CN108314113A - A kind of method of ammonium salt-containing wastewater treatment - Google Patents

Abstract

The present invention relates to sewage treatment fields, disclose a kind of method of ammonium salt-containing wastewater treatment, this method includes that waste water is passed through the first evaporation of MVR vaporising devices progress to obtain the first steam containing ammonia and the first concentrate, first concentrate is passed through successively in each effect evaporator of multi-effect evaporating device and carries out the second evaporation, the second steam containing ammonia is obtained in each effect evaporator, and obtains the second concentrate in last 1st effective evaporator；Before waste water is passed through MVR vaporising devices, the pH value for adjusting waste water is more than 9；Before waste water is passed through MVR vaporising devices and multi-effect evaporating device, ammonia steam will be contained and carry out heat exchange with waste water and obtain ammonium hydroxide；Described first evaporates so that the solid content in first concentrate is 50 mass % or less.The present invention provides treatment method for high-salinity wastewater containing ammonium a kind of at low cost and environmentally friendly, this method can recycle ammonium and salt in waste water, farthest recycle the resource in waste water, and near-zero release may be implemented.

Description

A kind of method of ammonium salt-containing wastewater treatment

Technical field

The present invention relates to sewage treatment fields, and in particular, to a kind of method of ammonium salt-containing wastewater treatment, more particularly to A method of the processing of high-salt wastewater containing ammonium.

Background technology

In the production process of oil refining catalyst, a large amount of sodium hydroxide, hydrochloric acid, sulfuric acid, ammonium salt, sulfate, salt are needed The inorganic acids alkali salt such as hydrochlorate generates and largely contains ammonium, sodium sulphate and sodium chloride and alumino-silicate combined sewage.For such Sewage, common practice is first in the range of adjusting pH value to 6~9, after removing most suspended substances, then to adopt in the prior art The removing of ammonium ion is carried out with biochemical process, blow-off method or vaporizing extract process, then, by saline sewage through overregulating pH value, the big portion of removing Divide suspended matter, remove hardness, except silicon and partial organic substances and then by ozone biological activated carbon adsorption and oxidation or other advanced oxygen Change method oxidation removal major part organic matter, then, after further removing hardness into ion interchange unit, into thickening device After (such as reverse osmosis and/or electrodialysis) concentration, then using MVR evaporative crystallizations or multiple-effect evaporation crystallization, obtain the sulphur containing a small amount of ammonium salt Sour sodium and sodium chloride mixing carnallite；Either；First adjust pH value in the range of 6.5~7.5, removing most suspended substances, so Afterwards, it removes hardness, remove silicon and partial organic substances, gone using ozone biological activated carbon adsorption and oxidation or the oxidation of other advanced oxidation processes It is (such as reverse osmosis and/or electric into thickening device after further removing hardness into ion interchange unit after most of organic matter Dialysis) after concentration, then crystallized using MVR evaporative crystallizations or multiple-effect evaporation, sodium sulphate and the sodium chloride mixing for obtaining ammonium salt-containing are miscellaneous Salt.But these carnallites containing ammonium are difficult to handle at present, or the processing cost is high, also, the process of removing early period ammonium ion, Add additional the processing cost of waste water.

In addition, biochemical process deamination can only handle the waste water of low ammonium content, and due to COD contents deficiency in Catalyst sewage Biochemical treatment cannot be directly carried out, machine object, such as glucose or starch are also additionally supplemented with during biochemical treatment, just may be used To handle ammoniacal nitrogen using biochemical process.Sixty-four dollar question is biochemical process deamination treated waste water often total nitrogen (nitre not up to standard Acid ion, nitrite ion content are exceeded), it is also necessary to advanced treating, in addition the content of salt is not reduced in waste water (20000mg/L~30000mg/L), is unable to direct emission, needs further to carry out desalting processing.

Air- extraction deamination needs to add a large amount of adjusting PH with base value, alkaline consumption is very high, due to de- to deviate from the ammoniacal nitrogen in waste water The alkali in waste water after ammonia cannot recycle, and treated, and pH value of waste water is very high, and the processing cost is high, and air lift rear catalyst is dirty The not big variation of COD contents in water, the salt content in waste water do not reduce (20000mg/L~30000mg/L), Bu Nengzhi Running in and put, needs further to carry out desalting processing, wastewater treatment operating cost is high, and a large amount of alkali is remained in treated waste water, PH value is very high, and waste is big, and processing cost is up to 50 yuan/ton.

Invention content

It is an object of the invention to overcome the problems, such as that the processing cost of high-salt wastewater containing ammonium is high in the prior art, provide it is a kind of at This low and environmentally friendly treatment method for high-salinity wastewater containing ammonium, this method can recycle ammonium and salt in waste water, farthest sharp again With the resource in waste water, and near-zero release may be implemented.

To achieve the goals above, the present invention provides a kind of method of ammonium salt-containing wastewater treatment, and this method includes by waste water Be passed through MVR vaporising devices and carry out the first evaporation and obtain the first steam containing ammonia and the first concentrate, then by first concentrate according to Secondary be passed through in each effect evaporator of multi-effect evaporating device carries out the second evaporation, and second is respectively obtained in each effect evaporator and is steamed containing ammonia Vapour, and the second concentrate is obtained in last 1st effective evaporator, wherein before the waste water is passed through MVR vaporising devices, The pH value for adjusting the waste water is more than 9；Before the waste water is passed through MVR vaporising devices, by first steam containing ammonia with The waste water carries out the first heat exchange and obtains the first ammonium hydroxide；The second steam containing ammonia that preceding 1st effective evaporator is evaporated is sent into The second heat exchange is carried out with first concentrate and obtain the second ammonium hydroxide, first concentrate and institute in 1st effective evaporator afterwards State the second cocurrent heat exchange of steam containing ammonia；Also, described first evaporates so that the solid content in first concentrate is 50 Quality % or less.

Through the above technical solutions, by waste water being obtained after pH value is adjusted to specific range, MVR being recycled to steam in advance Transmitting apparatus and multi-effect evaporating device carry out the first evaporation and the second evaporation to waste water, complete the process of separation of ammonia and salt, and adopt Make waste water heating and steam cooling containing ammonia simultaneously with heat exchange method, be not necessarily to condenser, rationally utilizes the heat in evaporation process, It is energy saving, cost for wastewater treatment is reduced, the ammonium in waste water is recycled in the form of ammonium hydroxide, and salt is with without ammonium or containing the miscellaneous of a small amount of ammonium Salt crystal form recycles, and whole process does not have waste residue and liquid generation, realizes the purpose to turn waste into wealth, disregards the resource of recycling The processing cost of value, waste water per ton is less than steam air lift deamination method.Also, technical scheme of the present invention first carries out waste water One evaporation carry out the second evaporation again, so as to obtain the higher ammonium hydroxide of concentration in the first evaporation step, convenient for it is subsequent again It utilizes.

Further, the present invention returns to evaporation process by the waste water during detaching crystal, washing crystal etc., and It is discharged after the exhaust gas of the processes such as heat exchange is absorbed, so as to realize the near-zero release of processing procedure, to the maximum extent It reduces environmental pollution.

Other features and advantages of the present invention will be described in detail in subsequent specific embodiment part.

