CN209428272U - A kind of steel and iron industry strong brine processing unit - Google Patents

A kind of steel and iron industry strong brine processing unit Download PDF

Info

Publication number
CN209428272U
CN209428272U CN201821621086.XU CN201821621086U CN209428272U CN 209428272 U CN209428272 U CN 209428272U CN 201821621086 U CN201821621086 U CN 201821621086U CN 209428272 U CN209428272 U CN 209428272U
Authority
CN
China
Prior art keywords
pond
reverse osmosis
nanofiltration
strong brine
water
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.)
Active
Application number
CN201821621086.XU
Other languages
Chinese (zh)
Inventor
郭彩荣
王为民
于金旗
梁丹
张岩岗
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BEIJING SCINOR WATER TECHNOLOGY Co Ltd
Original Assignee
BEIJING SCINOR WATER TECHNOLOGY Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority to CN201711450200 priority Critical
Priority to CN2017114502007 priority
Application filed by BEIJING SCINOR WATER TECHNOLOGY Co Ltd filed Critical BEIJING SCINOR WATER TECHNOLOGY Co Ltd
Application granted granted Critical
Publication of CN209428272U publication Critical patent/CN209428272U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F9/00Multistage treatment of water, waste water, or sewage
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/001Processes for the treatment of water whereby the filtration technique is of importance
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/44Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
    • C02F1/441Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis by reverse osmosis
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/44Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis
    • C02F1/442Treatment of water, waste water, or sewage by dialysis, osmosis or reverse osmosis by nanofiltration
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/50Treatment of water, waste water, or sewage by addition or application of a germicide or by oligodynamic treatment
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/52Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities
    • C02F1/5236Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities using inorganic agents
    • C02F1/5245Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities using inorganic agents using basic salts, e.g. of aluminium and iron
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/52Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities
    • C02F1/54Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities using organic material
    • C02F1/56Macromolecular compounds
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/70Treatment of water, waste water, or sewage by reduction
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2103/00Nature of the water, waste water, sewage or sludge to be treated
    • C02F2103/16Nature of the water, waste water, sewage or sludge to be treated from metallurgical processes, i.e. from the production, refining or treatment of metals, e.g. galvanic wastes
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2301/00General aspects of water treatment
    • C02F2301/06Pressure conditions
    • C02F2301/066Overpressure, high pressure
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2301/00General aspects of water treatment
    • C02F2301/08Multistage treatments, e.g. repetition of the same process step under different conditions
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2303/00Specific treatment goals
    • C02F2303/10Energy recovery
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2303/00Specific treatment goals
    • C02F2303/14Maintenance of water treatment installations
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F5/00Softening water; Preventing scale; Adding scale preventatives or scale removers to water, e.g. adding sequestering agents
    • C02F5/08Treatment of water with complexing chemicals or other solubilising agents for softening, scale prevention or scale removal, e.g. adding sequestering agents
    • C02F5/10Treatment of water with complexing chemicals or other solubilising agents for softening, scale prevention or scale removal, e.g. adding sequestering agents using organic substances
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/124Water desalination
    • Y02A20/131Reverse-osmosis

Abstract

The utility model relates to a kind of steel and iron industry strong brine processing units, belong to environmental technology field, device successively includes: strong brine counter-infiltration system, nanofiltration system, reverse osmosis seawater desalination system, nanofiltration concentrated water pond, new pond, strong brine counter-infiltration system is connected with nanofiltration system, nanofiltration system is connected with reverse osmosis seawater desalination system, and reverse osmosis seawater desalination system is connected with new pond.The utility model is according to the characteristic of water, the water treatment technologies organic assembling such as chemical treatment, reverse osmosis membrane and nanofiltration membrane is integrated to the processing method of strong brine, mainly in the treatment for reuse of strong brine and concentration salt water, the stabilization for producing water not only ensure that, but also saved energy.

