CN201458880U - Multiple oxidation pretreatment system for organic electroplating waste water - Google Patents
Multiple oxidation pretreatment system for organic electroplating waste water Download PDFInfo
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- CN201458880U CN201458880U CN2009201245354U CN200920124535U CN201458880U CN 201458880 U CN201458880 U CN 201458880U CN 2009201245354 U CN2009201245354 U CN 2009201245354U CN 200920124535 U CN200920124535 U CN 200920124535U CN 201458880 U CN201458880 U CN 201458880U
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Abstract
The utility model relates to a multiple oxidation pretreatment method and device for organic electroplating waste water, belonging to the technical field of electroplating waste water treatment in environment engineering. The multi-element oxidization pretreatment device is characterized by comprising a pH adjusting tank, an iron carbon micro electrolysis tank and an Fenton oxidation tank, wherein an acid-base dosing device and a pH controller for interconnected control are matched and arranged above the pH adjusting tank; an iron carbon packing layer is laid at the middle lower part of the iron carbon micro electrolysis tank, and a micro electrolysis tank perforation water distributing pipe is arranged at the bottom of the iron carbon micro electrolysis tank; a hydrogen peroxide adding device is arranged at the upper part of the iron carbon micro electrolysis tank; a Fenton oxidation tank perforation water distributing pipe is matched and arranged at the bottom of the Fenton oxidation tank; and a granular activated carbon catalytic carrier layer is arranged at the middle lower part of the Fenton oxidation tank. The system enables the CODcr removing rate of the pretreated outlet water to reach 60%, enables the B/C ratio and the pH value of the waste water to be increased, can obviously improve the biochemical performance of the waste water, simultaneously removes most of organic pollutants by oxidation, and creates a good water inlet condition for the subsequent coagulating precipitation or air floatation and biochemical treatment.
Description
Technical field
The utility model belongs to environmental engineering electroplating waste water treatment technology field, is specifically related to a kind of organic electroplating waste water multicomponent oxide pretreatment system.
Background technology
Electroplating industry is used widely in the production of the industry such as electronics, light industry, machinery, household electrical appliance and the product for civilian use as the important basic industry of China.Along with the fast development of economic construction, the service range of electroplating industry is also in continuous expansion, and electroplating becomes the indispensable technology of multiple Industrial products.Yet the fast development of electroplating industry and the Pollution abatement of its hysteresis make the flourish industry of this script be subjected to very big challenge again.Electroplating industry is world-famous for high pollution, has become one of the world today's three big contaminated industries.
Organic class electroplating wastewater, also claim pre-treatment waste water, be included into the comprehensive wastewater category, therefore, efforts at environmental protection person and government administration section are relatively paid attention to the heavy metal ion in the electroplating wastewater, the processing of electroplating wastewater and monitoring also all a side in the removal of heavy metal ion, even the electroplating wastewater processing system that is moving at present is not also at the treatment process or the processing unit of its organic pollutant.But development along with electroplating technology, to constantly introduce new chemical agent in the production, heavy metal not only exists with the form of inorganic salt, and the various stablizers by adding, complexing agent etc., make metal ion in solution, show good water-solubility, dispersiveness, metal ion and organic solvent have formed stable metal complex, so water outlet had both shown metal ion and exceeds standard after the electroplating wastewater conventional processing, and the substrate concentration of organic contamination simultaneously also exceeds standard.Find by a large amount of investigations, during past electroplating wastewater discharging CODcr concentration much larger than 100mg/L, the enterprise of management regulation or electroplate the garden, more than the water outlet CODcr between 100-150mg/L.Organic pollutants problem in the electroplating wastewater is just to cause the attention of electroplating with environmental protection circle in recent years.Strict day by day in pollution exhaust criteria, particularly propose in total divisor requirement up to standard and the electroplating wastewater after the water reuse, electroplating wastewater organic contamination problem is mentioned important height, new " the plating pollutant emission standard " of country promulgation (GB21900-2008) and emission limit for this reason, ODcr reduces to 80mg/L by primary standard 100mg/L with the organic pollutant concentration C, so electroplating wastewater is carried, and marking upgrades has become the problem that electroplating enterprise and efforts at environmental protection person must solve.
