CN105948409A - Novel method for treating industrial wastewater through combined processes - Google Patents
Novel method for treating industrial wastewater through combined processes Download PDFInfo
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- CN105948409A CN105948409A CN201610485531.3A CN201610485531A CN105948409A CN 105948409 A CN105948409 A CN 105948409A CN 201610485531 A CN201610485531 A CN 201610485531A CN 105948409 A CN105948409 A CN 105948409A
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F9/00—Multistage treatment of water, waste water or sewage
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/20—Treatment of water, waste water, or sewage by degassing, i.e. liberation of dissolved gases
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/46—Treatment of water, waste water, or sewage by electrochemical methods
- C02F1/461—Treatment of water, waste water, or sewage by electrochemical methods by electrolysis
- C02F1/46104—Devices therefor; Their operating or servicing
- C02F1/46176—Galvanic cells
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- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/52—Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/66—Treatment of water, waste water, or sewage by neutralisation; pH adjustment
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/72—Treatment of water, waste water, or sewage by oxidation
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- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/72—Treatment of water, waste water, or sewage by oxidation
- C02F1/722—Oxidation by peroxides
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/72—Treatment of water, waste water, or sewage by oxidation
- C02F1/725—Treatment of water, waste water, or sewage by oxidation by catalytic oxidation
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2305/00—Use of specific compounds during water treatment
- C02F2305/02—Specific form of oxidant
- C02F2305/026—Fenton's reagent
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- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/02—Aerobic processes
- C02F3/12—Activated sludge processes
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/28—Anaerobic digestion processes
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- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E50/00—Technologies for the production of fuel of non-fossil origin
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Abstract
The invention provides a novel method for treating industrial wastewater through combined processes. The method involves an adjusting pond, an improved Fenton fluidized bed, a degasing neutralizing pond, an anaerobic expended granular bed and an ICEAS reactor which are sequentially connected through water pipes to treat industrial wastewater. The novel method is optimal in process, and clear and simple in route; the overall COD removal rate is not less than 95%; the removal rate of characteristic organic pollutants is not less than 95%; the novel method is convenient to run and manage, stable in process, and low in investment and operation costs.
Description
Technical field
The present invention relates to a kind of method of wastewater treatment, be specifically related to the process of Industrial Wastewater Treatment, belong at waste water
Reason technical field.
Background technology
Industrial wastewater, has that water quantity and quality changes greatly, biodegradability is poor, be difficult to the feature degraded and pollutant complexity is many
The features such as sample, the water quality being typically based on actual waste water takes suitable preprocess method, such as flocculation, light electrolysis, absorption, photocatalysis
Etc. technique, destroy hardly degraded organic substance in waste water, improve the biodegradability of waste water, then be combined biological method, such as ABR, SBR, A/O
Technique etc., process industrial wastewater.Also tend at present both at home and abroad to use multiple to the research processing industrial wastewater technique
The group technology of method.
From the point of view of existing Patent data, Chinese patent " process for treating waste water by aerobic-anaerobic microbic repeated coupling
(CN200310121766.7) " although effect is fine, but the cost of device can be improved to a certain extent, and Aerobic-anaerobic is anti-
Complex coupling is unfavorable for the absolute anaerobic environment of microorganism, and biological treatment efficiency is the highest.Patent " a kind of baffled reactor and place thereof
The method (CN200610012070) of reason sewage " and patent " Integrative processing plant for high concentration organic wasted water
(CN200310100513.1) " relate to many secondary coupling of anaerobic processes and aerobic process, add complexity and the fortune of equipment
The difficulty of line pipe reason, and there is no advanced oxidation processes.
At present, it is high to there is processing cost in the process technique of existing industrial wastewater, persistent organic pollutants removal efficiency
The highest, process operation is unstable, and treatment effect is undesirable, it is impossible to meet the problems such as environmental requirement.
Summary of the invention
Goal of the invention: the invention aims to solve the deficiencies in the prior art, it is provided that a kind of process optimization closes
Reason, persistent organic pollutants treatment effeciency are high, treatment effect is stable and the process of the Industrial Wastewater Treatment of economical rationality.
Technical scheme: in order to realize the purpose of the present invention, the technical solution used in the present invention is: a kind of a new combined process
Process industrial wastewater method, be used in combination modified model Fenton fluid bed (IFBR), anaerobic expanded granular bed (EGSB) and
Industrial wastewater is processed by ICEAS reactor;Group technology include regulating reservoir, modified model Fenton fluid bed, degassing neutralization pond,
Coagulative precipitation tank, anaerobic expanded granular bed and ICEAS reactor, be sequentially connected with through water pipe.