Description

A kind of steel and iron industry strong brine processing unit
Technical field
The utility model relates to a kind of wastewater treatment equipment, more particularly to a kind of steel and iron industry strong brine processing unit, Belong to environmental technology field.
Background technique
Currently, the processing method of strong brine mainly has electrolysis method, membrane separation technique, bioanalysis etc., wherein membrane separation technique It is one of processing cost-effective method of brine waste, and with the development of reverse osmosis technology, so that it is had become UF membrane most main One of mode wanted.
Existing research uses evaporation pond process brine waste, and for this technique, the concentrated water of generation needs large area Evaporation pond, take up a large area, and invest big, operating cost is high, easily has a negative impact to environment.
In addition, people, which study, uses coagulating sedimentation, membrane process combination multiple-effect evaporation process strong brine, but the technique There are problems that useless Organic substance in water cannot be removed effectively.
Steel and iron industry is the material base of developing national economy and national defense construction, is the important of one industrialization of the country of measurement Mark, while being also industrial water rich and influential family.In steel and iron industry water utilizing process, the concentration of salinity, organic matter etc. in the water of part is caused. If this part strong brine direct emission can be generated to local water quality and be significantly affected, salinization of soil, aquatic organism death, water are caused Ecological disruption etc..Usually scientific and reasonable disposal options are that the water of the high salinity in this part is evaporated to crystallization, form solid;Or Person is that strong brine is continued to concentration to reduce its amount, sprinkles the processes such as slag for steel mill and is dissolved.And evaporative crystallization is due to cost It is too high, at present more it is possible that the method for strong brine minimizing consumption.
Some very high areas of strong brine hardness, basicity, sulfate radical content are also relatively high, if without processing directly into Enter reverse osmosis membrane to be concentrated, a large amount of sediments can be precipitated and cause the stifled paralysis of membranous system dirt.But due to lacking mature and reliable Reduction process is concentrated in strong brine, therefore most of strong brines do not carry out minimizing processing at present, is still direct after handling Discharge.
High rigidity, high alkalinity strong brine are carried out there are also enterprise to use embrane method or thermal method to be concentrated after removing hard pretreatment, Its pretreatment process is general are as follows: to high rigidity, high alkalinity strong brine add calcium hydroxide removal temporary hardness, after add sodium carbonate And a small amount of sodium hydroxide removes permanent hardness, water outlet enters sedimentation basin and is precipitated, and supernatant enters filter and is filtered, mistake Water after filter enters pH conditioning tank and pH is adjusted to neutrality, and water outlet enters reverse osmosis be concentrated.The technique, which exists, to be taken up a large area, and is flowed Journey is long, and pretreatment effluent quality is poor, causes reverse osmosis dirty stifled the problems such as seriously cleaning frequency is too short, and membrane lifetime shortens.
The strong brine of reverse osmosis generation in steel industry has total dissolved solidss (Total dissolved solids, contracting Write TDS), COD COD (Chemical Oxygen Demand) it is high, difficult for biological degradation, the easy foulant such as hardness in water The features such as matter is more, and the organism kinds for forming COD are more, is affected to subsequent processing, and change of water quality amplitude is big.Currently, saliferous The processing method of waste water mainly has electrolysis method, membrane separation process, bioanalysis etc., and wherein membrane separation process is that processing brine waste economy has One of method of effect, electrodialysis and reverse osmosis membrane are most important UF membrane modes.
" a kind of processing method of high slat-containing wastewater " (CN104692574A) disclosed on June 10th, 2015 discloses one kind The processing method of brine waste, mainly will using ultrafiltration (Ultra Filtration UF), nanofiltration (NF), reverse osmosis (RO), The embrane methods such as high-pressure flat plate film rationally couple and are with what MVR (mechanical steam recompression) crystallization, freezing and crystallizing technology combined System processing high slat-containing wastewater.But complex process, the cost of investment and operation expense of device are increased, and complicated for operation.
" processing method and its processing unit of high slat-containing wastewater " disclosed on August 11st, 2010 (number of patent application is CN201010111515.0 in), a kind of group using clarifying basin+filter tank+Na-ion exchanger+carbon dioxide cleaner+reverse osmosis is provided Close process high slat-containing wastewater.Its shortcoming is that: need repeatedly to adjust pH in entire treatment process, and processing unit is complicated, Increase its maintenance cost.
A kind of " cold rolling alkalinity waste discharge advanced treatment recycling technique system and method " disclosed on 2 3rd, 2016 (benefit Application No. is CN201410234020.5) in disclose a kind of process system of cold rolling alkalinity waste discharge advanced treatment and reclamation, Including electroxidation air-floating apparatus, inorganic ultra-filtration device, ultrafiltration circulatory pool, ultrafiltration circulating pump, ultrafiltration rinse bath, ultrafiltration produce pond, Reverse osmosis water supply pump, cartridge filter, reverse osmosis high-pressure pump, two-period form reverse osmosis unit, reverse osmosis produced pond, reverse osmosis concentrated water Pond, reverse osmosis rinse bath, reverse osmosis cleaning pump and pipe-line mixer.But the process system apparatus is complicated, operating cost is high, simultaneously Increase the maintenance cost etc. of device.
Therefore it provides a kind for the treatment of effeciency height, simple process, stable, operation and maintenance and it is easy to operate, at low cost, Just become technology neck in concentration strong brine setting energy regenerating, the steel and iron industry strong brine processing unit of saving energy and method Domain technical problem urgently to be solved.
Utility model content
One of the purpose of this utility model be to provide a kind for the treatment of effeciency height, simple process, stable, operation and maintenance and Steel and iron industry strong brine processing dress easy to operate, at low cost, that energy regenerating is set, saves energy in concentration strong brine processing It sets, solves the problems, such as that prior art exists.
The above-mentioned purpose of the utility model reaches by the following technical programs:
A kind of processing unit of steel and iron industry strong brine, it is characterised in that: the processing unit successively includes: that strong brine is anti- (RO) system of infiltration, nanofiltration (NF) system, reverse osmosis seawater desalting (SWRO) system, nanofiltration (NF) concentrated water pond and new pond, it is dense Salt water counter-infiltration system is connected with nanofiltration system, nanofiltration system respectively with nanofiltration (NF) concentrated water pond and reverse osmosis seawater desalting system System is connected, and reverse osmosis seawater desalination system is connected with new pond;
The strong brine counter-infiltration system is sequentially connected by pipeline: strong brine pond, strong brine reverse osmosis (RO) supply water Pump, cartridge filter, high-pressure pump, reverse osmosis membrane apparatus, wherein strong brine pond is by reverse osmosis (RO) water supply pump of strong brine and protects Peace filter is connected, and cartridge filter is connected with reverse osmosis membrane apparatus by high-pressure pump and pipeline, and reverse osmosis membrane apparatus is logical Piping respectively in nanofiltration (NF) system concentration brine pit and new pond be connected, antisludging agent is provided with before cartridge filter With non oxidizing bactericide chemical feeding points;
Described nanofiltration (NF) system is sequentially connected by pipeline: nanofiltration (NF) conditioning tank, concentration brine pit, water supply pump, Reaction of high order sedimentation basin (chemical tendering pond), chemical tendering produce pond, nanofiltration (NF) water supply pump, more medium filter, ensured public security Filter, nanofiltration (NF) high-pressure pump, nanofiltration (NF) device, nanofiltration (NF) concentrated water pond, sludge-tank, sludge dewatering system, auxiliary equipment; Wherein, the auxiliary equipment includes lime, soda ash, aluminium polychloride (PAC) chemicals dosing plant, polyacrylamide (PAM) dosing dress It sets, sulfuric acid (H2SO4) chemicals dosing plant and antisludging agent, reducing agent, non oxidizing bactericide chemicals dosing plant;Reaction of high order sedimentation basin with Lime, soda ash, PAC, PAM chemicals dosing plant and H2SO4Chemicals dosing plant is connected, and sludge-tank is connected with PAM chemicals dosing plant, be situated between more Antisludging agent, reducing agent, non oxidizing bactericide throwing device are set between mass filter and cartridge filter;Brine pit point is concentrated It is not connected with nanofiltration (NF) conditioning tank and water supply pump, water supply pump is connected with reaction of high order sedimentation basin, reaction of high order sedimentation basin Is produced from pond with chemical tendering respectively and sludge-tank is connected, and sludge-tank is connected with sludge dewatering system, and chemical tendering produces pond It is connected with nanofiltration water supply pump, nanofiltration (NF) water supply pump is connected with more medium filter, and more medium filter and security personnel filter Device is connected, and cartridge filter is connected by nanofiltration (NF) high-pressure pump with nanofiltration (NF) device, nanofiltration (NF) device respectively with Nanofiltration (NF) concentrated water pond produces pond with the nanofiltration (NF) in reverse osmosis seawater desalination system and is connected;