At present existing organic class electroplating waste processing process mainly adopts coagulating sedimentation or air supporting pre-treatment and biochemical treatment, most water outlet CODcr exceed national standard, the main two aspect problems that exist: not enough to organic electroplating waste water understanding on the one hand, think that conventional pretreatment process-coagulating sedimentation or air supporting can solve the requirement of biochemical system influent quality, have ignored the water quality characteristic of organic electroplating waste water; Owing to contain a certain amount of oil in water emulsion in the organic electroplating waste water and be difficult to biodegradable macromolecule organic in a large number, comprise chemical, remove nonionic surface active agent, aniorfic surfactant and other auxiliary agents such as film, complexing agent, these macromolecule organics are water-soluble strong, very easily form stable complex compound; Conventional pretreatment process can only play neutralization, remove free metal ion and organic matters.On the other hand, the biodegradability of waste water is one of key character index of waste water, works as BOD
5The waste water of/CODcr (hereinafter to be referred as B/C)<0.3 belongs to waste water difficult for biological degradation, should not adopt biological treatment before carrying out effective pre-treatment, and the waste water of B/C>0.3 belongs to biodegradable waste water; This ratio is high more, and it is good more to show that waste water adopts aerobe to handle the effect that is reached; And the B/C of organic electroplating waste water ratio is generally below 0.2, belong to difficult biochemical class organic waste water, must carry out effective pre-treatment, improve the biodegradability of waste water such waste water, removed by biological method again, realized that really electroplating wastewater CODcr qualified discharge has become inexorable trend.
Present conventional preconditioning technique and biochemical treatment can't finally realize organic qualified discharge, the organism that exceeds standard will enter middle water treatment system, cause the obstruction of film system component, influence system's producing water ratio, reclamation rate on the one hand, the serious grey water system that will cause can't move; Can move on the other hand but influence work-ing life of film system, increase enterprise and change the film cost, also can't satisfy the requirement of environmental protection, reduce discharging, propose the mark upgrade job to industry energy conservation and cause enormous pressure reclamation rate.
The utility model content
The utility model aims to provide the technical scheme of the organic electroplating waste water multicomponent oxide pretreatment system that the little electrolysis of a kind of iron charcoal combines with the Fenton oxidation, solves problems such as poor, the biochemical bacterium of conventional coagulating sedimentation or air supporting pretreating effect can't be cultivated, water outlet CODcr severe overweight.
Described organic electroplating waste water multicomponent oxide pretreatment system; it is characterized in that comprising the pH regulator pond; iron charcoal micro cell; the Fenton oxidation pond; the water-in of iron charcoal micro cell; water outlet respectively with pH regulator pond water outlet; Fenton oxidation pond water-in pipeline connects; top, pH regulator pond is equipped with the soda acid chemicals dosing plant of interlocked control; the pH controller; the iron-carbon filling material layer is laid in iron charcoal micro cell middle and lower part; the bottom is equipped with the micro cell perforation water distributor that is connected with water-in; iron charcoal micro cell top is provided with the micro cell effluent weir; the micro cell effluent trough top that constitutes corresponding to the micro cell effluent weir is equipped with the hydrogen peroxide throwing device; Fenton oxidation pond bottom is equipped with the Fenton oxidation pond perforation water distributor that is connected with its water-in, and the middle and lower part of Fenton oxidation pond is equipped with granulated active carbon catalytic carrier layer.
Described organic electroplating waste water multicomponent oxide pretreatment system, it is characterized in that bottom, described pH regulator pond is equipped with pH regulator pond aeration tube, pH regulator pond aeration tube top and water-in, water outlet are corresponding to being set as pH regulator pond intake lattice, pH regulator pond water outlet lattice, soda acid chemicals dosing plant, pH controller correspondence respectively are arranged at water-in, water outlet top, the annular gas distribution structure of air inlet in the middle of described pH regulator pond aeration tube adopts.