This group technology processes the method for industrial wastewater and includes following operating procedure:
(1) industrial wastewater is after pretreatment, enters regulating reservoir;
(2) it is adjusted rear waste water and is conveyed into modified model Fenton fluid bed by intake pump, by medicine system to modified model Fenton stream
Change in bed and be separately added into H2SO4Solution, FeSO4Solution and H2O2Solution, enters modified model by reflux pump fragrant by part effluent recycling
Pause in fluid bed, in making Fenton fluid bed, present fluidisation state;
The reaction tower of modified model Fenton fluid bed is cylindrical shape, three pieces of sieve plates oxidizing tower is divided into from bottom to top into water water distribution area,
Fenton oxidation district, ferrum carbon reaction zone and exhalant region;Fenton oxidation district is added with filler A, and ferrum carbon reaction zone is added with filler B;Circulation dress
Put and be connected to water inlet at the two of exhalant region and oxidizing tower;By Fenton's reaction and micro-electricity of ferrum carbon reaction zone in Fenton oxidation district
Solve reaction, remove part COD and most persistent organic pollutants in waste water;
(3) water outlet of modified model Fenton fluid bed enters degassing neutralization pond, sloughs a small amount of gas by stirring, adds NaOH solution,
The pH value of regulation waste water;
(4) degassing neutralization pond water outlet enters coagulative precipitation tank, adds coagulant by coagulant medicine system, and controls stirring speed
Degree forms big flco;Entering back into sediment fraction, the big flco of formation realizes precipitate and separate, precipitating sludge warp in settling zone
Sludge treating system processes;
(5) coagulative precipitation tank water outlet enters anaerobic expanded granular bed through infusion, and anaerobic expanded granular bed reactor (EGSB) main body is
Oxidizing tower, is divided into into water water distribution system, reaction zone (anaerobic granular sludge bed layer), three-phase separation area, outlet system, return-flow system
With mud district;EGSB relies primarily on granule sludge to process waste water, and waste water is entered reactor by the water-locator of bottom, by rich in
The mud district of anaerobe, under the effect of anaerobe, COD and persistent organic pollutants are removed in a large number, produce big simultaneously
Amount biogas, the effect by three phase separator at the top of reactor, gas and water outlet discharge respectively, and mud then settles back mud
District;Sludge Bed district granule sludge is tamed by anaerobic sludge;
(6) water outlet of anaerobic expanded granular bed enters ICEAS reactor, and reactor is designed as two parts along pond length direction, and front portion is
Biological selecting area is also referred to as pre-reaction zone, and rear portion is main reaction region;The aeration of main reaction region, precipitation, draining, the Period Process such as idle
Circular flow;Pre-reaction zone arranges micro-aerator, and the water decanter of liftable draining is installed at rear portion, main reaction region;The company of realization simultaneously
Continuous water inlet, is interrupted draining;
(7) discharged wastewater met the national standard after ICEAS reactor for treatment.
Further, the bottom of regulating reservoir is provided with microporous aeration device, the water quality and quantity of regulation waste water;Work after being adjusted
Industry waste water quality index: COD be 5000 ~ 6000 mg/L, SS be 150 ~ 300mg/L, chlorobenzene class is 60 ~ 80 mg/L.
Further, the filler A of modified model Fenton fluid bed uses quartz sand, the particle diameter of quartz sand at 0.5 ~ 1.5 mm,
The filler B that ferrum carbon reaction zone is arranged, uses active carbon fiber felt;Liquid phase reduction is first used to load zero on active carbon fiber felt
Valency Nanoscale Iron, refills and inserts ferrum carbon reaction zone;Active carbon fiber felt, be placed in netted intersection upper strata sieve plate and middle sieve plate it
Between.
Further, the exhalant region of modified model Fenton fluid bed connects circulating device, and point two water inlet pipes are respectively fed to sweet smell
Water inlet at the two of zoneofoxidation bottom and bottom, ferrum carbon reaction zone, the backflow water yield is respectively Q1And Q2, Q1With Q2Ratio with m3/d
Meter ratio is 8:1-10:1.