Described reverse osmosis seawater desalting (SWRO) system is sequentially connected by pipeline: nanofiltration (NF) produces pond, reverse osmosis Sea water desalination (SWRO) water supply pump, cartridge filter, high-pressure pump, energy recycle device, booster pump, reverse osmosis desalination device (SWRO device), concentrated water pond;Nanofiltration (NF) produces pond and passes through reverse osmosis seawater desalting (SWRO) water supply pump and cartridge filter phase Connection, cartridge filter are connected with high-pressure pump and energy recycle device respectively, high-pressure pump and reverse osmosis seawater desalting (SWRO) Device is connected, and energy recycle device is connected by booster pump with reverse osmosis seawater desalting (SWRO) device, energy regenerating dress It sets and is also directly connected respectively with, reverse osmosis seawater desalting (SWRO) device and concentrated water pond, reverse osmosis seawater desalting (SWRO) dress It sets and is connected with new pond.
Preferably, the concentration brine pit is equipped with undercurrent mixer, guarantees that concentration brine pit water quality is uniform, passes through water supply pump Into reaction of high order sedimentation basin.
Preferably, the high-pressure pump in the reverse osmosis seawater desalination system and energy recycle device, booster pumps connected in parallel, security personnel Water outlet a part of filter directly enters reverse osmosis seawater desalting (SWRO) device by high-pressure pump pressurization and is handled, a part Enter reverse osmosis seawater desalting (SWRO) device, reverse osmosis seawater desalting (SWRO) after energy recycle device and booster pump pressurization The production water of device enter new pond, reverse osmosis seawater desalting (SWRO) device generate reverse osmosis seawater desalting (SWRO) concentrated water into Enter energy recycle device, in energy recycle device, low pressure intakes to obtain the pressure energy of high pressure concentrated water water inlet, flows out energy with high pressure water Recyclable device is measured, enters reverse osmosis seawater desalting (SWRO) device through booster pump, carries out concentration, and high pressure concentrated water influent pressure It can be absorbed, concentrated water pond is discharged into the form of low pressure concentrated water.
Preferably, the energy recycle device is positive displacement energy recycle device or Work-exchange type energy recovery device.
Preferably, the positive displacement energy recycle device by strong brine be directly pressurized charging seawater in the way of recycle it is remaining Pressure energy, efficiency are up to 90% or more.
Preferably, the Work-exchange type energy recovery device is the PX (Pressure Exchanger) of U.S. ERI company Pressure exchanger, CALDER AG company, Switzerland DWEER (Work Exchange Energy Recovery) function exchanger, The Recuperator energy regenerating tower of Norway A Keling, Hangzhou Water Treatment Technological Research Development Center differential pressure switch type energy Recyclable device (ER-CY).
Preferably, the high-pressure pump in reverse osmosis (RO) system of the strong brine, the nanofiltration high-pressure pump in nanofiltration system and The type selecting of high-pressure pump in SWRO system is configured according to the strong brine RO rate of recovery 70%.
Preferably, reverse osmosis (RO) device of the concentrated water uses two sections of level-one, and section-between boosting measure, film are taken in two sections of water inlets Component is configured according to 2:1.
Preferably, reverse osmosis (RO) device of the concentrated water selects pollution-resistant reverse osmosis membrane to be handled, strong brine reverse osmosis The saturating rate of recovery >=70%.
Preferably, chemicals dosing plant is set before the cartridge filter in nanofiltration (NF) system, for adding antisludging agent, going back Former agent, non oxidizing bactericide.
Preferably, the reducing agent is sulphite, preferably sodium hydrogensulfite (NaHSO3)。
Preferably, the non oxidizing bactericide is the quick non-oxydizing sterilization of PWT company, the U.S. commercially available in the market The snap action non-oxidative antimicrobial Jiach that agent BioGuard ACS (S), Wuxi Jiang Chao Environmental Protection Technology Co., Ltd sell MPF-301TM, Tresea 388, the efficient non-oxidative antimicrobial such as SS416 and the dedicated non-oxidative antimicrobial MSS series of film.
Preferably, the antisludging agent is natural polymer antisludging agent or synthetic polymer antisludging agent.
Preferably, the synthetic polymer antisludging agent is carboxylic acids polymer antisludging agent, sulphonic acids polymer antisludging agent, contains Phosphorus polymer antisludging agent or environmentally friendly antisludging agent.
Preferably, the MPC series reverse osmosis membrane for Beijing Shibo Hengye Technology Co., Ltd.'s sale that the antisludging agent is selected Antisludging agent.
Preferably, the antisludging agent, reducing agent, non oxidizing bactericide chemicals dosing plant have the ability continuously added.
Preferably, the chemicals dosing plant has the ability that non oxidizing bactericide is added toward new pond and concentration brine pit, To inhibit the growth of bacterium in pond.
The another object of the utility model is to provide a kind of steel and iron industry method for treating strong brine.
The above-mentioned purpose of the utility model reaches by the following technical programs:
A kind of steel and iron industry method for treating strong brine, includes the following steps:
(1) strong brine reverse osmosis treatment:
The strong brine (strong brine processing system water inlet) that first-stage reverse osmosis (RO) generates supplies water through strong brine reverse osmosis (RO) Pump enters cartridge filter, and antisludging agent, reducing agent, non oxidizing bactericide chemical feeding points is arranged before cartridge filter, is discharged through height Press pump enters reverse osmosis (RO) device of concentrated water and is handled, and concentrated water that treated enters the concentration brine pit in nanofiltration system, produces Water enters new pond;
(2) nanofiltration is handled:
Through reverse osmosis (RO) device of concentrated water, treated that concentrated water enters the concentration brine pit in nanofiltration system in step (1), Meanwhile the concentrated water that coking, the cold rolling wastewater processing in nanofiltration conditioning tank generate enters the concentration brine pit in nanofiltration system, is concentrated Water in brine pit enters reaction of high order sedimentation basin (chemical tendering pond) by water supply pump and carries out chemical tendering, meanwhile, it is lime, pure The medicaments such as alkali, coagulant PAC and flocculant PAM by chemicals dosing plant into reaction of high order sedimentation basin feeding lime, soda ash, PAC, PAM is discharged through H2SO4It adjusts pH and (passes through H2SO4Chemicals dosing plant adds) flow automatically enters chemical tendering production pond, chemical tendering afterwards The production water for producing pond enters more medium filter, cartridge filter through nanofiltration water supply pump, and antisludging agent is added before cartridge filter, is gone back Former agent and non oxidizing bactericide, cartridge filter water outlet enter nanofiltration device through nanofiltration high-pressure pump, and nanofiltration produces water and enters nanofiltration Is produced from pond, the concentrated water that nanofiltration device generates then enters nanofiltration concentrated water pond;
(3) reverse osmosis seawater desalting is handled:
Nanofiltration device in step (2) produces water and enters nanofiltration production pond, enters cartridge filter by SWRO water supply pump, protects The water outlet a part for pacifying filter directly enters SWRO device by high-pressure pump pressurization and is handled, and a part is through energy recycle device And enter SWRO device after booster pump pressurization, the production water of SWRO device enters new pond, the SWRO concentrated water that SWRO device generates into Enter energy recycle device, in energy recycle device, low pressure intakes to obtain the pressure energy of high pressure concentrated water water inlet, flows out energy with high pressure water Recyclable device is measured, enters SWRO device through booster pump, carries out concentration, and high pressure concentrated water influent pressure can be absorbed, with low pressure The form of concentrated water is discharged into concentrated water pond.
Preferably, the high-pressure pump in reverse osmosis (RO) system of the strong brine, the nanofiltration high-pressure pump in nanofiltration system and The type selecting of high-pressure pump in SWRO system is configured according to reverse osmosis (RO) rate of recovery 70% of strong brine.
Preferably, reverse osmosis (RO) device of the concentrated water is intake using level-one two-part, and section-between boosting is taken in two sections of water inlets Measure, membrane module are configured according to 2:1, the rate of recovery >=70%.
Preferably, the SWRO device selects high desalination, low energy consumption reverse osmosis membrane to be handled, the rate of recovery >=50%.
Preferably, chemicals dosing plant is set before the cartridge filter in the nanofiltration system, for launching antisludging agent, reducing agent And/or non oxidizing bactericide.
Preferably, the reducing agent is sulphite, selects NaHSO3
Preferably, the non oxidizing bactericide is the quick non-oxydizing sterilization of PWT company, the U.S. commercially available in the market The snap action non-oxidative antimicrobial Jiach that agent BioGuard ACS (S), Wuxi Jiang Chao Environmental Protection Technology Co., Ltd sell MPF-301TM, Tresea 388, the efficient non-oxidative antimicrobial such as SS416 and the dedicated non-oxidative antimicrobial MSS series of film.
Preferably, the antisludging agent is natural polymer antisludging agent or synthetic polymer antisludging agent.
Preferably, the synthetic polymer antisludging agent is carboxylic acids polymer antisludging agent, sulphonic acids polymer antisludging agent, contains Phosphorus polymer antisludging agent or environmentally friendly antisludging agent.
Preferably, the MPC series reverse osmosis membrane resistance that the antisludging agent selects Beijing Shibo Hengye Technology Co., Ltd. to sell Dirty agent.
Preferably, the antisludging agent, reducing agent, non oxidizing bactericide chemicals dosing plant have the energy for continuously adding medicament Power.
Preferably, the chemicals dosing plant has the ability that non oxidizing bactericide is added toward new pond and concentration brine pit, To inhibit the growth of bacterium in pond.
