anodic reaction, makes to be processed pollutant oxidation, finally is converted into harmless material.For the anode direct oxidation, cross like reactant concn and low can cause the electrochemical surface reaction limited by the mass transfer step; For indirect oxidation, then there is not this restriction.According to the difference of oxidized material degree of oxidation, direct oxidation method is divided into 2 types again: the one, and electrochemical conversion, promptly oxidized material generation partially oxidation.As far as organic pollutant, electrochemical conversion can change toxic substance into non-toxic substance, or is converted into the material that can carry out a biological disposal upon to the organism of difficult for biological degradation; The 2nd, electrochemical combustion, promptly oxidized material complete oxidation is an inorganics, like CO
2And H
2O.
Cathodic reduction is to utilize cathodic reduction reaction to make O
2Be reduced to H with oxidation activity
2O
2, the oxidation organic pollutant.Through the direct reductive action of negative electrode, water can generate ADSORPTION STATE Wasserstoffatoms and the halohydrocarbon molecule generation substitution reaction that is adsorbed on cathode surface in the cathode surface discharge, makes its dehalogenation etc.Cathodic reduction can be handled multiple pollutent, also is simultaneously a kind of method that reclaims valuable substance.
Directly, the indirect electrochemical electrolytic process is not absolute, in fact organism directly with often generation simultaneously of indirect electrolytic reaction.The strong oxidizing property radical that utilizes electrode surface to produce, that can not have selection carries out oxide treatment to organism; And can pass through the control of the electro catalytic activity of electrode, make organic matter degradation be oxidized to a certain specified phase, make electrochemical conversion be controlled at degraded fully or part degraded, be the most attractive and challenging application of electrochemical method.
Application number is that 200820157652.6 utility models relate to a kind of organic wastewater with difficult degradation thereby electrolytic oxidation apparatus; Constitute by catalytic and oxidative electrolysis technology device and power supply module; Include water inlet pipe, rising pipe, electrolyzer and electrode plate assembly in the catalytic and oxidative electrolysis technology device, positive plate is by the netted ternary electrode of Ti/RuO2+TiO2, and cathode-anode plate spacing 20cm is best; During work; Utilize indirect oxidation effect in anodic direct oxidation effect and the solution to the pollutant oxidation in the solution, if guarantee to have in the electrolyzer enough utmost point water than and current density, just can obtain than the stable treated effect.The anode that this utility model adopts costs an arm and a leg, and the industrializing implementation cost is high, and the coating inefficacy that is prone to come off, so industriallization is had any problem.
Application number is that 200910050788.6 invention relates to a kind of integrated electrolysis nitrogen and phosphorus removal wastewater treatment method, is implemented in nitrogen, phosphorus nutrition salt and the organic pollutant removed in the same electrolyzer in the waste water.Adopt graphite and iron plate as electrode,, alternately change electrolysis dephosphorization and electrolysis nitrogen process, thereby remove nitrogen, phosphorus nutrition salt and organic pollutant in the waste water through intermittently changing polarity of electrode.This invention is optimized integration according to the electrolysis time in electrolysis dephosphorization and the electrolysis nitrogen process, current density, pH value, the isoparametric variation characteristics of pollutants removal rate; Need not to add medicament in the process and can efficiently remove nitrogen, phosphorus nutrition salt and organism in the waste water at short notice, have the advantages that floor space is little, the treatment time is short, contaminant removal efficiency is high.It is characterized in that comprising following steps: 1) in electrolyzer, place 1-2 row electrode, total 4-20 counter electrode is right, and every counter electrode is made up of iron plate electrode and Graphite Electrodes; Waste water is introduced in the electrolyzer by water inlet pipe, opened the aerating apparatus of bottom of electrolytic tank; 2) at first, be anode with the Graphite Electrodes, the iron plate electrode is a negative electrode, waste water is carried out electrolysis nitrogen handle; The pH value of solution value is lower than at 5 o'clock, and the transposing sense of current makes that the iron plate electrode is an anode, and Graphite Electrodes is a negative electrode, waste water is carried out the electrolysis dephosphorization handle; The pH value of solution value is higher than at 8 o'clock, changes the sense of current once more; So treating processes 2-3 time of electrolysis nitrogen and electrolysis dephosphorization is carried out in circulation; The pH value maintains between 5~8 all the time in the treating processes; 3) processing finishes, and closes aerating apparatus, leaves standstill 10-20 minute; 4) open valve settled sludge is discharged by shore pipe, simultaneously through the water shoot draining.This invention has been adopted aeration at bottom of electrolytic tank, because bubble can increase the resistance of waste water, the electrolysis power consumption is increased, and its polar plate spacing is between 10~50mm simultaneously, and plate current density is at 5~150mA/cm
2, also will increase its current consumption.This invention discontinuous transposing polarity of electrode is transposing again after pH value of solution changes, and generally wants 20~120 minutes.