Further, during modified model Fenton fluidized bed processing, H2O2It is 2 ~ 4:1, H with COD ratio in terms of mg/L2O2
With Fe2+Mol ratio be 3 ~ 5:1, the waste water mean residence time in Fenton oxidation district controlled at 0.5 ~ 1.5 hour, and waste water exists
The mean residence time of ferrum carbon reaction zone controls at 15 ~ 45 minutes, regulates Fenton fluid bed by medicine system and online pH meter
The pH value of middle waste water so that it is maintain between 3.0 ~ 4.0.
Further, the oxidizing tower ratio of height to diameter of anaerobic expanded granular bed is 3 ~ 5, and be in operation maintenance upflow velocity 6 ~ 12
M/h makes granule sludge be in suspended state;Design volumetric loading is 8 ~ 15 kgCOD/(m3D).
Further, ICEAS reactor, the aeration of its main reaction region, precipitation, draining, the process cycle period such as idle are 4
Hour, aeration, precipitation, draining, the distribution of idle time are respectively 120 minutes, 60 minutes, 40 minutes, 20 minutes;Reactor is transported
Row sludge loading is 0.15 ~ 0.35 kgCOD/(kgMLSS d).
Ultimate principle is summarized as follows.
1, modified model Fenton fluid bed (IFBR) operation principle
(1) waste water enters the Fenton oxidation district of modified model Fenton fluid bed, is divided in Fenton fluid bed by medicine system simultaneously
Do not add H2SO4Solution, FeSO4Solution and H2O2Solution, is flowed back into water part in Fenton fluid bed by reflux pump, makes
Present fluidisation state in Fenton fluid bed, removed part COD and organic dirt of most difficult degradation of waste water by Fenton's reaction
Dye thing (being i.e. difficult to biodegradable organic pollution, also known as characteristic contamination or characteristic organic pollutants);Regulation return flow,
Control the height of filler expansion less than middle sieve plate.
The principle of Fenton fluidized bed process: utilizing carrier is by sweet smell as crystallization nuclear species, pending waste water and interpolation medicament
The fluidized-bed bottom that pauses enters into and up flowing.It is circumscribed with effluent recycling pipeline, in order to adjust influent stream water degree of supersaturation and to reach to carry
On body, Flow Velocity makes carrier surface form stable state crystalline solid, after crystal particle diameter reaches 2.5 mm ~ 3 mm, reclaims outside drain tank
Recycling.Fenton fluidized bed process utilizes the pattern of fluid bed to make ferric iron major part produced by Fenton method be crystallized or heavy
Form sediment, be coated on the carrier surface of liquid bed, be one and combine homophase chemical oxidation (Fenton method), out-phase chemical oxidation
(H2O2/ FeOOH), the new technique of the function such as fluid bed crystallization.Traditional Fenton oxidation method has been made significantly by this technology
Improvement, so can reduce employing traditional F enton method and produce substantial amounts of chemical sludge, the ferrum oxygen simultaneously formed at carrier surface
Compound has the effect of heterocatalysis, and the pattern of fluid bed also promotes chemical oxidation reaction and mass-transfer efficiency, makes COD remove
Rate promotes.Its reacted go out flowing water through pH value adjust after can produce iron containing sludge.Iron containing sludge reduces than traditional Fenton oxidation
70%, also reduce H2O2The waste of medication, may utilize hydrogen peroxide chemical feeding quantity simultaneously and adjusts, adjust COD removal amount, it is achieved effectively control
The reduction of the COD of waste water, is the guarantee of waste water process qualified discharge.Fenton process is as the one of advanced oxidation, the present invention simultaneously
Mainly utilize Fenton process to be difficult to biodegradable organic pollution except the most of waste water, make difficult degradation organic efficiently
Pollutant chain rupture, open loop, resolve into small organic molecule, improve the biodegradability of waste water, it is easy at follow-up biological treatment list
Unit is further processed.
(2) waste water enters the ferrum carbon reaction zone of modified model Fenton fluid bed through middle sieve plate, in iron-carbon micro-electrolysis condition
Under, persistent organic pollutants in catalysis oxidized waste water.Micro electrolysis tech is a kind of reason processing high concentrated organic wastewater at present
Think technique.It is in the case of cold, utilizes the potential difference that the micro-electrolysis material self being filled in waste water produces to useless
Water carries out electrolysis process, to reach the purpose of degradable organic pollutant.Middle sieve plate play support ferrum carbon reaction zone filler and
The effect of rectification.Modified model Fenton fluid bed, mainly by the zeroth order Nanoscale Iron of activated carbon fiber Yu load, forms light electrolysis
Ferrum carbon battery.The potential difference utilizing the micro-electrolysis material self being filled in waste water to produce carries out electrolysis process to waste water, urges
Change the organic substance in degrading waste water.Active carbon fiber felt, after the zeroth order Nanoscale Iron of load consumes, takes fiber felt
Go out, regenerate with liquid phase reduction, recycled.