Description of the drawings

Attached drawing is to be used to provide further understanding of the present invention, an and part for constitution instruction, with following tool Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings：

Fig. 1 is a kind of flow diagram of the wastewater treatment method of embodiment provided by the invention.

Reference sign

1, multi-effect evaporating device 2, MVR vaporising devices

31, the first heat-exchanger rig 32, the second heat-exchanger rig

33, third heat-exchanger rig 4, vacuum receiver

51, tank used for storing ammonia 52, ammonium hydroxide collecting tank

53, brilliant liquid collecting tank 61, the first pH value measuring device

62, the second pH value measuring device 71, first circulation pump

72, second circulation pump 73, third circulating pump

74, the 4th circulating pump 75, the 5th circulating pump

81, vacuum pump 82, circulating water pool

83, tail gas absorber 9, equipment for separating liquid from solid

10, compressor

Specific implementation mode

The specific implementation mode of the present invention is described in detail below.It should be understood that described herein specific Embodiment is merely to illustrate and explain the present invention, and is not intended to restrict the invention.

The endpoint of disclosed range and any value are not limited to the accurate range or value herein, these ranges or Value should be understood as comprising the value close to these ranges or value.For numberical range, between the endpoint value of each range, respectively It can be combined with each other between the endpoint value of a range and individual point value, and individually between point value and obtain one or more New numberical range, these numberical ranges should be considered as specific open herein.

Below in conjunction with Fig. 1, the present invention will be described, and the present invention is not limited by Fig. 1.

The method of ammonium salt-containing wastewater treatment provided by the invention, this method include that waste water is passed through MVR vaporising devices 2 to carry out First evaporates the first steam containing ammonia and the first concentrate, then first concentrate is passed through to each effect of multi-effect evaporating device successively The second evaporation is carried out in evaporator, respectively obtains the second steam containing ammonia in each effect evaporator, and in last 1st effective evaporator In obtain the second concentrate, wherein before the waste water is passed through MVR vaporising devices 2, the pH value for adjusting the waste water is more than 9；Before the waste water is passed through MVR vaporising devices 2, first steam containing ammonia and the waste water are subjected to the first heat exchange And obtain the first ammonium hydroxide；With described the in 1st effective evaporator after the second steam containing ammonia that preceding 1st effective evaporator is evaporated is sent into One concentrate carries out the second heat exchange and obtains the second ammonium hydroxide, and first concentrate and the second steam containing ammonia cocurrent heat are handed over It changes；Also, described first evaporates so that the solid content in first concentrate is 50 mass % or less.

Preferably, before the waste water is passed through MVR vaporising devices 2, the pH value for adjusting the waste water is more than 10.8.

In the present invention, it is to be understood that first steam containing ammonia and second steam containing ammonia are this field So-called indirect steam.First concentrate and the second steam containing ammonia cocurrent heat exchange are referred to using in multiple-effect evaporation Forward flow process.

The present invention is adjusted to strong basicity by the above method, by the pH value of the waste water, and passes through 2 He of MVR vaporising devices Multi-effect evaporating device 1 carries out the first evaporation and the second evaporation, and the ammonium ion contained in the waste water is converted into ammonia and steams, obtains The steam that arrives and the waste water carry out heat exchange, and heated waste water while makes steam cool down to obtain ammonium hydroxide, realize ammonia and salt It recycles simultaneously, and takes full advantage of the heat in evaporation process.

In the present invention, there is no particular limitation for the MVR vaporising devices 2, can be commonly used in the art various MVR vaporising devices.Such as can be selected from MVR falling film evaporators, MVR forced-circulation evaporators, the evaporation of MVR-FC continuous crystallisations It is one or more in device, MVR-OSLO continuous crystallisation evaporators.Wherein, preferably MVR forced-circulation evaporators, MVR-FC connect Continuous crystallizing evaporator, more preferably falling liquid film+forced circulation two-stage MVR crystallizing evaporators.

In the present invention, there is no particular limitation for the first evaporation conditions of the MVR vaporising devices 2, can be as needed Appropriate selection.In order to improve the evaporation efficiency of the first evaporation, the condition of preferably described first evaporation includes：Temperature be 30 DEG C with On, the pressure in terms of gauge pressure is -98kPa or more；More preferably it is described first evaporation condition include：Temperature is 50 DEG C~130 DEG C, Pressure in terms of gauge pressure is -93kPa~117kPa；Further preferably it is described first evaporation condition include：Temperature be 60 DEG C~ 130 DEG C, the pressure in terms of gauge pressure is -87kPa~117kPa.The ability that the flow of first evaporation can be handled according to equipment is appropriate Selection, such as can be 0.1m³/ h or more (such as 0.1m³/ h~500m³/h)。

In the present invention, it is evaporated by controlling described first so that the solid content in first concentrate is 50 matter % or less (preferably 20 mass % are hereinafter, be more preferably free of solid) is measured, the first concentrate does not lose flowability, and can follow It is sent directly under the action of ring pump in multi-effect evaporating device 1 and carries out the second evaporation.Preferably, first evaporation does not make described the One concentrate reaches supersaturation (solid content of i.e. described first concentrate is 0), is not in crystallization in the first concentrate, more Add the conveying for facilitating the first concentrate.

In the present invention, there is no particular limitation for the degree of first evaporation, in order to obtain the ammonium hydroxide of higher concentration, the The cycles of concentration of one evaporation is preferably 1.2-1.3 times, more preferably 1.05-1.2 times.It is preferred that by suitably adjusting cycles of concentration, The concentration of the first ammonium hydroxide made reaches 3 times or more of waste water ammonia density before evaporation, more preferably by suitably adjusting concentration times Number, so as to get the concentration of the first ammonium hydroxide reach 5-20 times of waste water ammonia density before evaporation.Pass through the adjustment concentration of the first evaporation Multiple can adjust the concentration of the first ammonium hydroxide in a certain range, and thus, it is possible to the recyclings convenient for ammonium hydroxide.

In the present invention, for the method for pH value adjusting, there is no particular limitation, such as can use additional basic species The mode of matter adjusts the pH value of the waste water.There is no particular limitation for the alkaline matter, achievees the purpose that above-mentioned adjusting pH value .In order not to introduce new impurity in waste water, the alkaline matter is preferably positive with the salt metal having the same in waste water Ion.For example, in the case of containing a large amount of alkali metal cations in waste water, the alkaline matter is preferably the hydrogen-oxygen of alkali metal Compound (being, for example, NaOH, KOH etc.), specifically, in the case of a large amount of sodium ions are contained in waste water, the alkaline matter is preferred For NaOH.

Feed postition as the alkaline matter is the feed postition of this field routine, but preferably makes alkaline matter It is mixed in form of an aqueous solutions with the waste water, such as the aqueous solution containing alkaline matter can be passed into and import the waste water Pipeline in mixed.For the content of alkaline matter in aqueous solution, there is no particular limitation, as long as can reach above-mentioned Adjust the purpose of pH value.But in order to reduce the dosage of water, further reduce the cost the saturated water, it is preferable to use alkaline matter Solution.In order to monitor the pH value of the waste water, the pH value of the waste water can be measured after above-mentioned adjusting pH value.