The utility model has the advantages that
In the steel and iron industry strong brine processing unit and method of the utility model, strong brine passes through pollution-resistant reverse osmosis membrane Processing, the concentration salt water of generation is after nanofiltration system pre-processes, into SWRO system, and be arranged energy recycle device recycling The energy of SWRO concentrated water not only ensure that stable water production, but also save energy.Processing of the strong brine through pollution-resistant reverse osmosis membrane Afterwards, it produces aqueous suspension to be substantially not detectable, produces water conductivity less than 200 μ S/cm, total hardness is (with CaCO3Meter) it is lower than 20mg/L, Chloride ion removal rate up to 99%, water outlet COD be basically stable at 10mg/L hereinafter, and strong brine reverse osmosis (RO) the rate of recovery >= 70%.It produces water and meets the water quality requirement that steel and iron industry produces new water;Salt water is concentrated through nanofiltration system and reverse osmosis seawater desalting system After system processing, produces water and meet the water quality requirement for producing new water, and concentrated water can send smelting production link expendable outside and utilize.
The water treatment technologies such as chemical treatment, reverse osmosis membrane and nanofiltration membrane are had unit according to the characteristic of water by the utility model Intersection both ensure that mainly in the treatment for reuse of strong brine and concentration salt water at the processing method of strong brine and produce the steady of water It is fixed, and energy has been saved, while reducing strong brine amount, it is created condition for the further desalination of strong brine.
The utility model is described further below by the drawings and specific embodiments, but is not meant to this reality With the limitation of novel protected range.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model steel and iron industry strong brine processing unit.
Fig. 2 is the flow diagram of the utility model steel and iron industry method for treating strong brine.
Main parts size title
1 strong brine pond, 2 strong brine RO water supply pump, 3 strong brine cartridge filter
The new pond of 4 strong brine RO high-pressure pump, 5 concentrated water RO device 6
7 concentration 8 NF conditioning tank of brine pit, 9 water supply pumps
10 reaction of high order sedimentation basin, 11 chemical tendering produces 12 sludge-tank of pond
13 NF water supply pump, 14 more medium filter, 15 NF cartridge filter
16 NF high-pressure pump, 17 NF device, 18 NF concentrated water pond
19 NF produce 20 SWRO water supply pump of pond, 21 sea water desalination cartridge filter
22 SWRO high-pressure pump, 23 energy recycle device, 24 booster pump
25 SWRO device, 26 SWRO concentrated water pond, 27 chemicals dosing plant
Specific embodiment
As shown in Figure 1, being the structural schematic diagram of the utility model steel and iron industry strong brine processing unit, wherein 1 is dense salt Pond, 2 be strong brine RO water supply pump, 3 be strong brine cartridge filter, 4 be strong brine RO high-pressure pump, 5 be concentrated water RO device, 6 It is concentration brine pit for new pond, 7,8 be NF conditioning tank, and 9 be water supply pump, and 10 be reaction of high order sedimentation basin, and 11 be chemical tendering Is produced from pond, 12 be sludge-tank, and 13 be NF water supply pump, and 14 be more medium filter, and 15 be nanofiltration cartridge filter, and 16 be NF high pressure Pump, 17 be NF device, and 18 be NF concentrated water pond, and 19 produce pond for NF, and 20 be SWRO water supply pump, and 21 be sea water desalination security personnel's filtering Device, 22 be SWRO high-pressure pump, and 23 be energy recycle device, and 24 be booster pump, and 25 be SWRO device, and 26 be SWRO concentrated water pond, 27 For chemicals dosing plant;Strong brine pond 1 is connected with strong brine RO water supply pump 2, strong brine RO water supply pump 2 and strong brine cartridge filter 3 are connected, and are equipped with chemicals dosing plant therebetween, and strong brine cartridge filter 3 is connected with strong brine RO high-pressure pump 4, strong brine RO high Press pump 4 is connected with concentrated water RO device 5, and 5 one side of concentrated water RO device is connected with new pond 6, on the other hand with concentration salt water Pond 7 is connected with NF conditioning tank 8, and concentration brine pit 7 is connected with NF conditioning tank 8, and concentration brine pit 7 is connected with water supply pump 9, Water supply pump 9 is connected with reaction of high order sedimentation basin 10, reaction of high order sedimentation basin 10 set there are three chemicals dosing plant (in chemical reaction pond The medicaments such as middle addition soda ash, white lime, coagulant (PAC) add flocculant (PAM), H in coagulation area2SO4Chemicals dosing plant is located at Reaction of high order sedimentation basin produces water, through H2SO4Adjust pH after enter chemical tendering produce pond, the bottom of reaction of high order sedimentation basin 10 with Sludge-tank 12 is connected, and the top of reaction of high order sedimentation basin 10 produces pond 11 with chemical tendering and is connected, and chemical tendering produces pond 11 are connected by NF water supply pump 13 with the lower part of more medium filter 14, and the top of more medium filter 14 and nanofiltration were ensured public security Filter 15 is connected, and chemicals dosing plant, nanofiltration cartridge filter are equipped between more medium filter 14 and nanofiltration cartridge filter 15 15 are connected with NF high-pressure pump 16, and NF high-pressure pump 16 is connected with NF device 17,17 one side of NF device and 18 phase of NF concentrated water pond Connection, 17 another aspect of NF device produce pond 19 with NF and are connected, and NF produces pond 19 and passes through SWRO water supply pump 20 and sea water desalination Cartridge filter 21 is connected, and sea water desalination cartridge filter 21 is connected with SWRO high-pressure pump 22 and energy recycle device 23 respectively It connects, SWRO high-pressure pump 22 is connected with SWRO device 25, and the bottom of energy recycle device 23 passes through booster pump 24 and SWRO device 25 are connected, and the top of energy recycle device 23 is connected with SWRO device 25 and SWRO concentrated water pond respectively, SWRO device 25 with New pond 6 is connected, and reaction of high order sedimentation basin 10 and chemical tendering produce and be equipped with chemicals dosing plant 27 between pond 11.
As shown in Fig. 2, being the flow diagram of the utility model steel and iron industry method for treating strong brine;The utility model The processing unit of steel and iron industry strong brine used in steel and iron industry method for treating strong brine successively include: strong brine RO system, NF system, SWRO system, NF concentrated water pond, new pond, SWRO system are connected with NF system, NF system respectively with NF concentrated water pond and SWRO system is connected, and SWRO system is connected with new pond;
Strong brine RO system is sequentially connected by pipeline: strong brine pond, strong brine RO water supply pump, cartridge filter, high pressure Pump, concentrated water RO device, wherein strong brine pond is connected by strong brine RO water supply pump with cartridge filter, cartridge filter and Concentrated water RO device is connected by high-pressure pump with pipeline, concentrated water RO device by pipeline respectively with it is dense in new pond and NF system Contracting brine pit is connected, and the centre of strong brine RO water supply pump and cartridge filter is provided with antisludging agent and non oxidizing bactericide Chemicals dosing plant;
NF system is sequentially connected by pipeline: NF conditioning tank, concentration brine pit, water supply pump, reaction of high order sedimentation basin, chemistry Softening produce pond, NF water supply pump, more medium filter, cartridge filter, NF high-pressure pump, NF device, NF concentrated water pond, sludge-tank, Sludge dewatering system, auxiliary equipment, wherein the auxiliary equipment includes lime, soda ash, PAC, PAM chemicals dosing plant, H2SO4Dosing Device and antisludging agent, reducing agent, non oxidizing bactericide chemicals dosing plant;Reaction of high order sedimentation basin and lime, soda ash, PAC, PAM Chemicals dosing plant and H2SO4Chemicals dosing plant is connected, and sludge-tank is connected with PAM chemicals dosing plant, and scale inhibition is arranged before cartridge filter Agent, reducing agent, non oxidizing bactericide chemicals dosing plant;Concentration brine pit is connected with NF conditioning tank and water supply pump respectively, supplies water Pump is connected with reaction of high order sedimentation basin, and reaction of high order sedimentation basin produces pond with chemical tendering respectively and sludge-tank is connected, dirty Mud sump is connected with sludge dewatering system, and chemical tendering produces pond and is connected with NF water supply pump, NF water supply pump and multi-medium filtering Device is connected, and more medium filter is connected with cartridge filter, and cartridge filter is connected by NF high-pressure pump with NF device, NF device produces pond with the NF in NF concentrated water pond and SWRO system respectively and is connected;
SWRO system is sequentially connected by pipeline: NF produces pond, SWRO water supply pump, cartridge filter, high-pressure pump, SWRO dress It sets, concentrated water pond, energy recycle device, booster pump;NF produces pond and is connected by SWRO water supply pump with cartridge filter, ensures public security On the one hand filter passes through high-pressure pump and is connected with SWRO device, be on the other hand connected with energy recycle device, energy regenerating dress It sets and is connected by booster pump with SWRO device, energy recycle device is also directly connected with SWRO device and concentrated water pond respectively, SWRO device is connected with new pond;
Salt water bottom of pond portion is concentrated and is equipped with undercurrent mixer, impeller diameter 370mm, revolving speed 705r/min, blender shell Body and propeller are Stainless steel 316 L, guarantee that dense brine pit water quality is uniform, enter reaction of high order sedimentation basin by water supply pump.