2, anaerobic expanded granular bed reactor (EGSB) operation principle
Anaerobic expanded granular bed reactor (EGSB) anaerobic reaction process is as other Anaerobic treatment techniques, including water
Solve, acidifying, produce acetic acid and methane phase etc..Majority of organic pollutants in sewage is degraded to methane through anaerobic fermentation here
And carbon dioxide.These anaerobic processes are proper absolute anaerobic processes, and biological agent process does not has oxygen to participate in, training
The anaerobe supported is preponderated.Anaerobe forms granule sludge and the organic pollution of COD in waste water and difficult degradation rises main removal
Effect, and removal efficiency is high.Anaerobic expanded granular bed reactor (EGSB) main body is reaction tower, can be divided into into water cloth water system
System, reaction zone (anaerobic granular sludge bed layer), three-phase separation area, outlet system and return-flow system.It is dirty that EGSB relies primarily on granule
Mud processes waste water, currently belongs to more advanced anaerobic process.Waste water is entered reactor by the water-locator of bottom, by rich in anaerobism
The mud district of bacterium, under the effect of anaerobe, COD and persistent organic pollutants are removed in a large number, produce a large amount of natural pond simultaneously
Gas, the effect by three phase separator at the top of reactor, gas and water outlet discharge respectively, and mud then settles go back to mud district.
It is by the upflow velocity (6 ~ 12 m/ h) remaining higher that is in operation, and makes granule sludge be in suspended state, also may be used simultaneously
To use higher reactor or to use effluent recycling to obtain high stirring intensity, thus ensure that into water and mud granule
It is fully contacted, promotes organic fast degradation.EGSB reactor is provided with special effluent recycling system.EGSB reactor is general
For cylindric turriform, feature is to have the biggest ratio of height to diameter, and typically up to 3 ~ 5, the height of process units reactor is up to 15 ~ 20
m.Stable anaerobic reactor uses anaerobic grain sludge, and the sedimentation velocity of mud is more than the rate of climb of sewage.
EGSB load-bearing capacity is the biggest, it is adaptable to the high concentrated organic wastewater produced in commercial production, such as wastewater from chemical industry
Process.Compared with other anaerobic biological reactors, the feature of EGSB: the highest liquid surface upflow velocity and COD remove negative
Lotus;2. anaerobic sludge grain diameter is relatively big, starts fast, and volumetric loading is high;Reactor anti-shock loading is made plus backflow effect
Ability is strong;3. reactor designs for pyramidal structure, has higher ratio of height to diameter, and floor space is little;4. can be used for SS content high
Process with waste water virose to microorganism;5. EGSB reactor has the biggest adaptability to all kinds of waste water, is mainly used in highly concentrated
Degree treatment of Organic Wastewater, energy consumption is low, and sludge output is few.Weak point is to remove the nitrogen in waste water and phosphorus.
3, ICEAS reactor operation principle
ICEAS reactor develops on the basis of sequencing batch active sludge (SBR).Reactor is designed as two along pond length direction
Part, front portion is also referred to as pre-reaction zone for biological selecting area, and rear portion is main reaction region;Rear portion, main reaction region be mounted with liftable from
Move and strain water device;The aeration of main reaction region, precipitation, draining, the Period Process circular flow such as idle;Realize continuum micromeehanics simultaneously,
It is interrupted draining;Eliminate second pond and the sludge recirculation system of conventional activated sludge method;Simultaneously can continuum micromeehanics, be interrupted draining.
In pre-reaction zone, microorganism can be by major part dissolved organic matter, warp in the fast transfer mechanism rapid adsorption sewage of enzyme
Go through the substrate Rapid Accumulation process of a high load capacity.Subsequently in the substrate degradation process of main reaction region one relatively underload of experience.