According to the present invention, before the waste water is passed through MVR vaporising devices 2, by first steam containing ammonia and the waste water It carries out the first heat exchange and obtains ammonium hydroxide.There is no particular limitation for the mode of first heat exchange, and it is normal that this field may be used The heat exchange mode of rule carries out.The number of the heat exchange can be more than primary, and preferably 2-4 times, more preferably 2-3 times are special It You Xuanwei not be 2 times.By the heat exchange, the ammonium hydroxide of output is cooled, and heat utmostly recycles inside processing unit, closes The energy is utilized in reason, reduces waste.

A preferred embodiment according to the present invention, first heat exchange pass through the first heat-exchanger rig 31 and second Heat-exchanger rig 32 carries out, and specifically, the first steam containing ammonia evaporated in the MVR vaporising devices 2 is passed sequentially through the Two heat-exchanger rigs 32 and the first heat-exchanger rig 31, and waste water is passed sequentially through into the first heat-exchanger rig 31 and the second heat-exchanger rig 32, First heat exchange is carried out by first steam containing ammonia and the waste water, the waste water heating is made to be convenient for evaporating, First steam cooling containing ammonia is set to obtain the first ammonium hydroxide simultaneously, first ammonium hydroxide can be stored in tank used for storing ammonia 51.

A preferred embodiment according to the present invention, first evaporation process can in MVR vaporising devices 2 into Row, before the waste water to be sent into the first heat-exchanger rig 31 and carries out the first heat exchange, by the way that the waste water is being sent into first The aqueous solution containing alkaline matter and mixing are imported in the pipeline of heat-exchanger rig 31, to carry out first time pH value adjusting；And Before the waste water to be sent into the second heat-exchanger rig 32 and carries out the first heat exchange, by the way that the waste water is being sent into the second heat exchange The aqueous solution containing alkaline matter and mixing are imported in the pipeline of device 32, to carry out second of pH value adjusting.Pass through two Secondary pH value is adjusted, and pH value of the waste water before being passed through MVR vaporising devices 2 is made to be more than 9, preferably greater than 10.8.Separately Outside, preferably first time pH value is adjusted so that the pH value of the waste water after adjusting is more than 7 (preferably 7-9), and second of pH value adjusting makes It obtains pH value and is more than 9, preferably greater than 10.8.

The pH value after being adjusted with second of pH value is adjusted in order to detect above-mentioned first time pH value, is preferably sent by the waste water Enter to be arranged on the pipeline of the first heat-exchanger rig 31 first pH value measuring device 61 measure first time pH value adjust after pH value, The waste water is sent on the pipeline of the second heat-exchanger rig 32, second pH value measuring device 62 is set to measure second of pH value tune PH value after section.

In the present invention, in order to improve the salinity of liquid in the MVR vaporising devices 2, the ammonia content in liquid is reduced, It is preferred that the effluent part evaporated by the MVR vaporising devices 2 is returned in the MVR vaporising devices 2.It is above-mentioned to pass through institute The process for stating effluent part back to the MVR vaporising devices 2 of the evaporation of MVR vaporising devices 2 is preferably that will pass through the MVR The effluent part that vaporising device 2 evaporates and the waste water after the adjusting of first time pH value and before being adjusted to second of pH value are mixed It again returns to after conjunction in MVR vaporising devices 2, will be steamed by the MVR vaporising devices 2 for example, 72 can be pumped by second circulation The effluent part of hair returns to mixed with waste water in the waste water conveyance conduit between the first heat-exchanger rig 31 and the second heat-exchanger rig 32 It closes, then after being adjusted by second of pH value, carries out heat exchange in the second heat-exchanger rig 32, be re-fed into the MVR In vaporising device 2.

In the present invention, for first heat-exchanger rig, 31 and second heat-exchanger rig 32, there is no particular limitation, can be with Using various heat exchangers commonly used in the art, reaches first steam containing ammonia and carry out the first heat friendship with the waste water The purpose changed.Specifically, can be jacketed type exchanger, plate heat exchanger, shell-and-tube heat exchanger etc., wherein preferably plate Formula heat exchanger.The material of the heat exchanger can be specifically chosen as needed, such as in order to resist chloride ion corrosion, can be selected Material is the heat exchanger of two phase stainless steel, titanium or titanium alloy, Hastelloy, can be selected containing plastic material when temperature is relatively low Heat exchanger.

It is preferably exchanged heat by described first according to the present invention in order to make full use of the thermal energy of the first steam condensate (SC) containing ammonia After device 31 carries out the first heat exchange, the temperature of the waste water is 30 DEG C or more, preferably 49 DEG C~129 DEG C.

Preferably pass through second heat-exchanger rig 32 according to the present invention in order to make full use of the thermal energy of the first steam containing ammonia After carrying out the first heat exchange, the temperature of the waste water is 49 DEG C~139 DEG C, preferably 59 DEG C~139 DEG C.

In the case of, according to the invention it is preferred to, the method further include after first steam containing ammonia is compressed again Carry out first heat exchange.The compression of first steam containing ammonia can be carried out by compressor 10.By to described first Steam containing ammonia is compressed, to input energy in MVR vaporising devices, ensure the process of waste water heating-evaporation-cooling continuously into Row is needed to input to start steam when MVR evaporation processes start, only be energized by compressor after reaching continuously running state, no longer It needs to input other energy.The compressor 10 may be used various compressors commonly used in the art, such as centrifugal blower, Turbocompressor or lobed rotor compressor etc..After the compression of the compressor 10, the temperature of first steam containing ammonia increases 5 DEG C ~20 DEG C.

In the present invention, there is no particular limitation for the multi-effect evaporating device 1, can be commonly used in the art various Evaporator forms.Such as it can be more selected from downward film evaporator, film-rising evaporator, scraper-type evaporator, standard vertical-tubes Imitate evaporator, basket evaporator, external heating type evaporator, forced-circulation evaporator and one kind or more in Liewen evaporator Kind.Wherein, preferably forced-circulation evaporator, external heating type evaporator.Each effect evaporator of the multi-effect evaporating device 1 respectively by Room and vaporization chamber composition are heated, can also include other evaporation accessories as needed, such as liquid foam is made further to detach Demister, the vacuum plant the etc. when condenser and decompression operation that make indirect steam all condense.The multi-effect evaporating device There is no particular limitation for the 1 evaporator quantity contained, can be 2 effects or more, preferably 2-5 effects, more preferably 3-4 effects.

In the present invention, there is no particular limitation for the evaporation conditions of the multi-effect evaporating device 1, can be appropriate as needed Selection.In order to improve evaporation efficiency, the condition of preferably described second evaporation includes：Temperature is 40 DEG C or more, the pressure in terms of gauge pressure Power is -97kPa or more；It is highly preferred that the condition of second evaporation includes：Temperature is 50 DEG C~180 DEG C, the pressure in terms of gauge pressure Power is -93kPa~750kPa；It is further preferred that the condition of the evaporation includes：Temperature is 60 DEG C~155 DEG C, in terms of gauge pressure Pressure be -87kPa~350kPa.