Water outlet a part of cartridge filter in SWRO system directly enters SWRO device by high-pressure pump pressurization and carries out Reason, a part enter (low pressure water inlet) SWRO device after energy recycle device and booster pump pressurization, the production water of SWRO device into Enter new pond, the SWRO concentrated water that SWRO device generates enters energy recycle device, and in energy recycle device, low pressure intakes to obtain The pressure energy of high pressure concentrated water water inlet flows out energy recycle device with high pressure water, enters SWRO device through booster pump, carry out at concentration Reason, and high pressure concentrated water influent pressure can be absorbed, and concentrated water pond is discharged into the form of low pressure concentrated water.
The type selecting of the NF high-pressure pump in high-pressure pump, NF system in strong brine RO system and the high-pressure pump in SWRO system is equal It is configured according to the strong brine RO rate of recovery 70%.
Concentrated water RO device takes section-between boosting measure using two sections of level-one designs, two sections of water inlets, and membrane module is matched according to 2:1 It sets.
Concentrated water RO device selects pollution-resistant reverse osmosis membrane to be handled, the reverse osmosis rate of recovery >=70% of strong brine.
Reducing agent is sulphite, selects NaHSO3
Non oxidizing bactericide is the quick non oxidizing bactericide BioGuard of PWT company, the U.S. commercially available in the market The snap action non-oxidative antimicrobial Jiach MPF-301 that ACS (S), Wuxi Jiang Chao Environmental Protection Technology Co., Ltd sellTM、 The efficient non-oxidative antimicrobial such as Tresea 388, SS416 and the dedicated non-oxidative antimicrobial MSS series of film, to inhibit thin in pond The growth of bacterium.
Antisludging agent is natural polymer antisludging agent or synthetic polymer antisludging agent.
Synthetic polymer antisludging agent is carboxylic acids polymer antisludging agent, sulphonic acids polymer antisludging agent, phosphorous polymer resistance Dirty agent or environmentally friendly antisludging agent.
Antisludging agent selects MPC series reverse osmosis membrane antisludging agent.
Antisludging agent, reducing agent, non oxidizing bactericide chemicals dosing plant have the ability for continuously adding medicament.
Chemicals dosing plant has the ability that fungicide is added toward new pond and concentration brine pit, to inhibit the taste of bacterium in pond It is raw.
Steel and iron industry strong brine processing system water supply pump can be commercially available water supply pump in the market, and water supply pump is selected horizontal Centrifugal pump, stainless steel material, water supply pump DFWH200-315, the DFWH150-315 sold such as east Beng Ye Group Co., Ltd Deng.
Cartridge filter can be commercially available cartridge filter in the market, be steel welding bulge, and fouling meets The requirement of fast replacing filter core, ontology material are corrosion-resistant stainless steel.Cartridge filter filtering element uses the replaceable cassette of big flow Filter core, polypropylene material have an ability capable of washing, and the surface filtering velocity of filter core is not more than 60m/h when maximum water yield, select 5 μm Filtering accuracy.The big flows water filter core cartridge filters such as HORIZON, GE, hundred spy of section, Fiss Fu Er.
Chemicals dosing plant centralized arrangement, the chemical feeding points for adding same medicament can share a set of chemicals dosing plant, using into Teat pipette By adding of agent to designated position, solution/batch meter is with blender, filter device, necessary adapter tube and attachment, material PE, The material of agitator paddle and axis is Stainless steel 316 L or other acid and alkali-resistance materials, and valve, pipeline use UPVC material, batch meter Equipped with liquidometer, while it being equipped with far transmission level meter, chemicals dosing plant, which is realized, automatically controls dosing, can continuously add non-oxydizing sterilization Agent, and have the ability that fungicide is added toward new pond and concentration brine pit, to inhibit the growth of bacterium in pond.
Various high-pressure pumps can be commercially available high-pressure pump in the market, select frequency conversion centrifugal pump, concentrated water RO, NF high-pressure pump material Matter is Stainless steel 316 L, and the high-pressure pump material of SWRO uses two phase stainless steel, as PENTAIR, Sulzer sell it is reverse osmosis High-pressure pump.
Pollution-resistant reverse osmosis membrane apparatus can be commercially available strong brine RO film device in the market, as Hydranautics is sold PROCTMThe enhanced anti-pollution reverse osmosis membrane element of series has higher chemical resistance and stability salt rejection rate high, It can ensure that producing water water quality, and more energy-saving;BW30FR-400, BW30FR-400/34i, BW30XFR- of Tao Shi sale The pollution-resistant reverse osmosis membrane of the models such as 400/34i, with producing water water quality is high, antifouling property is strong, salt rejection rate is stablized 99.5% or so, the advantages that cost is reduced.
Pollution-resistant RO film device uses two sections of level-one, and section-between boosting measure is taken in two sections of water inlets, and membrane module is matched according to 2:1 It sets, and concentrate recirculation is set.
Reaction of high order sedimentation basin, chemical tendering produce pond, NF produces pond etc. and uses reinforced concrete structure, and takes suitable The anticorrosive measure of suitable water quality requirement.
More medium filter, material are carbon steel line with rubber, and inner stuffing is the quartz sand that partial size is 0.6-0.8mm and partial size is The anthracite of 0.8-1.2mm.
NF device is the NF film of commercially available GE company, membrane area 34.3m2/, design flux is 16LMH, Rate of recovery >=70%, NF membrane material is polyamide composite film
SWRO device is commercially available Hydranautics SWC 5MAX seawater desalination reverse osmosis membrane component, and the rate of recovery is 50%, material is the compound seawater reverse osmosis membrane of polyamide, and design flux is 14.3LMH, and monofilm area is 37.2m2
Energy recycle device can be commercially available Work-exchange type energy recovery device, can be ERI company, the U.S. PX (Pressure Exchanger) pressure exchanger (PX-220), CALDER AG company, Switzerland DWEER (Work Exchange Energy Recovery) function exchanger, Norway A Keling Recuperator energy regenerating tower, Hang Zhoushui The differential pressure exchange type energy recovery device (ER-CY) of Processing Technology Research development centre.
Booster pump is commercially available frequency-changing horizontal centrifugal pump, and material is duplex stainless steel 2205.
The steel and iron industry method for treating strong brine of the utility model, includes the following steps:
(1) strong brine reverse osmosis treatment:
The strong brine (strong brine processing system water inlet) that level-one RO is generated, after adding antisludging agent and non oxidizing bactericide, Through strong brine RO water supply pump (being derived from strong brine pond) enter cartridge filter, filtering produce water by high-pressure pump enter RO film device into Row processing, concentrated water that treated enter the concentration brine pit in NF system, produce water and enter new pond;
(2) nanofiltration is handled:
Through RO film device treated concentrated water the enters concentration brine pit in NF system in step (1), in NF conditioning tank The concentrated water that coking, cold rolling wastewater processing generate enters the concentration brine pit in NF system, and the water in brine pit is concentrated by supplying water Pump enters reaction of high order sedimentation basin and carries out chemical tendering, meanwhile, lime, soda ash, PAC, PAM feeding mechanism and H2SO4Feeding mechanism Lime, soda ash, PAC, PAM and H are launched into reaction of high order sedimentation basin2SO4, it is discharged through sulphur H2SO4Acid etc. enters change after adjusting pH It learns softening and produces pond, the production water that chemical tendering produces pond enters more medium filter through NF water supply pump, and more medium filter produces water Into cartridge filter, antisludging agent, reducing agent and non oxidizing bactericide chemical feeding points are set before cartridge filter, through NF high-pressure pump Into NF device, NF produces water and enters NF production pond, and concentrated water then enters NF concentrated water pond;
(3) reverse osmosis seawater desalting is handled:
The production water of step (2) NF enters NF and produces pond, enters cartridge filter by SWRO water supply pump, cartridge filter Water outlet a part directly enters SWRO device by high-pressure pump pressurization and is handled, and a part adds through energy recycle device and booster pump Enter (low pressure water inlet) SWRO device after pressure, the production water of SWRO device enters new pond, the SWRO concentrated water of SWRO device generation into Enter energy recycle device, in energy recycle device, low pressure intakes to obtain the pressure energy of high pressure concentrated water water inlet, flows out energy with high pressure water Recyclable device is measured, enters SWRO device through booster pump, carries out concentration, and high pressure concentrated water influent pressure can be absorbed, with low pressure The form of concentrated water is discharged into concentrated water pond;
Brine pit is concentrated and is equipped with undercurrent mixer, guarantees that dense brine pit water quality is uniform, is entered by water supply pump multistage anti- Answer sedimentation basin;
High-pressure pump and energy recycle device, booster pump (energy recycle device and pressurization series connection of pumps) in SWRO system are simultaneously Connection, the water outlet of cartridge filter, a part directly enter SWRO film device by high-pressure pump pressurization, and a part is filled through energy regenerating Set, booster pump pressurization enters SWRO film device, SWRO concentrated water is discharged into concentrated water pond through energy recycle device.
Embodiment 1