ICEAS technique integrates reaction, precipitation, draining, function, and the degraded of pollutant is a plug-flow process in time, and micro-
Biology is then among aerobic, anoxia, anaerobism cyclically-varying, thus reaches, to pollutant removal effect, the most also to have relatively
Denitrogenation well, phosphorus removal functional.Especially for industrial wastewater, the volume expanding biological selecting area makes COD and difficult degradation in waste water
Organic pollution carry out sufficient biological hydrolysis reaction wherein.ICEAS reactor major advantage: technological process is simple, accounts for
Ground area is little, invests relatively low;Biochemical reaction motive force is big;Sedimentation effect is good;Flexible operation, strong shock resistance;The scope of application
Extensively, it is suitable for built by separate periods;Surplus sludge volume is little, stable in properties.ICEAS reactor run sludge loading be 0.15 ~
0.35kgCOD/(kgMLSS d).
The process of the present invention is suitable for the industrial wastewater of the organic properties pollutant containing difficult degradation such as wastewater from chemical industry
Process, in waste water the total removal rate of the organic pollution of COD and difficult degradation be more than 95%, effluent quality can meet in environmental protection
Requirement.
Beneficial effect: the invention have the advantages that compared with existing technique.
1, the invention provides the group technology of a kind of different design.
2, process optimization, clear route is succinct;Bio-chemical effluent is through materializing strategy (improving Fenton fluid bed IFBR), then carries out
Biochemical treatment (the EGSB reactor+ICEAS reactor of absolute anaerobism), water outlet the most after precipitation, technique composition rationally, will
Biochemical treatment and materializing strategy the most organically combine, and three main body processing unit IFBR, EGSB and ICEAS reactors mutually prop up
Hold.
3, commonly industrial wastewater can effectively be processed by the technique that the present invention provides, and can obtain and well process effect
Really, the requirement in environmental protection is met.The technique that the present invention provides, overall COD clearance >=95%, organic properties pollutants removal rate
>=95%, operational management is convenient, process stabilizing, and investment operating cost is low.Overcome processing cost high, persistent organic pollutants
Inefficient, process operation is unstable, and treatment effect is undesirable, it is impossible to meet the deficiencies such as environmental requirement.
4, the technique that the present invention provides, the wherein homophase of Fenton fluid bed and the catalytic reaction of out-phase, the iron content of generation is dirty
Mud reduces 70% than traditional Fenton oxidation, also reduces H2O2The waste of medication, may utilize hydrogen peroxide chemical feeding quantity simultaneously and adjusts, adjust
COD removal amount, it is achieved effectively control the reduction of the COD of waste water, ensures effluent quality.Modified model Fenton fluid bed by Fenton oxygen
Change and organically combine with micro-electrolysis reaction, make persistent organic pollutants chain rupture, open loop the most efficiently, resolve into little molecule
Organic substance.Compared with the common Fenton fluid bed of co-content and treating capacity, identical with added pharmaceutical quantities at water inlet indices
In the case of, the clearance of the organic pollution of difficult for biological degradation can be improved 10%, improve the biodegradability of waste water further.
Accompanying drawing explanation
Fig. 1 processes the method schematic diagram of industrial wastewater for a kind of a new combined process that the present invention provides.
Detailed description of the invention
Below in conjunction with the accompanying drawings and specific embodiment, it is further elucidated with the present invention, it should be understood that embodiment is merely to illustrate this
Bright rather than limit the scope of the present invention, after having read the present invention, those skilled in the art are various etc. to the present invention's
The amendment of valency form all falls within the application claims limited range.
Embodiment 1:
The comprehensive wastewater that certain chemical enterprise produces needs to process, influent concentration COD before treatment≤6000mg/L, pH
6.5 ~ 8.5, SS≤300mg/L, NH3-N≤100mg/L, TP≤2.5mg/L, characteristic contamination concentration chlorobenzene class≤80mg/L.
Water outlet requires to reach " the main pollution discharge standard of Chemical Industry in Jiangsu Province " (DB32/939-2006) secondary standard.Water outlet
Index request COD≤120mg/L, pH 6.5 ~ 8.5, SS≤150mg/L, NH3-N≤25mg/L, TP≤1.0mg/L, feature
Pollutant levels chlorobenzene class≤1.0 mg/L.
Use the group technology in accompanying drawing 1, modified model Fenton fluid bed (IFBR), anaerobic expanded granular bed are used in combination
(EGSB) with ICEAS reactor, wastewater from chemical industry is processed;Including regulating reservoir, modified model Fenton fluid bed, degassing neutralization pond,
Coagulative precipitation tank, anaerobic expanded granular bed, ICEAS reactor, be sequentially connected with through water pipe.