According to the present invention, in the case where meeting the condition of above-mentioned evaporation, the evaporation item of further preferably each effect evaporator Part meets：The evaporating temperature of 1st effective evaporator is 100 DEG C~180 DEG C, evaporation of the rear 1st effective evaporator than preceding 1st effective evaporator Temperature is 10 DEG C~50 DEG C low；It is highly preferred that the evaporating temperature of 1st effective evaporator is 130 DEG C~155 DEG C, rear 1st effective evaporator ratio The evaporating temperature of preceding 1st effective evaporator is 15 DEG C~46 DEG C low.

In addition, in the present invention, each operating pressure for imitating evaporator by evaporation feed liquid saturated vapor pressure.

In addition, respectively the evaporation capacity of effect evaporator can be identical or different, preferably identical, the total evaporation capacity of the second evaporation can It is suitably selected with the ability and pending wastewater flow rate that are handled according to equipment, such as can be 0.1m³/ h or more (such as 0.1m³/ h~ 500m³/h)。

In the case of in the present invention, it is preferred to, in order to which the waste water to be passed through to each effect evaporation of multi-effect evaporating device 1 successively Circulating pump can be arranged between each effect evaporator in device, and the waste water after the evaporation of preceding 1st effective evaporator is led to by the circulating pump Enter lower 1st effective evaporator.

In the present invention, the circulating pump between selected each effect evaporator can be various forms commonly used in the art Pump, generate a large amount of fine grain cores to make material be uniformly evaporated, avoid, prevent crystal grain and impeller high velocity impact in cycle magma Generate a large amount of secondary nucleus, the circulating pump is preferably the centrifugal pump of the slow-speed of revolution, more preferably big flow, the slow-speed of revolution guide pump Wheel or big flow, low lift, the slow-speed of revolution axial-flow pump.

In the case of, according to the invention it is preferred to, the last 1st effective evaporator of the multi-effect evaporating device 1 evaporate Two steam containing ammonia carry out third heat exchange with cooling water in third heat-exchanger rig 33 and obtain ammonium hydroxide.The third heat-exchanger rig There is no particular limitation, can use various heat exchangers commonly used in the art, reach second steam containing ammonia with it is described Waste water carries out the purpose of heat exchange.Specifically, it can be jacketed type exchanger, plate heat exchanger, shell-and-tube heat exchanger etc., Wherein it is preferably plate heat exchanger.The material of the heat exchanger can be specifically chosen as needed, such as in order to resist chlorion Corrosion, can select material for two phase stainless steel, the heat exchanger of titanium or titanium alloy, Hastelloy, can be selected when temperature is relatively low With the heat exchanger containing plastic material.Preferably, the cooling water is the waste water.When using conventional cooling water, the cooling Water recycles, and when using the waste water as cooling water, the waste water after heat exchange preferably directly returns to processing procedure.

A preferred embodiment according to the present invention, before the waste water is passed through MVR vaporising devices, by multiple-effect The steam containing ammonia that the last 1st effective evaporator of vaporising device 1 evaporates carries out third heat exchange with the waste water and obtains ammonia Water.

According to the present invention, this method further includes crystallizing second concentrate in crystallization apparatus to obtain magma.It is described There is no particular limitation for crystallization apparatus, such as can be brilliant liquid collecting pit, brilliant liquid collecting tank, with stirring thickener or without stirring Thickener etc..There is no particular limitation for the condition of the crystallization, such as may include：Crystallization temperature is 20 DEG C~107 DEG C, crystallization Time is 5min~for 24 hours；It preferably includes：Crystallization temperature is 65 DEG C~85 DEG C, and crystallization time is 10min~30min.

A preferred embodiment according to the present invention, second evaporation process carry out in multi-effect evaporating device 1, The multi-effect evaporating device 1 is made of 1st effective evaporator 1a, 2nd effect evaporator 1b and third effect evaporator 1c.Pass through the 5th First concentrate is passed through the 1st effective evaporator 1a of the multi-effect evaporating device 1 by circulating pump 75 successively, the second effect is evaporated It is evaporated to obtain the second concentrate in device 1b and third effect evaporator 1c.By the first effect evaporation of the multi-effect evaporating device 1 The second steam containing ammonia evaporated in device 1a is passed through 2nd effect evaporator 1b and carries out the second heat exchange with first concentrate And ammonium hydroxide is obtained, the second steam containing ammonia evaporated in 2nd effect evaporator 1b is passed through third effect evaporator 1c and described the One concentrate carries out the second heat exchange and obtains the second ammonium hydroxide, and first concentrate and the second steam containing ammonia cocurrent heat are handed over It changes.Heating steam (life steam i.e. commonly used in the art) is passed through in 1st effective evaporator 1a, heating steam is in the first effect The condensate liquid obtained after being condensed in evaporator 1a can be used for configuring washing brine.Second evaporated in third effect evaporator 1c (it is preferable to use the waste water being passed through before MVR concentration and evaporation devices with cooling water in third heat-exchanger rig 33 for steam containing ammonia As cooling water) it carries out third heat exchange and obtains ammonium hydroxide, and stored in ammonium hydroxide collecting tank 52.First concentrate is in the first effect After being evaporated in evaporator 1a, it is passed through in 2nd effect evaporator 1b and evaporates, be then passed through in third effect evaporator 1c and evaporate again, finally The second obtained concentrate crystallizes in brilliant liquid collecting tank 53 and obtains magma.

In the present invention, the magma obtains crystal after separation of solid and liquid and is separated by solid-liquid separation obtained liquid.It is described solid There is no particular limitation for the method for liquid separation, such as can be selected from one or more in centrifugation, filtering, sedimentation.

In the case of in the present invention, it is preferred to, the magma passes through the liquid that separation of solid and liquid obtains, at least part or complete Portion is back to MVR vaporising devices 2 and carries out the first evaporation again.

A preferred embodiment according to the present invention, as shown in Figure 1, separation of solid and liquid may be used in the separation of solid and liquid Device 9 (preferably centrifuge) carries out, and after the separation of solid and liquid, the liquid being separated by solid-liquid separation all is back to MVR evaporation dresses It sets and carries out the first evaporation again.

According to the present invention, the impurity such as certain free ammonia, hydroxide ion can be adsorbed by being difficult to avoid that on the crystal, in order to The impurity for removing absorption reduces the peculiar smell of solid salt, reduces corrosivity, improves the purity of the crystal, it is preferable that the crystal With water or salt water washing and drying.There is no particular limitation for the brine, can suitably select as needed.In order to avoid washing The dissolving of crystal in the process, it is preferable that the type of the salt in the brine is selected according to the salt contained in the waste water, preferably Contain identical salt with the waste water.It is highly preferred that the brine is preferably saturated brine.It is processed into further decrease This, reduces the use of salt, and the brine is preferably the aqueous solution of the waste water or the crystal, and the more preferably described crystal is satisfied And aqueous solution.In addition, the liquid that washing obtains can be back to multi-effect evaporating device 1 or MVR vaporising devices 2, it is preferable that all It is back to multi-effect evaporating device 1.

In the present invention, before the waste water is handled, vacuum outgas is preferably first carried out.The vacuum outgas can be with It is carried out using vacuum receiver 4.By the vacuum outgas, the gas dissolved in the waste water, such as air, ammonia can be removed Gas etc. ensures that system is reliable and stable during normal operation, reduces the oxygen corrosion that has of system, extension is set so as to prevent vapour lock Standby usage time.The condition of the vacuum outgas includes：Vacuum degree can reach -90kPa~-70kPa, vacuum outgas in terms of gauge pressure Processing speed it is consistent with the fresh feed inlet amount of system, can be 0.1m³/ h or more (such as 0.1m³/ h~500m³/h)。

In the case of in the present invention, it is preferred to, tail gas, first steam containing ammonia that the vacuum outgas is obtained pass through It is remaining by third heat exchange condensation that first heat exchange condenses remaining tail gas and second steam containing ammonia Tail gas discharges after removing ammonia.The tail gas that the tail gas that the vacuum outgas obtains i.e. vacuum receiver 4 is discharged, described first contains ammonia Steam condenses the tail gas that i.e. described second heat-exchanger rig 32 of remaining tail gas is discharged by first heat exchange, and described second steams Vapour condenses the tail gas that remaining tail gas i.e. third heat-exchanger rig 33 is discharged by second heat exchange, by removing above-mentioned tail gas Ammonia can further decrease the pollutant load in emission so that it can direct emission.

As the mode except ammonia, can be absorbed with tail gas absorber 83.The tail gas absorber 83 is without spy Other restriction can be various absorption towers commonly used in the art, such as tray absorption columns, packed absorber, falling film absorption Tower or void tower etc..There is recirculated water in the tail gas absorber 83, the recirculated water is under the action of the 4th circulating pump 74 in tail gas It is recycled in absorption tower 83, water can also be added to tail gas absorber 83 from circulating water pool 82 by third circulating pump 73, recycled Pond 82 can add fresh water, while can reduce by the temperature and ammonia content of 81 work water of vacuum pump.The tail gas absorber The type of flow of 83 inner exhaust gas and recirculated water can adverse current also can cocurrent, preferably adverse current.The recirculated water can be by additional Fresh water is supplemented.In order to ensure that tail gas fully absorbs, dilute sulfuric acid can also be further added in the tail gas absorber 83, To absorb a small amount of ammonia in tail gas etc..The recirculated water can be used as ammonium hydroxide or ammonium sulfate to be back to after absorbing tail gas It produces or sells.As the mode that above-mentioned tail gas is passed through to tail gas absorber 83, can be carried out by vacuum pump 81.

In the present invention, there is no particular limitation for the waste water, as long as the waste water of ammonium salt-containing.In addition, of the invention Waste water be particularly suitable for the high-salt wastewater containing ammonium processing.As the waste water of the present invention, it is specifically as follows from molecular sieve, aluminium oxide Or the waste water of oil refining catalyst production process, can also be will be from molecular sieve, aluminium oxide or oil refining catalyst production process Waste water carries out the waste water after following removal of impurities and concentration.Molecular sieve, aluminium oxide or oil refining catalyst production process will preferably be come from Waste water carry out it is following removal of impurities and concentration after waste water.

In the present invention, the inorganic ion contained in the waste water is in addition to NH₄ ⁺In addition, Na can also be contained⁺、SO₄ ^2-、 Cl^-、NO₃ ^-、NO₂ ^-Plasma.

As the NH in the waste water₄ ⁺Can be 8mg/L or more, preferably 300mg/L or more.

As the Na in the waste water⁺Can be 510mg/L or more, preferably 1000mg/L or more, more preferably 2000mg/L or more, further preferably 4000mg/L or more, further preferably 8000mg/L or more, further preferably 16000mg/L or more, further preferably 32000mg/L or more, further preferably 40000mg/L or more, further preferably For 50000mg/L or more, further preferably 60000mg/L or more.

As the SO in the waste water₄ ^2-Can be 1000mg/L or more, preferably 2000mg/L or more, more preferably 4000mg/L or more, further preferably 8000mg/L or more, further preferably 16000mg/L or more, further preferably 32000mg/L or more, further preferably 40000mg/L or more, further preferably 50000mg/L or more, further preferably For 60000mg/L or more, further preferably 70000mg/L or more.

As the Cl in the waste water^-Can be 970mg/L or more, more preferably 2000mg/L or more, further preferably For 4000mg/L or more, further preferably 8000mg/L or more, further preferably 16000mg/L or more, further preferably It is further excellent for 32000mg/L or more, further preferably 40000mg/L or more, further preferably 50000mg/L or more It is selected as 60000mg/L or more.

The TDS of the waste water can be 1600mg/L or more, preferably 4000mg/L or more, more preferably 8000mg/L with On, further preferably 16000mg/L or more, further preferably 32000mg/L or more, further preferably 40000mg/L More than, further preferably 50000mg/L or more, further preferably 60000mg/L or more, further preferably 100000mg/L or more, further preferably 150000mg/L or more, further preferably 200000mg/L or more.

There is no particular limitation for the upper limit of the inorganic ion contained in the waste water, even if contain in the waste water When inorganic ion is hypersaturated state, method that can also be through the invention is handled.

In the present invention, the pH value of the waste water is preferably 4~7.

In addition, due to the COD of waste water may block up film in concentration, in evaporative crystallization when influence the purity and color and luster etc. of salt, The fewer the COD of the waste water the better, preferably specifically can be used such as bioanalysis, advanced oxidation by oxidation removal in pretreatment The progress such as method, when COD contents are very high preferably use it is oxidizing, the oxidant for example can be Fenton reagent.It is excellent Selection of land, COD contents are 20mg/L hereinafter, more preferably 10mg/L or less.

In addition, Mg can also be contained in the waste water of the present invention²⁺、Ca²⁺、K⁺、Fe³⁺, rare earth element ion etc. and COD etc. it is miscellaneous Matter, the content of above-mentioned impurity usually at 3mg/L~50mg/L (preferably 10mg/L is hereinafter, more preferably 5mg/L or less), these Impurity can be removed by subsequent removal of impurities.

In the present invention, in order to ensure that the continuous-stable of processing procedure carries out, reduction equipment operation maintenance cost is described useless Water using the processing method of the present invention before being handled preferably through removal of impurities.Preferably, the removal of impurities is heavy selected from separation of solid and liquid, chemistry It forms sediment, is in absorption, ion exchange and oxidation one or more.

Can be filtering, centrifugation, sedimentation etc. as the separation of solid and liquid；Can be to adjust as the chemical precipitation PH, carbonate deposition, magnesium salts precipitation etc.；Can be physical absorption and/or chemisorption, specific absorption as the absorption Agent can select activated carbon, silica gel, aluminium oxide, molecular sieve, natural clay etc.；As the ion exchange, strong acid may be used Any one in property resin cation, acidulous cation resin；As the oxidation, may be used commonly used in the art Various oxidants, such as ozone, hydrogen peroxide, ammonium persulfate, Fenton reagent, potassium permanganate etc., it is new miscellaneous in order to avoid introducing Matter, it is preferred to use ozone, hydrogen peroxide etc..

Specific removal of impurities mode can be specifically chosen according to the dopant species contained in the waste water.It, can for suspended matter To select solid-liquid isolation method to clean；For inorganic matter and organic matter, chemical precipitation method, ion-exchange, absorption method can be selected Removal of impurities, such as Subacidity cation exchange process, active carbon adsorption etc.；For organic matter, absorption and/or oxidation may be used Mode cleans, wherein preferably ozone biological activated carbon adsorption and oxidation method.A preferred embodiment according to the present invention is given up Water cleans by filtering, Subacidity cation exchange process, ozone biological activated carbon adsorption and oxidation method successively.It is removed by above-mentioned Miscellaneous process can remove most suspended substances, hardness, silicon and organic matter, reduce device fouling risk, ensure wastewater treatment process Continuous and steady operation.

It in the present invention, can be before using the processing of the processing method of the present invention (preferably for the lower waste water of salt content After above-mentioned removal of impurities), so that salt content is reached the range required by the waste water of the present invention by concentrating.Preferably, described dense Contracting selected from ED films concentration and/or it is reverse osmosis；It is highly preferred that described be concentrated by the concentration of ED films and reverse osmosis progress, the ED films There is no particular limitation for the sequencing of concentration and reverse osmosis progress.The ED films concentration and reverse osmosis treatment device and condition can It is carried out, can be specifically chosen according to the case where pending waste water in a manner of conventional using this field.Specifically, as the ED Film concentrates, and unidirectional electrodialysis system or pole-reversing electroosmosis system can be selected to carry out；As described reverse osmosis, rolling can be selected Film, plate membrane, dish tubular membrane, vibrating membrane or combinations thereof carry out.The efficiency that wastewater treatment can be improved by the concentration, avoids Energy waste caused by a large amount of evaporations.

In the preferred embodiment of the present invention, waste water is that the waste water in process of producing molecular sieve is heavy by chemistry Form sediment, filtering, Subacidity cation exchange process and ozone biological activated carbon adsorption and oxidation method clean, and by the concentration of ED films and Waste water after reverse osmosis concentration.

Condition as above-mentioned chemical precipitation is preferably：Using sodium carbonate as inorganic agent, relative to 1 mole of calcium in waste water 1.2~1.4 mole of either sodium carbonate are added in ion, and the pH for adjusting waste water is more than 7, and reaction temperature is 20 DEG C~35 DEG C, and the reaction time is 0.5h~4h.

Condition as above-mentioned filtering is preferably：Filter element is situated between more using the double-layer filter material of anthracite and quartz sand composition Mass filter, anthracite granule size used are 0.7mm~1.7mm, and quartz sand particle size is 0.5mm~1.3mm, filtering velocity 10m/h ~30m/h.Media regeneration is carried out using the regeneration method of " gas backwash-gas and water backwash-water backwashing " after filtrate use, Regeneration period 10h~15h.

Condition as above-mentioned Subacidity cation exchange process is preferably：PH value range is 6.5~7.5；Temperature≤40 DEG C, Resin layer height is 1.5m~3.0m, regenerated liquid HCl concentration：4.5~5 mass %；Regenerant consumption (based on 100%), 50kg/ m³~60kg/m³Wet resin；Regenerated liquid HCl flow velocitys are 4.5m/h~5.5m/h, and regeneration time of contact is 35min~45min；Just It is 18m/h~22m/h to wash flow velocity, and it is 20min~30min just to wash the time；Operation flow velocity is 15m/h~30m/h；Acid cation Langfang sanat Chemical Co., Ltd., SNT board D113 acid cation exchange resins can be used for example in exchanger resin.

Condition as above-mentioned ozone biological activated carbon adsorption and oxidation method is preferably：The ozone residence time be 50min~ 70min, empty bed filtering velocity are 0.5m/h~0.7m/h.

As above-mentioned ED films concentration condition be preferably：Electric current 145A~155A, voltage 45V~65V.For example as ED films Can be the ED films of A Sitong companies of Japan production.

It is preferably as above-mentioned reverse osmosis condition：Operating pressure 5.4MPa~5.6MPa, 25 DEG C~35 DEG C of inflow temperature, PH value is 6.5~7.5.It is for example carried out using the sea water desalination membrane TM810C that blue star Toray produces as reverse osmosis membrane.

The present invention will be described in detail by way of examples below.

In following embodiment, waste water is that the waste water in process of producing molecular sieve passes through chemical precipitation, filtering, faintly acid successively Base exchange method and ozone biological activated carbon adsorption and oxidation method clean, and pass through the concentration of ED films and reverse osmosis successively Waste water after concentration.

Embodiment 1

As shown in Figure 1, by waste water (150g/L containing NaCl, Na₂SO₄ 56g/L、NH₄Cl 27g/L、(NH₄)₂SO₄ It is 10.24g/L) 120m with inlet amount³The speed of/h is passed through the degassing of vacuum receiver 4 (vacuum degree is -70kPa in terms of gauge pressure), A concentration of 45.16 are imported the waste water after degassing to be sent in the pipeline of the first heat-exchanger rig 3 (titanium alloy plate heat exchanger) The sodium hydrate aqueous solution of quality % carries out first time pH value adjusting, and by the first pH value measuring device 61 (pH meter) to adjusting PH value afterwards is monitored (measured value 8.0), and the waste water after the adjusting of the first pH value is sent by first circulation pump 71 First heat-exchanger rig 31, carrying out the first heat exchange with the first steam condensate containing ammonia of recycling makes waste water be warming up to 63 DEG C；Then, Before the waste water after the first heat exchange to be sent to the second heat-exchanger rig 32 (titanium alloy plate heat exchanger), with solid-liquid point From obtained liquid (288.3g/L containing NaCl, Na₂SO₄65.2g/L, NaOH 10.06g/L, flow 28m³/ h) mixing, then The sodium hydrate aqueous solution for importing a concentration of 45.16 mass % in the duct carries out second of pH value adjusting, and passes through the 2nd pH Value measurement mechanism 62 (pH meter) is monitored (measured value 11) to the pH value after adjusting, will be useless after the adjusting of the second pH value Water is sent into the second heat-exchanger rig 32, and carrying out the first heat exchange with the first steam containing ammonia of recycling makes waste water be warming up to 76 DEG C, then The waste water is sent into MVR vaporising devices 2 (falling liquid film+forced circulation two-stage MVR crystallizing evaporators) and carries out the first evaporation.Wherein, First evaporation condition include：Temperature is 71 DEG C, and the pressure in terms of gauge pressure is -77.4kPa, evaporation capacity 25.2m³/h.First It evaporates the first obtained steam containing ammonia (12 DEG C of temperature rise) after the compression of compressor 10 and passes sequentially through the second heat-exchanger rig 32 With the first heat-exchanger rig 31, heat exchange is carried out with waste water, cooling obtains ammonium hydroxide, and is stored in tank used for storing ammonia 5.In order to improve The salinity of liquid in MVR vaporising devices 2 pumps the effluent part after the first evaporation in MVR vaporising devices 2 by second circulation 72 return to second of pH value adjustment process.MVR vaporising devices 2 obtain 128m per hour³Contain NaCl 231.3g/L, Na₂SO₄ The first concentrate (solid content 0) of 77.1g/L, NaOH 2.2g/L, NH3 0.841g/L.

Second evaporation process carries out in multi-effect evaporating device 1 (triple-effect evaporation plant), the multi-effect evaporating device 1 It is made of 1st effective evaporator 1a, 2nd effect evaporator 1b and third effect evaporator 1c (being forced-circulation evaporator).Pass through Above-mentioned first concentrate is sequentially sent to 1st effective evaporator 1a, the 2nd effect evaporator of multiple-effect heat-exchanger rig by the 5th circulating pump 75 1b and third effect evaporator 1c carries out the second evaporation and obtains the second concentrate.Wherein, the evaporation conditions packet of 1st effective evaporator 1a It includes：Temperature is 130 DEG C, and the pressure in terms of gauge pressure is 116.8kPa, evaporation capacity 33.9m³/h；The evaporation of 2nd effect evaporator 1b Condition includes：Temperature is 106 DEG C, and the pressure in terms of gauge pressure is 0kPa, evaporation capacity 33.8m³/h；The steaming of third effect evaporator 1c Clockwork spring part includes：Temperature is 60 DEG C, and the pressure in terms of gauge pressure is -87kPa, evaporation capacity 33.8m³/h.In the multiple-effect evaporation It is passed through heating steam (raw steam) in the 1st effective evaporator 1a of device 1, and evaporation in 1st effective evaporator 1a is obtained second Steam containing ammonia is passed through 2nd effect evaporator 1b and carries out the second heat exchange and obtain ammonium hydroxide, and evaporation in 2nd effect evaporator 1b is obtained The second steam containing ammonia be passed through third effect evaporator 1c and carry out the second heat exchange and obtain ammonium hydroxide.It is evaporated in third effect evaporator 1c The second obtained steam containing ammonia carries out third heat friendship in third heat-exchanger rig 33 (titanium alloy plate heat exchanger) with the waste water Ammonium hydroxide is changed and obtained, and is stored in ammonium hydroxide collecting tank 52.The ammonium hydroxide obtained in above-mentioned each step is collected.First concentrate is After being evaporated in 1st effective evaporator 1a, it is passed through in 2nd effect evaporator 1b and evaporates, then be passed through in third effect evaporator 1c and evaporate, finally The second obtained concentrate crystallizes in brilliant liquid collecting tank 53 and obtains magma.

Magma is after equipment for separating liquid from solid 9 (centrifuge) is separated by solid-liquid separation, and respectively obtaining crystal, (i.e. salt-mixture crystallizes Filter cake) and it is separated by solid-liquid separation obtained liquid, after salt-mixture crystalli-zation cake is washed with the saturation mixed salt, partly it is used to modulate full And mixed salt, 41.66 tons of the salt-mixture crystalli-zation cake that water content is 30 mass % is obtained per hour, it is dry in drying machine, 29.58 tons of the salt-mixture of sodium chloride-containing and sodium sulphate is obtained per hour；Separation of solid and liquid obtains 28m per hour³Containing NaCl 288.3g/L、Na₂SO₄The crystalline mother solution of 65.2g/L, NaOH 10.06g/L follow the crystalline mother solution that above-mentioned separation of solid and liquid obtains Before ring is adjusted to second of pH value；The washings that washing filter cake obtains, the waste water after being evaporated with MVR vaporising devices 2 mix laggard Enter multi-effect evaporating device 1.

In addition, vacuum receiver 4 and the tail gas of the second heat-exchanger rig 32 discharge introduce tail gas absorber by vacuum pump 81 83 are absorbed, and recirculated water is connected in tail gas absorber 83, and the recirculated water is inhaled under the action of the 4th circulating pump 74 in tail gas It receives and is recycled in tower 83, while water is added to tail gas absorber 83 from circulating water pool 82 by third circulating pump 73, and following Fresh water is added in ring pond 82, reduces by the temperature and ammonia content of 81 work water of vacuum pump.In the tail gas absorber 83 into One step is passed through dilute sulfuric acid, to absorb ammonia in tail gas etc..

In the present embodiment, the ammonium hydroxide 25.2m of a concentration of 4.9 mass % is obtained in tank used for storing ammonia 51 per hour³, multiple-effect steaming Weak aqua ammonia in transmitting apparatus 1 and ammonium hydroxide collecting tank 52 obtains the ammonium hydroxide of a concentration of 0.106 mass % per hour after converging 101.5m³, ammonium hydroxide can be back to the production process of molecular sieve.

In addition, the initial period of MVR evaporations, the steam for being 143.3 DEG C by temperature are started.

Embodiment 2

The processing of waste water is carried out according to the method for embodiment 1, unlike, to containing NaCl 221g/L, NH₄Cl 40g/L Waste water handled.First evaporation conditions of MVR vaporising devices 2 include：Temperature is 90 DEG C, pressure in terms of gauge pressure is- 47.89kPa, evaporation capacity 26m³/h.Second evaporation conditions of multi-effect evaporating device 1 include：The evaporation of 1st effective evaporator 1a Condition includes：Temperature is 140 DEG C, and the pressure in terms of gauge pressure is 193.83kPa, evaporation capacity 33.6m³/h；2nd effect evaporator The evaporation conditions of 1b include：Temperature is 125 DEG C, and the pressure in terms of gauge pressure is 130.69kPa, evaporation capacity 33.6m³/h；Third The evaporation conditions of effect evaporator 1c include：Temperature is 85 DEG C, and the pressure in terms of gauge pressure is -57.65kPa, evaporation capacity 33.8m³/ h。

MVR vaporising devices 2 obtain 77.05m per hour³Contain NaCl 316.4g/L, NaOH9.533g/L, NH₃ The first concentrate (solid content 0) of 0.939g/L.The ammonium hydroxide of a concentration of 5.4 mass % is obtained in tank used for storing ammonia 51 per hour 26m³。

It is separated by solid-liquid separation 44.12 tons of sodium chloride crystalli-zation cake for obtaining that water content is 29 mass % per hour, is obtained per hour 30m³Containing NaCl312.4g/L, NaOH 9.533g/L, crystalline mother solution, 31.76 tons of sodium chloride is finally obtained per hour, it is more Ammonium hydroxide in effect vaporising device 1 and ammonium hydroxide collecting tank 52 obtains the ammonium hydroxide of a concentration of 0.121 mass % per hour after converging 101m³。

Embodiment 3

The processing of waste water is carried out according to the method for embodiment 1, unlike, to containing Na₂SO₄ 130g/L、(NH₄)₂SO₄ The waste water of 20g/L is handled.First evaporation conditions of MVR vaporising devices 2 include：Temperature is 120 DEG C, the pressure in terms of gauge pressure For 56.97kPa, evaporation capacity 22.43m³/h.Second evaporation conditions of multi-effect evaporating device 1 include：1st effective evaporator 1a's Evaporation conditions include：Temperature is 155 DEG C, and the pressure in terms of gauge pressure is 349.43kPa, evaporation capacity 33.1m³/h；Second effect is steamed The evaporation conditions of hair device 1b include：Temperature is 135 DEG C, and the pressure in terms of gauge pressure is 211.6kPa, evaporation capacity 33.1m³/h；The The evaporation conditions of triple effect evaporator 1c include：Temperature is 100 DEG C, and the pressure in terms of gauge pressure is -22.82kPa, and evaporation capacity is 33.1m³/h。

MVR vaporising devices 2 obtain 118m per hour³Contain Na₂SO₄ 179.45g/L、NaOH 14.42g/L、NH₃ The first concentrate (solid content 0) of 0.419g/L.The ammonium hydroxide of a concentration of 2.5 mass % is obtained in tank used for storing ammonia 51 per hour 22.43m³。

It is separated by solid-liquid separation 25.25 tons of sulfate crystal filter cake for obtaining that water content is 28 mass % per hour, is obtained per hour 18m³Contain Na₂SO₄The crystalline mother solution of 166.3g/L, NaOH 14.42g/L finally obtain 18.18 tons of sodium sulphate per hour, more The second ammonium hydroxide 99.3m of a concentration of 0.049 mass % is obtained in effect vaporising device 1 and ammonium hydroxide collecting tank 52 per hour³。

The preferred embodiment of the present invention has been described above in detail, still, during present invention is not limited to the embodiments described above Detail can carry out a variety of simple variants to technical scheme of the present invention within the scope of the technical concept of the present invention, this A little simple variants all belong to the scope of protection of the present invention.

It is further to note that specific technical features described in the above specific embodiments, in not lance In the case of shield, it can be combined by any suitable means.In order to avoid unnecessary repetition, the present invention to it is various can The combination of energy no longer separately illustrates.

In addition, various embodiments of the present invention can be combined randomly, as long as it is without prejudice to originally The thought of invention, it should also be regarded as the disclosure of the present invention.

Claims (14)

1. a kind of method of ammonium salt-containing wastewater treatment, which is characterized in that this method includes that waste water is passed through MVR vaporising devices to carry out First evaporation obtains the first steam containing ammonia and the first concentrate, then first concentrate is passed through multi-effect evaporating device successively The second evaporation is carried out in each effect evaporator, the second steam containing ammonia is respectively obtained in each effect evaporator, and steam in last effect The second concentrate is obtained in hair device, wherein

Before the waste water is passed through MVR vaporising devices, the pH value for adjusting the waste water is more than 9；It is passed through by the waste water Before MVR vaporising devices, first steam containing ammonia and the waste water are subjected to the first heat exchange and obtain the first ammonium hydroxide；

After the second steam containing ammonia that preceding 1st effective evaporator is evaporated is sent into 1st effective evaporator with first concentrate into The second heat exchange of row simultaneously obtains the second ammonium hydroxide, first concentrate and the second steam containing ammonia cocurrent heat exchange；

Also, described first evaporates so that the solid content in first concentrate is 50 mass % or less.

2. according to the method described in claim 1, wherein, before the waste water is passed through MVR vaporising devices, adjusting described useless The pH value of water is more than 10.8.

3. according to the method described in claim 1, wherein, described first evaporates the solid content so that in first concentrate For 20 mass % or less；

Preferably, first evaporation does not make first concentrate reach supersaturation.

4. according to the method described in claim 1, wherein, the condition of first evaporation includes：Temperature is 30 DEG C or more, with table The pressure of pressure meter is -98kPa or more；

Preferably, the condition of first evaporation includes：Temperature is 50 DEG C~130 DEG C, pressure in terms of gauge pressure be -93kPa~ 117kPa；

It is highly preferred that the condition of first evaporation includes：Temperature is 60 DEG C~130 DEG C, and the pressure in terms of gauge pressure is -87kPa ~117kPa.

5. according to the method described in claim 1, wherein, the condition of second evaporation includes：Temperature is 40 DEG C or more, with table The pressure of pressure meter is -97kPa or more；

Preferably, the condition of second evaporation includes：Temperature is 50 DEG C~180 DEG C, pressure in terms of gauge pressure be -93kPa~ 750kPa；

It is highly preferred that the condition of second evaporation includes：Temperature is 60 DEG C~155 DEG C, and the pressure in terms of gauge pressure is -87kPa ~350kPa.

6. according to the method described in claim 5, wherein, the condition of second evaporation includes：The evaporation of 1st effective evaporator Temperature is 100 DEG C~180 DEG C；1st effective evaporator is 10 DEG C~50 DEG C lower than the evaporating temperature of preceding 1st effective evaporator afterwards；

Preferably, the condition of second evaporation includes：The evaporating temperature of 1st effective evaporator is 130 DEG C~155 DEG C, latter effect Evaporator is 15 DEG C~46 DEG C lower than the evaporating temperature of preceding 1st effective evaporator.

7. according to the method described in claim 1, wherein, first heat exchange is filled by the first heat-exchanger rig and the second heat exchange Set progress；

Preferably, after carrying out the first heat exchange by first heat-exchanger rig, the temperature of the waste water is 30 DEG C or more, preferably It is 49 DEG C~129 DEG C；

Preferably, after carrying out the first heat exchange by second heat-exchanger rig, the temperature of the waste water is 49 DEG C~139 DEG C, Preferably 59 DEG C~139 DEG C；

Preferably, before the waste water enters the first heat-exchanger rig, the pH value for adjusting the waste water is more than 7.

8. according to the method described in claim 1, wherein, the multi-effect evaporating device is 2 effects or more, preferably 2-5 effects are more excellent It is selected as 3-4 effects.

9. according to the method described in claim 1, wherein, what the last 1st effective evaporator of the multi-effect evaporating device evaporated Second steam containing ammonia carries out third heat exchange with cooling water in heat-exchanger rig and obtains ammonium hydroxide；

Preferably, the cooling water is the waste water；

Preferably, before the waste water is passed through MVR vaporising devices, by the last 1st effective evaporator of the multi-effect evaporating device The second obtained steam containing ammonia is evaporated to carry out third heat exchange with the waste water and obtain ammonium hydroxide；

Preferably, tail gas, first steam containing the ammonia vacuum outgas obtained condenses remaining by the first heat exchange Tail gas and second steam containing ammonia condense remaining tail gas by third heat exchange and are discharged after removing ammonia.

10. according to the method described in claim 1, wherein, the method further includes compressing first steam containing ammonia Carry out first heat exchange again afterwards；

Preferably, before being handled the waste water, vacuum outgas is first carried out.

11. according to the method described in any one of claim 1-10, this method further includes tying second concentrate Crystallization obtains magma in brilliant device.

12. according to the method for claim 11, wherein the magma obtains crystal and separation of solid and liquid after separation of solid and liquid At least part for being separated by solid-liquid separation obtained liquid or whole are back to MVR vaporising devices, it is preferable that will by obtained liquid It is separated by solid-liquid separation obtained liquid and is all back to MVR vaporising devices；

Preferably, after the crystal water or salt water washing and dry；

Preferably, the liquid that washing obtains is back to multi-effect evaporating device；

Preferably, the brine is the aqueous solution of the waste water or the crystal；

Preferably, the water in the water or brine is to heat steam after the first effect evaporator condensation of the multi-effect evaporating device Obtained condensate liquid.

13. according to the method described in any one of claim 1-10, wherein the NH in the waste water₄ ⁺For 8mg/L or more, TDS is 1600mg/L or more；

Preferably, the waste water contains Na⁺, Na⁺Content be 510mg/L or more；

Preferably, the waste water contains SO₄ ^2-, SO₄ ^2-Content be 1000mg/L or more；

Preferably, the waste water contains Cl^-, Cl^-Content be 970mg/L or more.

14. according to the method for claim 13, wherein this method further include after the waste water is cleaned and is concentrated again It is handled.