Application number is 200610040664.6 to disclose aniline in a kind of electrolytic process degrading waste water or/and the method for oil of mirbane, and the electrolyzer that its adopts a centre to have cationic exchange membrane to separate adds in the anolyte compartment and contains aniline or/and the waste water of oil of mirbane and salt; Add dilute NaOH solution in the cathode compartment, circulate with recycle pump respectively, anode material selects for use the titanium base to apply ruthenium or the titanium base applies plumbic oxide; Cathode material is stainless steel or graphite, logical direct current electrolysis, aniline or/and the oxidized degraded of oil of mirbane remove; Simultaneously, salt dissociative positively charged ion in the waste water passes cationic exchange membrane and gets into cathode compartment under the effect of DC electric field; Combine to generate oxyhydroxide with OH-; Can not only reclaim alkali lye, can also play the effect of desalination, help follow-up biochemical treatment unit raw wastewater.Anolyte compartment and cathode compartment feed liquid after certain hour circulation, sampling, or/and nitro phenenyl concentration when dropping to required value, feed liquid is emitted in shut-down operation when aniline in anolyte compartment's feed liquid.The barrier film locellus electrolyzer that has adopted chlorine industry to use in this invention; Electrolytic salt solution will pass through the working procedures processing in the chlorine industry; And impurity is very many in the waste water, like salt and organism etc., all is prone to make membrane plug; Ineffective, it is impossible that like chlorine industry is equally handled waste water.Therefore, this method industriallization realizes not too easily.
Application number is the electrolytic oxidation treatment process that 03151224.0 Chinese patent discloses a kind of wastewater containing phenol; The electrolytic oxidation treatment process of the no stirring of organic wastewater with difficult degradation thereby, internal recycle, two collaborative electrolytic oxidation treatment process, especially wastewater containing phenols in this invention genus environment electrochemistry.Adopt internal recycle plate and frame electrolyzer, with Ti base PbO
2Electrode is an anode, and stainless steel is a negative electrode, and the waste water that contains phenol is electrolytic solution, and through electrolysis, the strong oxide group hydroxyl radical free radical of discharge generation (OH), negative electrode obtain electronics and form H on anode
2O
2, negative and positive the two poles of the earth synergy realizes that the deep oxidation of Pyrogentisinic Acid's pollutent decomposes, and then reaches the purpose of handling wastewater containing phenol.Wherein anode and negative electrode are alternately arranged, and negative plate quantity is Duoed 1 than positive plate quantity, adjacent plate spacing 20mm, and electrolytic power supply adopts constant voltage dc source, and current density is 30mA/cm
2
Application number is that 02223848.4 Chinese patent discloses a kind of pulse cycle electrolytic gas floating waste disposal plant; It is to adopt deflector type electrolytic gas floating chamber; The electrode group of sectional multiple electrode structure is set in gas-floating chamber; Its electrode group is convex concave or the W shape structure that is uniformly distributed with, and negative electrode and electrode partition that the electrode group is made by low Stainless Steel Cloth anode of overpotential and graphite material are formed, and its electrode pad is apart from being 1.8mm~2.5mm.This utility model has simple in structure, takes up an area of to lack no movement parts.Microbubble density is big, and bubble diameter is little, and energy consumption is little, and processing efficiency is high.Export license is little, is difficult for passivation, and sludge treatment is convenient; Need not the concentration of dewatering, adopt the sectional multi-electrode recurrence interval cycle power mode of programmable logic controller, adopt leakage field protection powerstat; Electrical system is safe and reliable; Operation and control are simple, and it is a kind of novel electrolytic gas floating waste disposal plant, is used for Industrial Wastewater Treatment such as pharmacy, printing and dyeing, papermaking and chemical industry.