This technique includes following operating procedure:
(1) wastewater from chemical industry is after pretreatment, enters regulating reservoir;
(2) it is adjusted rear waste water and is conveyed into modified model Fenton fluid bed by intake pump, by medicine system to modified model Fenton stream
Change in bed and be separately added into H2SO4Solution, FeSO4Solution and H2O2Solution, enters modified model by reflux pump fragrant by part effluent recycling
Pause in fluid bed, in making Fenton fluid bed, present fluidisation state;The oxidizing tower of modified model Fenton fluid bed is cylindrical shape, three pieces of sieve plates
Oxidizing tower is divided into from bottom to top into water water distribution area, Fenton oxidation district, ferrum carbon reaction zone and exhalant region;Fenton oxidation district is added with filling out
Material A, ferrum carbon reaction zone is added with filler B;Circulating device is connected to water inlet at exhalant region and oxidizing tower two;By Fenton oxidation district
Fenton's reaction and the micro-electrolysis reaction of ferrum carbon reaction zone, remove part COD and most difficult degradation organic contamination in waste water
Thing;
(3) water outlet of modified model Fenton fluid bed enters degassing neutralization pond, sloughs a small amount of gas by stirring, adds NaOH solution,
The pH value of regulation waste water;
(4) degassing neutralization pond water outlet enters coagulative precipitation tank, adds coagulant by coagulant medicine system, and controls stirring speed
Degree forms big flco;Entering back into sediment fraction, the big flco of formation realizes precipitate and separate, precipitating sludge warp in settling zone
Sludge treating system processes;
(5) coagulative precipitation tank water outlet enters anaerobic expanded granular bed through infusion, and anaerobic expanded granular bed reactor (EGSB) main body is
Oxidizing tower, is divided into into water water distribution system, reaction zone (anaerobic granular sludge bed layer), three-phase separation area, outlet system, return-flow system
With mud district;EGSB relies primarily on granule sludge to process waste water, and waste water is entered reactor by the water-locator of bottom, by rich in
The mud district of anaerobe, under the effect of anaerobe, COD and persistent organic pollutants are removed in a large number, produce big simultaneously
Amount biogas, the effect by three phase separator at the top of reactor, gas and water outlet discharge respectively, and mud then settles back mud
District;Sludge Bed district granule sludge is tamed by anaerobic sludge;
(6) water outlet of anaerobic expanded granular bed enters ICEAS reactor, and reactor is designed as two parts along pond length direction, and front portion is
Biological selecting area is also referred to as pre-reaction zone, and rear portion is main reaction region;The aeration of main reaction region, precipitation, draining, the Period Process such as idle
Circular flow;Pre-reaction zone arranges micro-aerator, and the water decanter of liftable draining is installed at rear portion, main reaction region;The company of realization simultaneously
Continuous water inlet, is interrupted draining;
(7) discharged wastewater met the national standard after ICEAS reactor for treatment.
Waste water is conveyed into Fenton fluid bed inhalant region through intake pump, by bottom sieve plate water distribution;Waste water enters Fenton stream
Hua Chuan Fenton oxidation district, is separately added into H by medicine system in Fenton fluid bed simultaneously2SO4Solution, FeSO4Solution and H2O2
Solution, is flowed back into the water section in effluent trough in Fenton fluid bed by reflux pump, presents fluidisation in making Fenton fluid bed
State, removes part COD and major part chlorobenzene class organic pollution in waste water by Fenton's reaction;Regulation return flow, controls to fill out
The height that material expands is less than middle sieve plate;Waste water enters ferrum carbon reaction zone through middle sieve plate, in iron-carbon micro-electrolysis condition
Under, persistent organic pollutants in catalysis oxidized waste water;The waste water aoxidized through iron-carbon micro-electrolysis catalysis passes through upper strata sieve plate, through going out
Mill weir enters in effluent trough, enters next processing unit by outlet pipe;Top effluent trough connects circulating device, divides two and enter
Water pipe is respectively fed to water inlet at the two of bottom, Fenton oxidation district and bottom, ferrum carbon reaction zone, flows back into discharge and is respectively Q1With
Q2, Q1With Q2With m3/ d meter ratio is 8:1.During Fenton fluidized bed processing, H2O2It is 2.5:1 with concentration ratio (mg/L) of COD,
H2O2With Fe2+Mol ratio be 4:1, the waste water mean residence time in Fenton oxidation district controlled at 1 hour, and waste water is at ferrum carbon
The mean residence time of reaction zone controls at 30 minutes, regulates waste water in Fenton fluid bed by medicine system and online pH meter
PH value, makes pH value maintain between 3.0 ~ 4.0.