Strong brine RO water supply pump 2 selects the RO water supply pump of east pump industry model DFWH200-315, strong brine security personnel's filtering Device 3 selects the cartridge filter of the replaceable cassette filter core of Fiss Fu Er big flow, model PF-SWV40-4VDFE08W, dense salt Water RO high-pressure pump 4 selects the high-pressure pump of Sulzer model A32-80SO, and concentrated water RO device 5 selects Tao Shi model BW30FR- The pollution-resistant RO film of 400/34i, the strong brine RO processing unit that new pond 6, concentration brine pit 7 are constituted.Wherein strong brine pond 1 It is connect with strong brine RO water supply pump 2 by pipeline, strong brine RO water supply pump 2 is connected with strong brine cartridge filter 3, strong brine Cartridge filter 3 is connect with strong brine RO high-pressure pump 4, and strong brine RO high-pressure pump 4 is connected with concentrated water RO device 5 by pipeline, Concentrated water RO device 5 is connected with new pond 6, concentration brine pit 7 respectively by pipeline.NF conditioning tank 8, water supply pump 9 and NF supply water Pump 13 selects the centrifugal pump of horizontal axis of east pump industry model DFW200-250/4/30,10 reaction of high order sedimentation basins, 11 chemical tenderings Pond, 12 sludge-tanks are produced, more medium filter 14 buys the model DN3000 of Jiangsu Wen Bo environmental protection equipment Co., Ltd sale Steel lining glue material matter more medium filter, NF cartridge filter 15 select the replaceable cassette filter core of Fiss Fu Er big flow guarantor Pacify filter, model PF-SWV40-2VDFE05, NF high-pressure pump 16 is using Sulzer model SNS-4-40 (125- Centrifugal pump of horizontal axis 40-315), NF film 17 select the rich membrane component of resistance to TMXC-N of Tao Shi FILMTECTM, and NF concentrated water pond 18 and NF are produced Pond 19 constitutes NF processing unit.Wherein, conditioning tank 8 by pipeline with concentration brine pit 7 be connected, be concentrated brine pit 7 and Reaction of high order sedimentation basin 10 is connected by pipeline and water supply pump 9, and reaction of high order sedimentation basin 10 produces pond 11 with chemical tendering and passes through Pipeline connection, sludge-tank 12 are connect by pipeline with reaction of high order sedimentation basin 10, and chemical tendering produces the water outlet of pond 11 and supplies water through NF Pump 13 enters more medium filter 14, and NF cartridge filter 15 is connect by pipeline with more medium filter 14, multi-medium filtering The water outlet of device 14 enters NF device 17 through NF high-pressure pump 16, and NF device 17 is connect by pipeline with NF concentrated water pond 18 and production pond 19. SWRO water supply pump 20 selects the centrifugal pump of horizontal axis of east pump industry model DFW200-250/4/30, sea water desalination cartridge filter 21 use the cartridge filter of the replaceable cassette filter core of Fiss Fu Er big flow, model PF-SWV40-2VDFE05, SWRO high Press pump 22 selects the centrifugal pump of horizontal axis of Sulzer model MBN50-125, and energy recycle device 23 is using ERI company, the U.S. PX energy recycle device, booster pump 24 select is model ZE50-2200 Sulzer centrifugal pump of horizontal axis, SWRO device 25 Using the SWC 5MAX membrane component of Hydranautics company, SWRO concentrated water pond 26 constitutes SWRO processing unit.Wherein, NF produces water The water outlet of pond 19 enters sea water desalination cartridge filter 21, the 21 a part water outlet of sea water desalination cartridge filter through SWRO water supply pump 20 It is directly entered SWRO device 25 through SWRO high-pressure pump, another part water outlet enters energy recycle device 23 by pipeline, absorbs pressure Enter SWRO device 25 after energy under the effect of booster pump 24, energy recycle device 23 passes through pipeline and new pond 6 and SWRO concentrated water Pond 26 connects.
The strong brine that certain steel Quality Products Base project sewage treatment plant is generated using above-mentioned apparatus processing level-one RO, strong brine Handle raw water amount 10500m3/ d, strong brine TDS concentration 7942mg/L of intaking, total hardness is (with CaCO3Meter) 2880mg/L, chloride ion 2362mg/L, conductivity 12.5mS/cm.Above-mentioned strong brine is through concentrated water RO unit, NF unit and SWRO cell processing.
New 6 water yield of pond of the present embodiment is 6400m3Between 7-9, TDS concentration mean value is 49.6mg/L by/d, pH, is produced The water hardness < 10mg/L, conductivity mean value are stablized in 200 μ S/cm, and chlorine ion concentration mean value is 30mg/L, and is discharged COD and stablizes 10mg/L or so.It is dirty that strong brine water outlet after concentrated water RO system, NF system, the processing of SWRO system meets steel Quality Products Base project Water treatment plant's industrial fresh water water quality requirement.
Embodiment 2
Strong brine RO water supply pump 2 selects the high-pressure pump of east pump industry model DFWH150-315, strong brine cartridge filter 3 select the cartridge filter of the replaceable cassette filter core of Fiss Fu Er, and strong brine RO high-pressure pump 4 selects Sulzer model SNS4- 65 high-pressure pump, concentrated water RO device 5 select the BW30FR-400 pollution-resistant RO film of Tao Shi sale, new pond 6, concentration brine pit The 7 strong brine RO processing units constituted.NF conditioning tank 8, water supply pump 9 and NF water supply pump 13 select east to pump industry model The centrifugal pump of horizontal axis of DFW200-250/4/30,10 reaction of high order sedimentation basins, 11 chemical tenderings produce pond, 12 sludge-tanks, multimedium Filter 14 buys the multimedium mistake of the steel lining glue material matter of the model DN3000 of Jiangsu Wen Bo environmental protection equipment Co., Ltd sale Filter, NF cartridge filter 15 select the cartridge filter of the replaceable cassette filter core of Fiss Fu Er big flow, model PF- SWV40-2VDFE05, NF high-pressure pump 16 using Sulzer model SNS-4-40 (125-40-315) centrifugal pump of horizontal axis, NF film 17 selects the Durafoul NF8040F membrane component of GE company, and NF concentrated water pond 18 and NF produce pond 19 and constitute NF processing list Member.SWRO water supply pump 20 selects the centrifugal pump of horizontal axis of east pump industry model DFW200-250/4/30, and cartridge filter 21 uses The cartridge filter of the replaceable cassette filter core of Fiss Fu Er big flow, model PF-SWV40-2VDFE05, SWRO high-pressure pump 22 Select Sulzer model MBN50-125 centrifugal pump of horizontal axis, energy recycle device 23 using ERI company, the U.S. PX energy Recyclable device is measured, what booster pump 24 was selected is the Sulzer centrifugal pump of horizontal axis of model ZE50-2200, what SWRO device 25 used It is the SWC 5MAX membrane component of Hydranautics company, SWRO concentrated water pond 26 constitutes SWRO processing unit.
Wherein strong brine pond 1 is connect with strong brine RO water supply pump 2 by pipeline, the reverse osmosis water supply pump 2 of strong brine and dense salt Water cartridge filter 3 is connected, and strong brine cartridge filter 3 is connect with high-pressure pump 4, and high-pressure pump 4 and concentrated water RO device 5 pass through pipe Road is connected, and concentrated water RO device 5 is connected with new pond 6, concentration brine pit 7 respectively by pipeline.Conditioning tank 8 by pipeline with Concentration brine pit 7 is connected, and concentration brine pit 7 is connect with reaction of high order sedimentation basin 10 by pipeline and water supply pump 9, reaction of high order Sedimentation basin 10 produces pond 11 with chemical tendering and is connect by pipeline, and sludge-tank 12 is connected by pipeline and reaction of high order sedimentation basin 10 It connects, chemical tendering produces the water outlet of pond 11 and enters more medium filter 14 through NF water supply pump 13, and NF cartridge filter 15 passes through pipeline It is connect with more medium filter 14, the water outlet of more medium filter 14 enters NF device 17 through NF high-pressure pump 16, and NF device 17 passes through Pipeline is connect with NF concentrated water pond 18 and production pond 19.NF produces the water outlet of pond 19 and ensured public security through SWRO water supply pump 20 into sea water desalination Filter 21, the 21 a part water outlet of sea water desalination cartridge filter are directly entered SWRO device 25, another part through SWRO high-pressure pump Water outlet enters energy recycle device 23 by pipeline, enters SWRO device 25, energy under the effect of booster pump 24 after absorbing pressure energy Recyclable device 23 is connect by pipeline with new pond 6 and SWRO concentrated water pond 26.
Certain water factory is using the strong brine generated after the processing RO processing of above-mentioned strong brine processing unit, strong brine treating capacity 300m3/ h, TDS concentration 5329mg/L, chlorine ion concentration 1673mg/L, conductivity 8.8mS/cm, hardness 2011mg/L.It is above-mentioned Strong brine is through concentrated water RO unit, NF unit and SWRO cell processing.
New 6 stable water production of pond of the present embodiment is in 165m3/ h produces water pH and stablizes 7 or so, and producing water TDS concentration mean value is 48.3mg/L, chlorine ion concentration 24mg/L, conductivity are down to 130 μ S/cm, hardness < 9.3mg/L, and water outlet meets the dense salt of water factory Water quality requirement after water process.
The device of the utility model has stable, efficient process performance to strong brine.
In the method for treating strong brine of the utility model, in the reaction of high order sedimentation basin in NF system, by adding stone The medicaments such as ash, soda ash, coagulant, flocculant make it through mixing, reaction, flocculation, precipitating performance except hard, clear effect;It is logical Production water after crossing chemical tendering production pond softening goes fine particle, suspended matter, colloid in water removal etc. miscellaneous through more medium filter Matter guarantees that water outlet meets the requirement of NF water inlet, water is produced after the processing of antisludging agent, reducing agent and non oxidizing bactericide, by protecting After pacifying filter, NF device is entered by NF high-pressure pump and further removes hardness, COD, suspended matter and divalent ion etc.;SWRO system System produces water to NF and is further processed, and energy recycle device is arranged, and recycles the energy of strong brine, and SWRO concentrated water water quality meets The expendable for smelting production link utilizes, and produces water into new pond.
Although above having made detailed description to the utility model with generality explanation and specific embodiment, Above-described specific implementation example is only that the embodiments of the present invention is described, not to the utility model Range is defined.On the basis of the utility model, to those skilled in the art to the various changes and improvements of the utility model, Belong to the range of the requires of the utility model protection.