Application number is the electrochemical reactor that 200620032114.5 Chinese patent discloses a kind of operation of falling the utmost point; This reactor drum is made up of two palisade anode groups and two palisade cathode sets at least; One of them palisade anode groups and a palisade cathode sets plug together each other and are arranged in a plane or arc surface composition combined electrode group A; Another palisade anode groups also is arranged in corresponding plane with another palisade cathode sets or arc surface is formed combined electrode group B; Palisade anode groups in same combined electrode group and palisade cathode sets alternate energisation are not worked simultaneously; Two palisade anode groups also are alternately logical forward dc electricity in adjacent combined electrode group, do not work simultaneously; This device can reach the air supporting choosing and remove the hardness (Ca in water medium suspended substance, catalytic oxidation waste water COD, the softening water medium when leading to direct current
2+, Mg
2+), remove the effect that bacterium algae in the water medium is killed in most ion, electrolysis in the water.
Since the eighties; People have carried out extensive studies to electrochemical electrolysis technical finesse hardly degraded organic substance; Proved the most effectively means by experiment, wherein operational conditions such as electrode catalyst characteristic, electrode structure and electrochemical reactor structure are the important factors that influences electrochemical oxidation efficient.Directly electrooxidation adopts bigger current density usually, as greater than 100A/m
2, electrode should not adhere to pollutent.And electrooxidation reduction transforms when adopting lower current density usually, as less than 100A/m
2, polymkeric substance is often arranged attached to electrode surface, influence electrolytic efficiency.In addition, carry out along with electrolytic, near the material the electrolysis constantly consumes, and curtage will constantly rise, and produces the concentration polarization phenomenon and causes power consumption to increase.Often adopt forced turbulent in the industry or add strong mixing and eliminate, but also want consumes energy.How to eliminate electrode fouling, reduce concentration polarization, improve electrolytic efficiency, reducing electrolysis energy consumption, being easy to industrializing implementation is difficult point and the emphasis that the electrochemical electrolysis technology is applied to water treatment.
Must realize electrode self-cleaning from eliminating electrode fouling it is thus clear that want to improve the efficient of electrochemical electrolysis technology and cut down the consumption of energy, these are exactly the object of the invention.
Summary of the invention
The object of the present invention is to provide a kind of electrolysis process and device of automatically cleaning stainless steel electrode; This method can realize the automatically cleaning of stainless steel electrode in the electrolytic oxidation reduction process; Reduce concentration polarization, improve electrolytic efficiency, reduce electrolysis energy consumption, be easy to industrializing implementation.
The objective of the invention is to realize like this: a kind of electrolysis process of automatically cleaning stainless steel electrode; The cycle of having adopted turns to electrolyzer, and this device comprises: electrolyzer, cycle steering controller, DC power system, the positive and negative electrode of electrolyzer are stainless steel electrode; The cycle steering controller realizes switch on-break off-turning to the cyclical operation of energising-disconnection; Electrolysis process comprises the steps: 1) material is introduced electrolyzer, the specific conductivity of electrolysis material should be greater than 0.1S/m; Regulating the pH value is 6.0~12.5, and chloride ion content should be less than 0.5g/L; 2) regulating cycle steering controller, turning to the cycle is 30~600 seconds, be 1:1~15 with comparing conduction time turn-off time; 3) the electrolytic oxidation reduction reaction is carried out in energising, and current density should be greater than 5A/m
2
The battery lead plate spacing is 1~20mm in the electrolyzer.Electrode setting can be adopted single-stage or multipole setting.Polar plate spacing is provided with according to electrolysis material specific conductivity, and general specific conductivity is little, and polar plate spacing is little; Specific conductivity is big more; Polar plate spacing can suitably strengthen, and help saving electric energy like this, so polar plate spacing also can greater than 20mm; Just will be in electrolytic solution in the electrolysis consumed power, increase current consumption.The stainless steel electrode plate can be flat board, orifice plate or stretching reticular lamina.
DC power system be AC-DC direct supply, can carry out the galvanic photovoltaic panel of direct generation, store battery or the fuel cell of opto-electronic conversion.