The oxidizing tower ratio of height to diameter of anaerobic expanded granular bed is 4, and the maintenance upflow velocity 9m/h that is in operation makes at granule sludge
In suspended state;Design volumetric loading is 12kgCOD/(m3D).
ICEAS reactor, the aeration of its main reaction region, precipitation, draining, the process cycle period such as idle are 4 hours, expose
Gas, precipitation, draining, the distribution of idle time are respectively 120 minutes, 60 minutes, 40 minutes, 20 minutes;Expand biological selecting area
Volume waste water total hrt in CASS reactor is reached 6 hours, reactor run sludge loading be 0.3
KgCOD/(kgMLSS d).
After combined PROCESS FOR TREATMENT, effluent index COD≤80mg/L, pH 6.5 ~ 8.5, SS≤50mg/L, NH3-N≤
20mg/L, TP≤1.0mg/L, characteristic contamination concentration chlorobenzene class≤0.8mg/L.Leading indicator each unit treatment effect sees below
Table.
Table 1 leading indicator each unit treatment effect catalog
Claims (7)
1. the method that a group technology processes industrial wastewater, it is characterised in that: this group technology is that modified model sweet smell is used in combination
Industrial wastewater is processed by fluid bed, anaerobic expanded granular bed and ICEAS reactor;Described group technology includes regulation
Pond, modified model Fenton fluid bed, degassing neutralization pond, coagulative precipitation tank, anaerobic expanded granular bed and ICEAS reactor, through water pipe
It is sequentially connected with;
This group technology processes the method for industrial wastewater and includes following operating procedure:
(1) industrial wastewater is after pretreatment, enters regulating reservoir;
(2) it is adjusted rear waste water and is conveyed into modified model Fenton fluid bed by intake pump, by medicine system to modified model Fenton stream
Change in bed and be separately added into H2SO4Solution, FeSO4Solution and H2O2Solution, enters modified model by reflux pump fragrant by part effluent recycling
Pause in fluid bed, in making Fenton fluid bed, present fluidisation state;
The oxidizing tower of described modified model Fenton fluid bed is cylindrical shape, and three pieces of sieve plates are divided into oxidizing tower from bottom to top into water cloth
Pool, Fenton oxidation district, ferrum carbon reaction zone and exhalant region;Fenton oxidation district is added with filler A, and ferrum carbon reaction zone is added with filler B;Follow
Loop device is connected to water inlet at the two of exhalant region and oxidizing tower;By the Fenton's reaction in Fenton oxidation district and ferrum carbon reaction zone
Micro-electrolysis reaction, removes part COD and most persistent organic pollutants in waste water;
(3) water outlet of modified model Fenton fluid bed enters degassing neutralization pond, sloughs a small amount of gas by stirring, adds NaOH solution,
The pH value of regulation waste water;
(4) degassing neutralization pond water outlet enters coagulative precipitation tank, adds coagulant by coagulant medicine system, and controls stirring speed
Degree forms big flco;Entering back into sediment fraction, the big flco of formation realizes precipitate and separate, precipitating sludge warp in settling zone
Sludge treating system processes;
(5) coagulative precipitation tank water outlet enters anaerobic expanded granular bed through infusion, and anaerobic expanded granular bed reactor body is reaction tower,
It is divided into into water water distribution system, reaction zone, three-phase separation area, outlet system and return-flow system;EGSB relies primarily on granule sludge
Processing waste water, waste water is entered reactor by the water-locator of bottom, by the mud district rich in anaerobe, in the effect of anaerobe
Under, COD and persistent organic pollutants are removed in a large number, produce a large amount of biogas simultaneously, pass through three-phase at the top of reactor
The effect of separator, gas and water outlet are discharged respectively, and mud then settles go back to mud district;
(6) water outlet of anaerobic expanded granular bed enters ICEAS reactor, and reactor is designed as two parts along pond length direction, and front portion is
Biological selecting area is also referred to as pre-reaction zone, and rear portion is main reaction region;The aeration of main reaction region, precipitation, draining, the Period Process such as idle
Circular flow;Pre-reaction zone arranges micro-aerator, and the water decanter of liftable draining is installed at rear portion, main reaction region;The company of realization simultaneously
Continuous water inlet, is interrupted draining;
(7) discharged wastewater met the national standard after ICEAS reactor for treatment.
Group technology the most according to claim 1 processes the method for industrial wastewater, it is characterised in that: described regulating reservoir
Bottom is provided with microporous aeration device, the water quality and quantity of regulation waste water;Industrial wastewater water quality index after being adjusted: COD is 5000 ~
6000 mg/L, SS are 150 ~ 300mg/L, and chlorobenzene class is 60 ~ 80 mg/L.
Group technology the most according to claim 1 processes the method for industrial wastewater, it is characterised in that: modified model Fenton fluidizes
Bed fillers A uses quartz sand, the particle diameter of described quartz sand at 0.5 ~ 1.5 mm, the filler B that described ferrum carbon reaction zone is arranged,
Use active carbon fiber felt;First use liquid phase reduction to load zeroth order Nanoscale Iron on active carbon fiber felt, refill and insert ferrum carbon
Reaction zone;Described active carbon fiber felt, is placed in netted intersection between upper strata sieve plate and middle sieve plate.
Group technology the most according to claim 1 processes the method for industrial wastewater, it is characterised in that: modified model Fenton fluidizes
The exhalant region of bed connects circulating device, and point two water inlet pipes are respectively fed to bottom, Fenton oxidation district and the two of bottom, ferrum carbon reaction zone
Place's water inlet, the backflow water yield is respectively Q1And Q2, Q1With Q2Ratio with m3/ d meter ratio is 8:1-10:1.
Group technology the most according to claim 1 processes the method for industrial wastewater, it is characterised in that: modified model Fenton fluidizes
During bed reason at which, H2O2It is 2 ~ 4:1, H with COD ratio in terms of mg/L2O2With Fe2+Mol ratio be 3 ~ 5:1, waste water
Mean residence time in Fenton oxidation district controls at 0.5 ~ 1.5 hour, and waste water is in the mean residence time control of ferrum carbon reaction zone
System, at 15 ~ 45 minutes, regulates the pH value of waste water in Fenton fluid bed by medicine system and online pH meter so that it is maintain 3.0 ~
Between 4.0.
Group technology the most according to claim 1 processes the method for industrial wastewater, it is characterised in that: anaerobic expanded granular bed
Reaction tower ratio of height to diameter be 3 ~ 5, be in operation maintenance upflow velocity 6 ~ 12 m/ h make granule sludge be in suspended state;Design
Volumetric loading is 8 ~ 15 kgCOD/(m3D).
Group technology the most according to claim 1 processes the method for industrial wastewater, it is characterised in that: ICEAS reactor
The aeration of main reaction region, precipitation, draining, the process cycle period such as idle are 4 hours, aeration, precipitation, draining, idle time
Distribution is respectively 120 minutes, 60 minutes, 40 minutes, 20 minutes;It is 0.15 ~ 0.35 kgCOD/ that reactor runs sludge loading
(kgMLSS d).
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CN111499088A (en) * | 2020-06-29 | 2020-08-07 | 北京图腾猎技科技有限公司 | Efficient coal chemical wastewater treatment device and method |
CN114044610A (en) * | 2021-11-22 | 2022-02-15 | 盐城工学院 | Method for treating industrial wastewater by combined process |
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CN103613247A (en) * | 2013-12-02 | 2014-03-05 | 安徽省绿巨人环境技术有限公司 | Treatment process for bearing production wastewater |
CN103663802A (en) * | 2012-08-29 | 2014-03-26 | 安徽南风环境工程技术有限公司 | Microelectrolysis-fenton oxidizing reaction device |
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CN103663802A (en) * | 2012-08-29 | 2014-03-26 | 安徽南风环境工程技术有限公司 | Microelectrolysis-fenton oxidizing reaction device |
CN103613247A (en) * | 2013-12-02 | 2014-03-05 | 安徽省绿巨人环境技术有限公司 | Treatment process for bearing production wastewater |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111499088A (en) * | 2020-06-29 | 2020-08-07 | 北京图腾猎技科技有限公司 | Efficient coal chemical wastewater treatment device and method |
CN114044610A (en) * | 2021-11-22 | 2022-02-15 | 盐城工学院 | Method for treating industrial wastewater by combined process |
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