Claims (10)

1. a kind of steel and iron industry strong brine processing unit, it is characterised in that: the processing unit successively includes: that strong brine is reverse osmosis System, nanofiltration system, reverse osmosis seawater desalination system, nanofiltration concentrated water pond and new pond, strong brine counter-infiltration system and nanofiltration system System is connected, and nanofiltration system is connected with nanofiltration concentrated water pond and reverse osmosis seawater desalination system respectively, reverse osmosis seawater desalting system System is connected with new pond;
The strong brine counter-infiltration system is sequentially connected by pipeline: strong brine pond, was ensured public security at the reverse osmosis water supply pump of strong brine Filter, high-pressure pump, reverse osmosis membrane apparatus, wherein strong brine pond is connected by the reverse osmosis water supply pump of strong brine with cartridge filter Connect, cartridge filter is connected with reverse osmosis membrane apparatus by high-pressure pump and pipeline, reverse osmosis membrane apparatus by pipeline respectively with Concentration brine pit in nanofiltration system is connected with new pond, and antisludging agent and non oxidizing bactericide are provided with before cartridge filter Chemical feeding points;
The nanofiltration system is sequentially connected by pipeline: nanofiltration conditioning tank, concentration brine pit, water supply pump, reaction of high order precipitating Pond, chemical tendering produce pond, nanofiltration water supply pump, more medium filter, cartridge filter, nanofiltration high-pressure pump, nanofiltration device, sludge Pond, sludge dewatering system, auxiliary equipment;Wherein, the auxiliary equipment includes lime, soda ash, aluminium polychloride and polyacrylamide Amine chemicals dosing plant, polyacrylamide chemicals dosing plant, sulfuric acid chemicals dosing plant, antisludging agent, reducing agent, non oxidizing bactericide dosing dress It sets;Reaction of high order sedimentation basin is connected with lime, soda ash, aluminium polychloride and polyacrylamide chemicals dosing plant and sulfuric acid chemicals dosing plant It connects, sludge-tank is connected with polyacrylamide chemicals dosing plant, and antisludging agent is arranged between cartridge filter and more medium filter, goes back Former agent, non oxidizing bactericide chemicals dosing plant;Concentration brine pit be connected respectively with nanofiltration conditioning tank and water supply pump, water supply pump with Reaction of high order sedimentation basin is connected, and reaction of high order sedimentation basin produces pond with chemical tendering respectively and sludge-tank is connected, sludge-tank It is connected with sludge dewatering system, chemical tendering produces pond and is connected with nanofiltration water supply pump, nanofiltration water supply pump and multi-medium filtering Device is connected, and more medium filter is connected with cartridge filter, and cartridge filter passes through nanofiltration high-pressure pump and nanofiltration device phase Connection, nanofiltration device produce pond with the nanofiltration in nanofiltration concentrated water pond and reverse osmosis seawater desalination system respectively and are connected;
The reverse osmosis seawater desalination system is sequentially connected by pipeline: nanofiltration produce pond, reverse osmosis seawater desalting water supply pump, Cartridge filter, high-pressure pump, energy recycle device, booster pump, reverse osmosis desalination device, concentrated water pond;It is logical that nanofiltration produces pond Reverse osmosis seawater desalting water supply pump is crossed to be connected with cartridge filter, cartridge filter respectively with high-pressure pump and energy recycle device It is connected, high-pressure pump is connected with reverse osmosis desalination device, and energy recycle device is light by booster pump and reverse osmosis seawater Makeup, which is set, to be connected, and energy recycle device is also directly connected with reverse osmosis desalination device and concentrated water pond respectively, reverse osmosis Desalination plant is connected with new pond.
2. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the concentration brine pit is equipped with latent Flow mixer.
3. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the energy recycle device is positive It is displaced energy recycle device.
4. steel and iron industry strong brine processing unit as claimed in claim 3, it is characterised in that: the energy recycle device is beauty The PX pressure exchanger of ERI company, state, the DWEER function exchanger of CALDER AG company, Switzerland, Norway A Keling Recuperator energy regenerating tower, Hangzhou Water Treatment Technological Research Development Center differential pressure exchange type energy recovery device.
5. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the strong brine counter-infiltration system In high-pressure pump, the nanofiltration high-pressure pump in nanofiltration system and the high-pressure pump in reverse osmosis seawater desalination system type selecting according to dense The reverse osmosis rate of recovery 70% of salt water configures.
6. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the reverse osmosis membrane apparatus uses Two sections of level-one, section-between boosting measure is taken in two sections of water inlets, and membrane module is configured according to 2:1.
7. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the reverse osmosis membrane apparatus is selected Pollution-resistant reverse osmosis membrane is handled, the reverse osmosis rate of recovery >=70% of strong brine.
8. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: be arranged before the cartridge filter Chemicals dosing plant.
9. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the antisludging agent, reducing agent, non- Oxidizing bactericide chemicals dosing plant has the ability for continuously adding medicament.
10. steel and iron industry strong brine processing unit as described in claim 1, it is characterised in that: the antisludging agent, reducing agent, Non oxidizing bactericide chemicals dosing plant has the ability that fungicide is added toward new pond and concentration brine pit.
CN201821621086.XU 2017-12-27 2018-10-08 A kind of steel and iron industry strong brine processing unit Active CN209428272U (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
CN201711450200 2017-12-27
CN2017114502007 2017-12-27