Experiment shows, the cycle steering controller, and turning to the cycle is less than 30 seconds with greater than automatically cleaning effect decline in 600 o'clock, but produces effect, and be 1:1~15 with comparing conduction time turn-off time, and no longer the same automatically cleaning effect of this scope descends, but produces effect.Mainly be that electrolysis time is just short because the cycle is too short, be unfavorable for the automatically cleaning completion; Cycle is oversize, and electrolysis time is just long, and sediment yield is just big, and it is big that sticking power becomes, and the cleaning difficulty descends cleaning effect.
The electrolysis material can add the inorganic salt ionogen and regulate specific conductivity.The electrolysis material is trade effluent normally, and specific conductivity is more greatly to reduce resistance generally greater than 0.1S/m when regulating specific conductivity, saves electricity consumption.The inorganic salt ionogen is preferably sodium sulfate.Preferably adding ionogen generally speaking less increases electric conductivity, will increase cost because add ionogen, and the ionogen that secondly adds can increase environmental pressure as not removing behind the discharge of wastewater, and is bigger like the removal expense.
Regulate the pH value and should adopt mineral acid and mineral alkali.Mineral acid is preferably sulfuric acid, and mineral alkali is preferably sodium hydroxide.Certainly other mineral acids and mineral alkali also can use.The pH value of waste water is generally 0.5~12.5, when less than 6.0 the time also can, but when current density was big, battery lead plate was prone to the dissolving loss.When greater than 12.5 the time also can, but higher to the supplemental equipment requirement of electrolyzer, from guard electrode with to reduce the electrolyzer cost consideration the most favourable near neutrality, preferably be controlled at about 6~10.
Chloride ion content is few more, and counter electrode corrosion is more little, and when chloride ion content during less than 0.5g/L, export license is very little, and during with 0.5g/L, when current density was big, battery lead plate was prone to dissolve loss when big.
In technical background, all can use the present technique method in the process of applied electrolytic process and other electrolysis treatment waste water; What will change is all to change positive and negative electrode into stainless steel electrode, answer homogeneity, promptly can be used as anode and also can be used as negative electrode; With palmistry seemingly, also can be described as the chirality electrolysis.
DC power system adopts the direct supply of AC-DC usually, is the commercial goods.Because what the present invention adopted is direct current, in order to protect environment, can adopt solar energy, use opto-electronic conversion directly to produce galvanic photovoltaic panel and supply power to electrolysis, more help environmental protection.Owing to need not change and store, there is not the input of transmodulator and store battery, can significantly practice thrift investment, reduce the power consumption cost.Continuous Wastewater Treatment can adopt the photovoltaic panel power supply when sunlight is arranged if desired.Other times are used direct supply, also can use store battery or fuel cell.
The cycle steering controller is risen imperial development in science and technology ltd by Beijing Feng Yuan and is produced.Electrolyzer is the electrolyzer that electrolysis wastewater is used, and can be periodical operation, also can be operate continuously.The periodical operation electrolyzer preferably has material circulating system, or the pneumatic blending system, or the mechanical stirring system.The operate continuously electrolyzer should have material-transporting system, keeps the continuous flow of material, and each electrolysis cells also can be provided with material circulating system, or the pneumatic blending system, or the mechanical stirring system.
The intermittent type electric current steering control system that the present invention adopts, the cyclical operation through switch on-break off-turning to energising to break off makes each pole plate all constantly as negative electrode and anode; During as anode, pole plate is prone to passivation takes place, and the polymkeric substance that has electrolysis to produce adheres to; Simultaneously material is consumed, and passivation layer can rapidly disappear during as negative electrode, with since the polymkeric substance that liberation of hydrogen effect meeting is adhered to electrode surface remove; Get in the electrolytic solution, realize the self-cleaning function of electrode, when current density less than 5A/m
2The time, it is very faint to produce hydrogen, and the automatically cleaning effect is bad.When current density greater than 150A/m
2The time, electrolytic oxidation reaction is strong, is difficult for having polymkeric substance to adhere to.Even material stirs or flows badly in addition, near the material the electrode is because the utmost point, and near the material the electrode is alternately consumed, and eliminates because of stirring the bad concentration polarization that produces.In energising with turn to and adopt opening operation between energising, make the pole plate charged layer that certain buffering arranged, can weaken the capacity effect of electrostatic double layer, avoid charge neutralization and power consumption, improved the utilising efficiency of electric charge.
Electrolysis process of the present invention and device thereof through switch on-break off-turning to energising-disconnection cyclical operation, make electrode produce liberation of hydrogen, can eliminate the passivation of stainless steel electrode pole plate effectively, remove the polymkeric substance that stainless steel electrode adheres to; The Electrode Field direction is constantly changed, can promote and improve flowing of charged particle, improve the mass transfer in liquid phase process, reduce concentration polarization; Weaken the capacity effect of electrostatic double layer simultaneously.Finally realized making electrolysis procedure more convenient, be convenient to industrial application, also improved electrolytic efficiency, and then reduced electrolysis energy consumption with the automatically cleaning in the stainless steel electrode electrolytic process.
The object of the invention, technical scheme and effect will combine embodiment to be elaborated.
Description of drawings
Accompanying drawing is that apparatus of the present invention constitute synoptic diagram;
Among the figure: 1 AC-DC power supply, the photovoltaic panel that 2 photoelectricity transform, 3 cycle steering controllers, 4 electrolyzers.
Embodiment
Shown in accompanying drawing, the electrolysis of automatically cleaning stainless steel electrode, the cycle of employing turns to electrolyzer; Comprise: electrolyzer 4, cycle steering controller 3, DC power system 1, the positive and negative electrode of electrolyzer are stainless steel electrode, and the cycle steering controller realizes switch on-break off-turning to the cyclical operation of energising-disconnection; Electrode is that thickness is the steel plate of 1.5mm, and distance is 1mm, adopts the single-stage setting; Place three groups of pole plates, adopt andnon-continuous operation manner, bottom of electrolytic tank is equipped with bubbling device; The application of air bubbling stirs material, and DC power system is the direct supply of AC-DC, and the cycle steering controller is risen imperial development in science and technology ltd by Beijing Feng Yuan and produced.
Electrolysis process: 1) the material dying industrial wastewater is introduced electrolyzer 4, COD is 1.5g/L, and the specific conductivity of electrolysis material is 0.1S/m, and the pH value is 6.0, and chloride ion content is less than 0.5g/L; 2) regulating cycle steering controller, turning to the cycle is 30 seconds, be 1:1 with comparing conduction time turn-off time; 3) the electrolytic oxidation reduction reaction is carried out in energising, and current density is 5A/m
2
Electrolysis was taken out intermediate electrode plate after 2 hours, carried out simple cleaning, drying with deionized water, observed down at 5000 times with electron microscope, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.Should be every plate electrode plate and switch once at per 30 seconds positive and negative electrode, the electrode after the experiment has one side the same with new electrode, explains that the electrode surface after contaminated has been realized automatically cleaning.
Different with embodiment 1 is, stainless steel electrode distance is 5mm, and electrode is placed 5 groups of pole plates.
In the electrolysis process, the specific conductivity of electrolysis material is adjusted to 0.4S/m with sodium sulfate, and using the sodium hydroxide adjust pH is 7; The regulating cycle steering controller, turning to the cycle is 60 seconds, be 1:3 with comparing conduction time turn-off time; Electrolytic current density is 15A/m
2
Electrolysis was taken out intermediate electrode plate after 4 hours, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.
Different with embodiment 1 is, stainless steel orifice electrode distance is 10mm, and electrode is placed 10 groups of pole plates.
In the electrolysis process, the specific conductivity of electrolysis material is adjusted to 0.9S/m with sodium sulfate, and using the sodium hydroxide adjust pH is 7.5; The regulating cycle steering controller, turning to the cycle is 120 seconds, be 1:6 with comparing conduction time turn-off time; Electrolytic current density is 35A/m
2
Electrolysis was taken out intermediate electrode plate after 6 hours, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.
Different with embodiment 1 is, stainless steel orifice electrode distance is 20mm, and electrode is placed 10 groups of pole plates.
In the electrolysis process, the specific conductivity of electrolysis material is adjusted to 1.3S/m with sodium sulfate, and using the sodium hydroxide adjust pH is 8.5; The regulating cycle steering controller, turning to the cycle is 350 seconds, be 1:10 with comparing conduction time turn-off time; Electrolytic current density is 50A/m
2
Electrolysis was taken out intermediate electrode plate after 6 hours, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.
Embodiment 5
Different with embodiment 1 is, dying industrial wastewater COD is 15g/L, and the pH value is 12.5; The stainless steel electrode distance is 10mm, and electrode is placed 10 groups of pole plates.
In the electrolysis process, the regulating cycle steering controller, turning to the cycle is 500 seconds, be 1:13 with comparing conduction time turn-off time; Electrolytic current density is 90A/m
2
Embodiment 6
Different with embodiment 1 is, dying industrial wastewater COD is 15g/L, and the pH value is 12.5; The stainless steel electrode distance is 10mm, and electrode is placed 10 groups of pole plates.
In the electrolysis process, with 20% sulphur acid for adjusting pH value to 10, the regulating cycle steering controller, turning to the cycle is 600 seconds, be 1:15 with comparing conduction time turn-off time; Electrolytic current density is 120A/m
2
Embodiment 7.
Shown in accompanying drawing, the electrolysis of automatically cleaning stainless steel electrode, the cycle of employing turns to electrolyzer; Comprise: electrolyzer 4, cycle steering controller 3, DC power system 1, the positive and negative electrode of electrolyzer are stainless steel electrode, and the cycle steering controller realizes switch on-break off-turning to the cyclical operation of energising-disconnection; Thickness is 2.5mm, and distance is 3mm, adopts the multipole setting; Placing 10 pole plates is one group, adopts andnon-continuous operation manner, and material adopts pumping circulation in the electrolyzer; DC power system is the galvanic photovoltaic panel of direct generation that can carry out opto-electronic conversion, and the cycle steering controller is risen imperial development in science and technology ltd by Beijing Feng Yuan and produced.
Electrolysis process: 1) material DNT waste water is introduced electrolyzer 4, COD is 3.5g/L, and the specific conductivity of electrolysis material is 0.95S/m, and the pH value is 8.5, and chloride ion content is less than 0.1g/L; 2) regulating cycle steering controller, turning to the cycle is 200 seconds, be 1:5 with comparing conduction time turn-off time; 3) the electrolytic oxidation reduction reaction is carried out in energising, and current density is 50A/m
2
Electrolysis was taken out intermediate electrode plate after 5 hours, carried out simple cleaning, drying with deionized water, observed down at 5000 times with electron microscope, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.Should be every plate electrode plate and switch once at per 200 seconds positive and negative electrode, the electrode after the experiment has one side the same with new electrode, explains that the electrode surface after contaminated has been realized automatically cleaning.
Embodiment 8
Different with embodiment 7 is that the stainless steel electrode distance is 15mm.
In the electrolysis process, regulate pH value to 10 with 20% sodium hydroxide, the regulating cycle steering controller, turning to the cycle is 400 seconds, be 1:10 with comparing conduction time turn-off time; Electrolytic current density is 80A/m
2
Embodiment 9
Different with embodiment 7 is, stainless steel electrode is the netted plate electrode that stretches, and thickness is 1.2mm.
In the electrolysis process, with 20% sulphur acid for adjusting pH value to 7.0, the regulating cycle steering controller, turning to the cycle is 300 seconds, be 1:3 with comparing conduction time turn-off time; Electrolytic current density is 150A/m
2
Material 10 batches of electrolysis are again poured out in electrolysis after 2 hours, take out intermediate electrode plate, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.
Embodiment 10.
Shown in accompanying drawing, the electrolysis of automatically cleaning stainless steel electrode, the cycle of employing turns to electrolyzer; Comprise: electrolyzer 4, cycle steering controller 3, DC power system 1, the positive and negative electrode of electrolyzer are the stainless steel plate electrode, and the cycle steering controller realizes switch on-break off-turning to the cyclical operation of energising-disconnection; Stainless steel electrode, thickness are 1.5mm, and distance is 3mm; The employing multipole is provided with, and placing 5 pole plates is one group, adopts the operate continuously mode; Material adopts the pumping continuous feeding in the electrolyzer, and DC power system is a store battery, and the cycle steering controller is risen imperial development in science and technology ltd by Beijing Feng Yuan and produced.
Electrolysis process: 1) material DNT waste water is introduced electrolyzer 4, COD is 3950mg/L, and the specific conductivity of electrolysis material is 0.9S/m, and the pH value is 7.8, and chloride ion content is less than 0.005g/L; 2) regulating cycle steering controller, turning to the cycle is 150 seconds, be 1:8 with comparing conduction time turn-off time; 3) the electrolytic oxidation reduction reaction is carried out in energising, and current density is 40A/m
2
Continuous electrolysis took out intermediate electrode plate after 48 hours, carried out simple cleaning, drying with deionized water, observed down at 5000 times with electron microscope, can see that the electrode one side is the same with new electrode, and another side has polymkeric substance absorption.Should be every plate electrode plate and switch once at per 150 seconds positive and negative electrode, the electrode after the experiment has one side the same with new electrode, explains that the electrode surface after contaminated has been realized automatically cleaning.
Embodiment 11
Different with embodiment 10 is, stainless steel electrode is the orifice plate shape, and the hole is Ф 3mm.
In the electrolysis process, with 20% sulphur acid for adjusting pH value to 7.0, be 1:3 with comparing conduction time turn-off time; Electrolytic current density is 110A/m
2
Take out intermediate electrode plate, can see that the electrode one side is the same with new electrode, another side has polymkeric substance absorption.
Embodiment 12
Different with embodiment 10 is, stainless steel electrode is the orifice plate shape, and the hole is Ф 5mm.
In the electrolysis process, regulate pH value to 9 with 20% sodium hydroxide, be 1:4 with comparing conduction time turn-off time; Electrolytic current density is 70A/m
2
Take out intermediate electrode plate, can see that the electrode one side is the same with new electrode, another side has polymkeric substance absorption.
Claims (7)
1. the electrolysis process of an automatically cleaning stainless steel electrode; It is characterized in that having adopted the cycle to turn to electrolyzer, this device comprises: electrolyzer, cycle steering controller, DC power system, the positive and negative electrode of electrolyzer are stainless steel electrode; The cycle steering controller realizes switch on-break off-turning to the cyclical operation of energising-disconnection; Electrolysis process comprises the steps: 1) material is introduced electrolyzer, the specific conductivity of electrolysis material should be greater than 0.1S/m; Regulating the pH value is 6.0~12.5, and chloride ion content should be less than 0.5g/L; 2) regulating cycle steering controller, turning to the cycle is 30~600 seconds, be 1:1~15 with comparing conduction time turn-off time; 3) the electrolytic oxidation reduction reaction is carried out in energising, and current density should be greater than 5A/m
2
2. according to the electrolysis process of the described automatically cleaning stainless steel electrode of claim 1, it is characterized in that the battery lead plate spacing is 1~20mm in the electrolyzer.
3. according to the electrolysis process of the described automatically cleaning stainless steel electrode of claim 1, it is characterized in that DC power system be AC-DC direct supply, can carry out the galvanic photovoltaic panel of direct generation, store battery or the fuel cell of opto-electronic conversion.
4. according to the electrolysis process of the described automatically cleaning stainless steel electrode of claim 1, it is characterized in that the electrolysis material can add the inorganic salt ionogen and regulate specific conductivity.
5. according to the electrolysis process of the described automatically cleaning stainless steel electrode of claim 4, it is characterized in that ionogen is a sodium sulfate.
6. according to the electrolysis process of the described automatically cleaning stainless steel electrode of claim 1, it is characterized in that regulating the pH value and should adopt mineral acid and mineral alkali.
7. according to the electrolysis process of the described automatically cleaning stainless steel electrode of claim 6, it is characterized in that regulating pH value employing mineral acid is sulfuric acid, and mineral alkali is a sodium hydroxide.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012102299358A CN102815768A (en) | 2012-07-04 | 2012-07-04 | Electrolytic method of self-cleaning stainless steel electrode and device thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012102299358A CN102815768A (en) | 2012-07-04 | 2012-07-04 | Electrolytic method of self-cleaning stainless steel electrode and device thereof |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN102815768A true CN102815768A (en) | 2012-12-12 |
Family
ID=47300279
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012102299358A Pending CN102815768A (en) | 2012-07-04 | 2012-07-04 | Electrolytic method of self-cleaning stainless steel electrode and device thereof |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102815768A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108383213A (en) * | 2018-04-27 | 2018-08-10 | 大同新成新材料股份有限公司 | It is a kind of can the compound graphite electrode electrolysis oxidation-reduction device and method of automatically cleaning |
| CN110436580A (en) * | 2019-08-23 | 2019-11-12 | 中国恩菲工程技术有限公司 | Water process electrochemical treatments integrated apparatus |
| CN110487339A (en) * | 2018-05-15 | 2019-11-22 | 上海孚凌自动化控制系统有限公司 | Electrode of electromagnetic flowmeter cleaning method |
| CN112779089A (en) * | 2020-12-22 | 2021-05-11 | 华中科技大学 | System and method for in-situ removal of electrode coke in biomass pyrolysis oil electrolysis upgrading process |
-
2012
- 2012-07-04 CN CN2012102299358A patent/CN102815768A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108383213A (en) * | 2018-04-27 | 2018-08-10 | 大同新成新材料股份有限公司 | It is a kind of can the compound graphite electrode electrolysis oxidation-reduction device and method of automatically cleaning |
| CN110487339A (en) * | 2018-05-15 | 2019-11-22 | 上海孚凌自动化控制系统有限公司 | Electrode of electromagnetic flowmeter cleaning method |
| CN110436580A (en) * | 2019-08-23 | 2019-11-12 | 中国恩菲工程技术有限公司 | Water process electrochemical treatments integrated apparatus |
| CN112779089A (en) * | 2020-12-22 | 2021-05-11 | 华中科技大学 | System and method for in-situ removal of electrode coke in biomass pyrolysis oil electrolysis upgrading process |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN111196653B (en) | Electro-catalytic Fenton oxidation-electrochemical oxidation coupling process and device for efficient treatment of chemical wastewater | |
| Zhang et al. | A new type of continuous-flow heterogeneous electro-Fenton reactor for Tartrazine degradation | |
| CN102092820A (en) | Method and device for removing organic matters from water by using double-pool double-effect visible light in response to photo-electro-Fenton reaction | |
| Abdel-Aziz et al. | Removal of dyes from waste solutions by anodic oxidation on an array of horizontal graphite rods anodes | |
| CN102070230A (en) | Method for removing organic matters in water by utilizing three-dimensional electrode electro-fenton and device thereof | |
| CN110980895B (en) | Method and device for electro-adsorption and degradation removal of antibiotics from water | |
| CN102701337B (en) | Method and reactor for removing organic matters by enzyme electrode coupled electroflocculation | |
| CN101863548A (en) | Device and method for removing organics from water | |
| CN201567249U (en) | Ultrasonic electrochemical wastewater treatment device | |
| Nidheesh et al. | Emerging applications, reactor design and recent advances of electrocoagulation process | |
| CN101913693B (en) | Device and method for activating molecular oxygen by electrocatalysis to treat persistent organic wastewater | |
| CN104496008B (en) | The Apparatus and method for of a kind of electrochemistry-biological coupling process organic waste water | |
| CN108358363A (en) | A kind of deep treatment method of organic sewage with high salt | |
| CN102502946A (en) | Method for treating chemical wastewater by utilizing three-dimensional electrode-biological membrane process | |
| CN102815768A (en) | Electrolytic method of self-cleaning stainless steel electrode and device thereof | |
| CN107298490B (en) | Electrochemical reactor, method for removing chloride ions in wastewater through electric flocculation, precipitated product and application | |
| WO2013156003A1 (en) | New nano catalyst electrolysis device | |
| CN205892821U (en) | A electrochemical reaction pool for polar plate interval that sewage treatment is adjustable | |
| CN102701336A (en) | Power-saving method for electrolysis treatment of wastewater | |
| CN113929187A (en) | Anode electrochemical oxidation water treatment method with active chlorine and hydroxyl radical coupling | |
| CN102807268A (en) | Electrolysis method and device for self-cleaning carbon electrode | |
| Xiong et al. | Removal of formic acid from wastewater using three-phase three-dimensional electrode reactor | |
| CN102815767A (en) | Self-cleaning composite active carbon electrode electrolytic oxidation-reduction method and device thereof | |
| Uğurlu et al. | Experimental Investigation of Chemical Oxygen Demand, Lignin and Phenol Removal from Paper Mill Effluents Using Three-Phase Three-Dimensional Electrode Reactor. | |
| CN201317696Y (en) | Persistent organic waste water electrolytic oxidation device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20121212 |