Described organic electroplating waste water multicomponent oxide pretreatment system, it is characterized in that described iron-carbon filling material layer bottom is provided with the iron-carbon filling material filter plate of band filter cap, be equipped with iron-carbon filling material back flushing aeration tube in the iron-carbon filling material layer of iron-carbon filling material filter plate top, be equipped with the micro cell aeration tube between iron-carbon filling material filter plate and the micro cell perforation water distributor, the annular gas distribution structure of air inlet in the middle of described iron-carbon filling material back flushing aeration tube, micro cell aeration tube adopt respectively.
Described organic electroplating waste water multicomponent oxide pretreatment system; it is characterized in that described granulated active carbon catalytic carrier layer bottom is equipped with the catalytic carrier filter plate of band filter cap; be equipped with Fenton oxidation pond aeration tube between catalytic carrier filter plate and the Fenton oxidation pond perforation water distributor; the annular gas distribution structure of air inlet in the middle of Fenton oxidation pond aeration tube adopts, Fenton oxidation pond top is equipped with Fenton oxidation pond effluent weir.
Described organic electroplating waste water multicomponent oxide pretreatment system is characterized in that described micro cell perforation water distributor, Fenton oxidation pond perforation water distributor adopt multi-layer annular structure or rich font structure respectively.
Described organic electroplating waste water multicomponent oxide pretreatment unit, it is characterized in that pH regulator pond water outlet is provided with the high 300~500mm of iron charcoal micro cell water outlet than the back level, Fenton oxidation pond water outlet is provided with the low 200~300mm of iron charcoal micro cell water outlet than prime.
Above-mentioned organic electroplating waste water multicomponent oxide pretreatment system, adopt the little electrolysis of iron charcoal to combine organic electroplating waste water is carried out the multicomponent oxide pre-treatment with the Fenton oxidation, pre-treatment water outlet CODcr clearance reaches 60%, waste water B/C brings up to 0.55 than by 0.20, waste water ph rises to 3.0~5.5, can obviously improve the biodegradability energy of waste water, majority of organic pollutants is removed in simultaneous oxidation, more perfect than routine biochemistry pretreatment technology technology, for good water inlet condition has been created in follow-up coagulating sedimentation or air supporting and biochemical treatment, for electroplating wastewater organism qualified discharge provides strong assurance, and has the treatment of wastes with processes of wastes against one another, processing cost is low, energy consumption is low, adaptability is strong, stable, characteristics such as easy and simple to handle.
Description of drawings
Fig. 1 is the utility model structural representation.
Among the figure: the 1-pH equalizing tank; 2-iron charcoal micro cell; the 3-Fenton oxidation pond; 4-pH equalizing tank aeration tube; 5-soda acid chemicals dosing plant; the 6-pH controller; 7-micro cell perforation water distributor; 8-micro cell aeration tube; 9-iron-carbon filling material filter plate; 10-iron-carbon filling material back flushing aeration tube; 11-iron-carbon filling material layer; 12-micro cell effluent weir; 13-hydrogen peroxide throwing device; 14-Fenton oxidation pond perforation water distributor; 15-Fenton oxidation pond aeration tube; 16-catalytic carrier filter plate; 17-granulated active carbon catalytic carrier layer; 18-oxidation pond effluent weir; 19-micro cell effluent trough; 20-pH equalizing tank water inlet lattice; 21-pH equalizing tank water outlet lattice.
Embodiment
Below in conjunction with Figure of description the utility model is described further:
Figure 1 shows that organic electroplating waste water multicomponent oxide pretreatment system, comprise the pH regulator pond 1 that sets gradually, iron charcoal micro cell 2, Fenton oxidation pond 3, the water-in in pH regulator pond 1, water outlet is separately positioned on top, Fenton oxidation pond 3, the water-in of Fenton oxidation pond 3 is separately positioned on the bottom, Fenton oxidation pond 3, the water outlet of Fenton oxidation pond 3 is separately positioned on top, the water-in of iron charcoal micro cell 2, water outlet respectively with pH regulator pond 1 water outlet, Fenton oxidation pond 3 water-in pipelines connect, pH regulator pond 1 water outlet is provided with the high 300~500mm of iron charcoal micro cell 2 water outlets than the back level, low 1 bottom, the described pH regulator of 200~300mm. pond of iron charcoal micro cell 2 water outlets that Fenton oxidation pond 3 water outlets are provided with than prime is equipped with pH regulator pond aeration tube 4 with uniform aeration, the annular gas distribution structure of air inlet in the middle of pH regulator pond aeration tube 4 adopts; Aeration tube 4 tops, pH regulator pond and water-in, the water outlet correspondence is every being set as pH regulator pond water inlet lattice 20, pH regulator pond water outlet lattice 21, pH controller 6 is installed in pH regulator pond water outlet lattice 21 on-line monitoring pH values, soda acid chemicals dosing plant 5 adds acid or alkali in 1 water inlet, pH regulator pond, pH controller 6, soda acid chemicals dosing plant 5 interlocked control, can realize that acid or alkali add automatically, the pH value of waste water is controlled at 2.0~5.0, guarantee the required acidity condition of iron charcoal micro-electrolysis reaction, and the water inlet pH value of general organic electroplating waste water is between 2.0~5.0, need not to add in addition acid or alkali, the treatment of wastes with processes of wastes against one another can be saved a large amount of reagent costs. and iron charcoal micro cell 2 bottoms are equipped with the micro cell perforation water distributor 7 that is connected with water-in, and micro cell perforation water distributor 7 adopts multi-layer annular structure or rich font structure to realize water distribution uniformity; Iron-carbon filling material layer 11 is laid in iron charcoal micro cell 2 middle and lower parts, iron-carbon filling material layer 11 adopts non-blocking highly effective iron charcoal and dispensing formula filling-material structure, the iron charcoal organically combines, proportioning is even after the granulation, be vesicular structure, can make iron-carbon filling material layer 11 keep good hydraulics, remaining char after the iron consumption also can be made carrier and use, finally flow out with waste water, and the regular filler that directly adds supplement consumed, need not to shut down and change, solved the iron charcoal because of stop up with harden can not large-scale application a difficult problem, it highly generally is not less than 1m, is installed on the iron-carbon filling material filter plate 9 of band filter cap, iron-carbon filling material filter plate 9 adopts corrosion resistant materials such as anticorrosion steel concrete or PVC to make moulding, and filtering cap accordingly is that water treatment plant radially is provided with on iron-carbon filling material filter plate 9; Be equipped with micro cell aeration tube 8 between iron-carbon filling material filter plate 9 and the micro cell perforation water distributor 7, carry out the oxygen supply aeration by micro cell aeration tube 8, make iron-carbon filling material layer 11 be in the fine motion state, for little electrolysis provides reaction required oxygen, make iron-carbon filling material layer 11 keep good permeability on the other hand on the one hand; Be equipped with iron-carbon filling material back flushing aeration tube 10 in the iron-carbon filling material layer 11 of iron-carbon filling material filter plate 9 tops, can regularly carry out the aeration back flushing, in time remove remaining carbon granule, prevent that filler from hardening; The annular gas distribution structure of air inlet was to realize satisfying even gas distribution, back flushing in the middle of micro cell aeration tube 8, iron-carbon filling material back flushing aeration tube 10 adopted; Iron charcoal micro cell 2 tops are provided with micro cell effluent weir 12, micro cell effluent trough 19 tops that constitute corresponding to micro cell effluent weir 12 are equipped with hydrogen peroxide throwing device 13, be equipped with the Fenton oxidation pond perforation water distributor 14 that is connected with its water-in to add hydrogen peroxide .Fenton oxidation pond 3 bottoms at Fenton oxidation pond 3 front ends, Fenton oxidation pond perforation water distributor 14 adopts multi-layer annular structure or rich font structure to realize water distribution uniformity respectively; The middle and lower part of Fenton oxidation pond 3 is equipped with granulated active carbon catalytic carrier layer 17 to improve pollutent and oxygenant touch opportunity, strengthen oxidation effectiveness, the height of granulated active carbon catalytic carrier layer 17 generally is not less than 1m, adopting particle diameter is the indefinite form granulated active carbon of 3~5mm, catalytic carrier filter plate 16 by band filter cap installs and fixes, catalytic carrier filter plate 16 adopts corrosion resistant materials such as anticorrosion steel concrete or PVC to make moulding, and filtering cap accordingly is that water treatment plant radially is provided with on catalytic carrier filter plate 16; Be equipped with Fenton oxidation pond aeration tube 15 between catalytic carrier filter plate 16 and the Fenton oxidation pond perforation water distributor 14; make granulated active carbon catalytic carrier layer 17 be in the fine motion state by Fenton oxidation pond aeration tube 15 aerations; improve the Fenton reaction effect; the annular gas distribution structure of air inlet satisfied even gas distribution, back flushing to reach in the middle of Fenton oxidation pond aeration tube 15 adopted, and Fenton oxidation pond 3 tops are equipped with Fenton oxidation pond effluent weir 18 and are beneficial to even water outlet.
Use above-mentioned organic electroplating waste water multicomponent oxide pretreatment system and carry out pre-treatment, organic electroplating waste water passes through water outlet after acidity adjustment, iron charcoal micro-electrolysis reaction, the Fenton oxidizing reaction successively, is that good water inlet condition is created in follow-up coagulating sedimentation or air supporting and biochemical treatment.The pH value of described acidity adjustment control organic electroplating waste water is 2.0~5.0, guarantee the required acidity condition of iron charcoal micro-electrolysis reaction, the water inlet pH value of general organic electroplating waste water need not to add in addition acid or alkali between 2.0~5.0, the treatment of wastes with processes of wastes against one another can be saved a large amount of reagent costs.Described iron charcoal micro-electrolysis reaction is that organic electroplating waste water carries out micro-electrolysis reaction at the iron-carbon filling material layer, the pH value is controlled at 2.0~5.0 organic electroplating waste water and carries out micro-electrolysis reaction at the iron-carbon filling material layer, described iron charcoal micro-electrolysis reaction is that organic electroplating waste water carries out micro-electrolysis reaction at the iron-carbon filling material layer, the potential difference of utilizing iron and charcoal to exist, corrosion forms numerous small galvanic cell in acid waste water, by electrochemical redox, the electrochemistry electricity is to the electric attached collection and the katalysis to reacting of flco, and the cohesion of electrochemical reaction product, the combined effect of effects such as the absorption of newborn flco and the filtration of bed produces the nascent state Fe with greater activity
2+[H] with many component generation redox reactions in the organic electroplating waste water, makes in the waste water macromolecule organic change into low molecule or easy biochemical degradation material, constantly produces the Fe of nascent state
2+[H] makes organic pollutant or complex compound scission of link in the waste water generate low molecule intermediate product, and the part mineralising becomes carbonic acid gas and water simultaneously, for subsequent disposal is had laid a good foundation; Organic electroplating waste water is 45~90min in the residence time of iron-carbon filling material layer, specifically regulates according to the CODcr value of organic electroplating waste water, and the residence time is 35~50min when CODcr≤500mg/L, and preferred value is 45min; CODcr residence time when 500~1000mg/L is 50~80min, and preferred value is 60min; The residence time is 80~120min during CODcr 〉=1000mg/L, and preferred value is 90min; The pH value of water outlet is generally 3.0~5.5 behind the iron charcoal micro-electrolysis reaction.The nascent state Fe that described Fenton oxidizing reaction utilizes iron charcoal micro-electrolysis reaction to produce
2+, by adding hydrogen peroxide the Fenton oxidizing reaction takes place, the Fe that nascent state produces
2+With the H that adds
2O
2The common Fenton reagent that forms, make the intensity of redox reaction reach maximization within a short period of time, by high-intensity catalytic oxidation, organism is further by rapidly in the water, the organic molecule that is degraded to low molecular compound fully or easily degrades, generate the organism in the extremely strong hydroxyl radical free radical removal organic electroplating waste water of oxidisability, the hydrogen peroxide that adds and the volume percent of organic electroplating waste water are 0.2%~0.3%, the hydrogen peroxide effective concentration that is added is about 27.5%, adopt gac as catalytic carrier in the Fenton oxidizing reaction, the hydraulic detention time of waste water in the activated carbon catalysis carrier is 30~60min.The Fenton oxidizing reaction is 3.0~5.5 to the requirement of water inlet pH value, and the general direct energy of iron charcoal micro-electrolysis reaction water outlet satisfies.
Implement aeration in described acidity adjustment, iron charcoal micro-electrolysis reaction, the Fenton oxidizing reaction respectively and handle, to strengthen the treatment effect of each process, it is 1.0~3: 1 that acidity adjustment adopts the gas-water ratio of pneumatic blending, preferred 2: 1; Gas-water ratio is 0.8~2: 1 in the iron charcoal micro-electrolysis reaction, preferred 1: 1, by iron carbon aerated reaction, consume a large amount of hydrogen ions, and the pH value of waste water is raise, for subsequent disposal has been created condition; Gas-water ratio is 0.4~1: 1 in the Fenton oxidizing reaction, preferred 0.5: 1.
Detection water quality when table 1 carries out pre-treatment for adopting described organic electroplating waste water multicomponent oxide pretreatment system to certain organic electroplating waste water.
In this experimental pretreatment: pH regulator pond 1 water inlet pH2.9 need not to regulate; Iron-carbon filling material layer 11 height 1.2m, hydraulic detention time 45min; Granulated active carbon catalytic carrier layer 17 height 1m, hydraulic detention time 30min; The volume percent of hydrogen peroxide dosage and waste water is 0.25%.
Data every group of data except that pH are 5 sample means on the same day in the following table 1.
Table 1: organic electroplating waste water multicomponent oxide preprocessed data table look-up
The utility model is compared with traditional organic electroplating waste water preprocess method has following advantage:
1, propose to adopt first the little electrolysis of iron charcoal and the multicomponent oxide preliminary treatment organic electroplating waste water that Fenton (Fenton) oxidation combines, have the treatment of wastes with processes of wastes against one another, processing cost is low, energy consumption is low, strong adaptability, the characteristics such as stable, easy and simple to handle.
2, system's effluent quality than traditional treatment method can be improved significantly: pH value 2.0~5.0 brings up to 3.0~5.5 by intaking, and has saved a large amount of alkali; To Organic Pollutants in Wastewater, the CODcr clearance reaches 60%; B/C significantly improves the biodegradability of waste water than rising to 0.55 by original about 0.20, finally makes waste water reach requirement nontoxic, harmless, easily biological-degradable, realize qualified discharge, and treatment effect is stable.
3, economy is strong: construction investment and operating cost are relatively low,<600 yuan of its ton water investments, and the direct processing cost of ton water<3.0 yuan is mainly hydrogen peroxide and adds cost.
Claims (6)
1. organic electroplating waste water multicomponent oxide pretreatment system; it is characterized in that comprising pH regulator pond (1); iron charcoal micro cell (2); Fenton oxidation pond (3); the water-in of iron charcoal micro cell (2); water outlet respectively with pH regulator pond (1) water outlet; Fenton oxidation pond (3) water-in pipeline connects; top, pH regulator pond (1) is equipped with the soda acid chemicals dosing plant (5) of interlocked control; pH controller (6); iron-carbon filling material layer (11) is laid in iron charcoal micro cell (2) middle and lower part; the bottom is equipped with the micro cell perforation water distributor (7) that is connected with water-in; iron charcoal micro cell (2) top is provided with micro cell effluent weir (12); micro cell effluent trough (19) top that constitutes corresponding to micro cell effluent weir (12) is equipped with hydrogen peroxide throwing device (13); Fenton oxidation pond (3) bottom is equipped with the Fenton oxidation pond perforation water distributor (14) that is connected with its water-in, and the middle and lower part of Fenton oxidation pond (3) is equipped with granulated active carbon catalytic carrier layer (17).
2. organic electroplating waste water multicomponent oxide pretreatment system as claimed in claim 1, it is characterized in that bottom, described pH regulator pond (1) is equipped with pH regulator pond aeration tube (4), pH regulator pond aeration tube (4) top and water-in, water outlet are corresponding to being set as pH regulator pond intake lattice (20), pH regulator pond water outlet lattice (21), soda acid chemicals dosing plant (5), pH controller (6) correspondence respectively are arranged at water-in, water outlet top, the annular gas distribution structure of air inlet in the middle of described pH regulator pond aeration tube (4) adopts.
3. organic electroplating waste water multicomponent oxide pretreatment system as claimed in claim 1, it is characterized in that described iron-carbon filling material layer (11) bottom is provided with the iron-carbon filling material filter plate (9) of band filter cap, be equipped with iron-carbon filling material back flushing aeration tube (10) in iron-carbon filling material filter plate (9) the top iron-carbon filling material layer (11), be equipped with micro cell aeration tube (8) between iron-carbon filling material filter plate (9) and the micro cell perforation water distributor (7), the annular gas distribution structure of air inlet in the middle of described iron-carbon filling material back flushing aeration tube (10), micro cell aeration tube (8) adopt respectively.
4. organic electroplating waste water multicomponent oxide pretreatment system as claimed in claim 1; it is characterized in that described granulated active carbon catalytic carrier layer (17) bottom is equipped with the catalytic carrier filter plate (16) of band filter cap; be equipped with Fenton oxidation pond aeration tube (15) between catalytic carrier filter plate (16) and the Fenton oxidation pond perforation water distributor (14); the annular gas distribution structure of air inlet in the middle of Fenton oxidation pond aeration tube (15) adopts, Fenton oxidation pond (3) top is equipped with Fenton oxidation pond effluent weir (18).
5. organic electroplating waste water multicomponent oxide pretreatment system as claimed in claim 1 is characterized in that described micro cell perforation water distributor (7), Fenton oxidation pond perforation water distributor (14) adopt multi-layer annular structure or rich font structure respectively.
6. organic electroplating waste water multicomponent oxide pretreatment system as claimed in claim 1, it is characterized in that pH regulator pond (1) water outlet is provided with the high 300~500mm of iron charcoal micro cell (2) water outlet than the back level, Fenton oxidation pond (3) water outlet is provided with the low 200~300mm of iron charcoal micro cell (2) water outlet than prime.
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103630663A (en) * | 2013-12-19 | 2014-03-12 | 重庆市渝西水务有限公司 | Method for improving detection accuracy of effluent index of contact tank |
| CN103708657A (en) * | 2013-08-07 | 2014-04-09 | 煤科集团杭州环保研究院有限公司 | Deep oxidation treatment method and apparatus for difficultly-degraded organic chemical industry wastewater |
| CN104496086A (en) * | 2014-10-28 | 2015-04-08 | 威士邦(厦门)环境科技有限公司 | Electrolytic coupling-type Fenton water treatment device |
-
2009
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103708657A (en) * | 2013-08-07 | 2014-04-09 | 煤科集团杭州环保研究院有限公司 | Deep oxidation treatment method and apparatus for difficultly-degraded organic chemical industry wastewater |
| CN103708657B (en) * | 2013-08-07 | 2015-06-03 | 煤科集团杭州环保研究院有限公司 | Deep oxidation treatment method and apparatus for difficultly-degraded organic chemical industry wastewater |
| CN103630663A (en) * | 2013-12-19 | 2014-03-12 | 重庆市渝西水务有限公司 | Method for improving detection accuracy of effluent index of contact tank |
| CN103630663B (en) * | 2013-12-19 | 2015-04-01 | 重庆市渝西水务有限公司 | Method for improving detection accuracy of effluent index of contact tank |
| CN104496086A (en) * | 2014-10-28 | 2015-04-08 | 威士邦(厦门)环境科技有限公司 | Electrolytic coupling-type Fenton water treatment device |
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