Publications (1)

Publication Number Publication Date
CN209428272U true CN209428272U (en) 2019-09-24

Family

ID=64544369

Family Applications (2)

Application Number Title Priority Date Filing Date
CN201821621086.XU Active CN209428272U (en) 2017-12-27 2018-10-08 A kind of steel and iron industry strong brine processing unit
CN201811165475.0A Pending CN108975565A (en) 2017-12-27 2018-10-08 A kind of steel and iron industry strong brine processing unit and method

Family Applications After (1)

Application Number Title Priority Date Filing Date
CN201811165475.0A Pending CN108975565A (en) 2017-12-27 2018-10-08 A kind of steel and iron industry strong brine processing unit and method

Country Status (1)

Country Link
CN (2) CN209428272U (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110422936A (en) * 2019-08-08 2019-11-08 山东泰和水处理科技股份有限公司 A kind of processing method of reverse osmosis concentrated water

Also Published As

Publication number Publication date
CN108975565A (en) 2018-12-11

Similar Documents

Publication Publication Date Title
CN102807296A (en) Process for deeply treating and recycling high-salinity industrial waste water
CN103619452A (en) Osmotic separation systems and methods
CN104276711A (en) Reverse osmosis membrane treatment process for recycling industrial sewage and realizing zero release
CN108996791B (en) Novel process for seawater desalination and comprehensive utilization
CN106746120A (en) A kind of technique of zero discharge of the biochemical tailrace advanced treatment of Coal Chemical Industry
CN206266392U (en) A kind of papermaking wastewater zero-discharge treatment system
CN108083552A (en) A kind of processing method of textile waste
CN203700070U (en) Device for mixing and recycling steel waste water and municipal sewage
CN209428272U (en) A kind of steel and iron industry strong brine processing unit
CN203360192U (en) Treatment device for difficultly degradable industrial wastewater
CN108409050B (en) Zero-emission treatment process for high-salinity wastewater
CN206886885U (en) A kind of hotting mask coupling seawater desalination plant
CN105293787B (en) A kind of cold rolling alkalescence waste discharge advanced treatment recycling technique system and method
CN203807297U (en) Sewage treatment and sea water desalting device
CN106966536A (en) Strong brine zero-emission film concentration technology and equipment
CN107117755B (en) High ammonia-nitrogen wastewater treatment and ammonia recovery system and method
CN105668942B (en) A kind for the treatment of process of high concentration and refractory organic wastewater
CN209368040U (en) A kind of highly mineralized mine water near-zero release processing and comprehensive resource utilize system
CN202265468U (en) Equipment for deeply treating and recovering heavy metal waste water with zero discharge
CN207596652U (en) A kind of highly mineralized mine water near-zero release comprehensive resource PDCES processing systems
CN205528115U (en) High intensive pretreatment systems who contains salt industrial waste water
CN206156979U (en) High processing apparatus who contains salt difficult degradation saccharin industrial waste water waste gas
CN206359382U (en) A kind of steel plant&#39;s high rigidity high alkalinity strong brine processing unit
CN109205944A (en) A kind of pharmacy waste water divides salt processing method
CN109205866A (en) Soften pretreated high saliferous industrial wastewater electrodialysis concentration systems and method without dosing

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant