CN204380506U - A kind of flue gas wet-dry change Recovery Purifying treatment system - Google Patents

Abstract

The utility model provides a kind of flue gas wet-dry change Recovery Purifying treatment system.Comprise flue collector, auxiliary flue, absorption tower, flocculation system, crystallization reactor, solid-liquid separator one, vapo(u)rization system, solid-liquid separator four; The entrance of described auxiliary flue communicates with flue collector respectively with outlet, the connection absorption tower, gas outlet of flue collector, leakage fluid dram bottom absorption tower connects flocculation system, flocculation system connects crystallization reactor, the discharging opening of crystallization reactor connects solid-liquid separator one, the liquid outlet of solid-liquid separator one connects vapo(u)rization system, and vapo(u)rization system connects solid-liquid separator four; Described auxiliary flue is provided with flour mill, grader and high-pressure suction fan, and described flour mill is connected successively with grader, and high-pressure suction fan is positioned at the front end of flour mill or the rear end of grader.

Description

A kind of flue gas wet-dry change Recovery Purifying treatment system

Technical field

The utility model relates to flue gases purification field, is specifically related to a kind of flue gas wet-dry change Recovery Purifying treatment system.

Background technology

In recent years along with air-polluting is more and more serious, the improvement of people to flue gas particularly coal-fired flue-gas is had higher requirement; National environmental protection portion has issued new " fossil-fuel power plant atmospheric pollutant emission standard " (GB 13223-2011) on July 29th, 2011, proposes new emission limit to the flue dust of flue gas, sulfur dioxide, nitrogen oxide.At present, the effective means of flue gas desulfurization is the wet process of FGD such as ammonia process, sodium method.Above sulfur method all will produce the waste liquid of certain density containing sulfate, nitrate.Have the characteristics such as salt content is high, slant acidity, during employing commonsense method process, effluent quality is difficult to reach discharge standard, and the exploitation for the novel process technology of gas cleaning waste water seems particularly important.Especially for the area that environmental requirement is higher, often require high slat-containing wastewater " zero-emission ", this just has higher requirement to high slat-containing wastewater treatment technology.Need process it, reclaim utility simultaneously, avoid waste.

From existing patent document CN102489129A(industrial flue gas cleaning denitration integrated device and method of work thereof, 2012.06.13), CN203108424U(mono-kind carries out the flue gas processing device of desulfurization and denitration simultaneously, 2013.08.07) we know, combined desulfurization and denitration technology becomes the developing direction of smoke gas treatment gradually, but the integrated technique of this kind of fume desulfuring and denitrifying is often ripe not enough, for improving the treatment effeciency of follow-up desulfurizing and denitrifying process, usually adopt pretreatment flue to the SO in flue gas in desulfurization process front end ₂or NO _xslightly purify, the mode used comprises ozone injection, cooling, absorbent etc., and for example patent document CN102363095A(flue gas dry desulfurizing process and flue gas dry desulfurizing system thereof, 2012.02.29), CN103990375A(semidry method sinter fume integrated purifying method, 2014.08.20) etc., in actual use, its treatment effeciency from the embodiment the technical process of whole desulfurization (denitration) but and not obvious, therefore, their industrial applications also and not obvious.

Utility model content

In order to solve the problems of the technologies described above, the utility model provides a kind of wet-dry change Recovery Purifying treatment system of flue gas.Flue is set to flue collector and auxiliary flue two parts by this system, achieve the pretreated flue gas injection conveying of absorbent, employing flue gas is blown, while break process is carried out to absorbent, absorbent and air-supply smoke reaction, absorbent in primary mixture has activity because of reaction, realizes the pretreated thick purification simultaneously also achieving flue gas of absorbent.Pretreated absorbent reacts with the flue gas in flue collector again, improves the denitrification efficiency of absorbent greatly, and has high facilitation to the treatment effeciency of subsequent wet desulfurizing and denitrifying process.

For achieving the above object, the utility model adopts following technical scheme:

A kind of flue gas wet-dry change Recovery Purifying treatment system, is characterized in that: comprise flue collector, auxiliary flue, absorption tower, flocculation system, crystallization reactor, solid-liquid separator one, vapo(u)rization system, solid-liquid separator four; The entrance of described auxiliary flue communicates with flue collector respectively with outlet, the connection absorption tower, gas outlet of flue collector, leakage fluid dram bottom absorption tower connects flocculation system, flocculation system connects crystallization reactor, the discharging opening of crystallization reactor connects solid-liquid separator one, the liquid outlet of solid-liquid separator one connects vapo(u)rization system, and vapo(u)rization system connects solid-liquid separator four; Described auxiliary flue is provided with flour mill, grader and high-pressure suction fan, and described flour mill is connected successively with grader, and high-pressure suction fan is positioned at the front end of flour mill or the rear end of grader.

In conventional smoke gas purifying method, dry powder absorbent is normally ground into absorbent granules by grinding machine system after metering, and then carry out mixing and reacting with former flue gas by dry powder injector feeding flue collector, the denitrification efficiency of absorbent to former flue gas is lower.For improving the operating efficiency of absorbent, the utility model is provided with the auxiliary flue that feed wind and smoke gas passes through on flue collector, impact grinding pulverizing grading machine is provided with in this auxiliary flue, described impact grinding pulverizing grading machine is realize absorbent pulverize and deliver to the gas powder conveying device of flue collector in the lump with auxiliary flue gas, when practical operation, the absorbent of impact grinding pulverizing grading machine is sent into pulverized while with auxiliary flue gas, carry out reacting and obtaining primary mixture with auxiliary flue gas, absorbent in this primary mixture has activity because of reaction, after being sent to flue collector, its denitrification efficiency is also improved, practical effect is good.

Flue collector described in the utility model is provided with gas mixer, and the outlet of described auxiliary flue connects the air inlet of gas mixer.Main chimney flue provides the former flue gas coming from and produce in thermal power plant or other industrial production, and former flue gas is delivered to flue gas purification system along flue collector, and a part of former flue gas enters auxiliary flue, is called air-supply flue gas, and the former flue gas of another part continues to stay flue collector.Flue collector described in the utility model is the exhaust gases passes passed through for flue gas, for the abundant mixing that improves primary mixture and flue gas with contact, described flue collector is provided with gas mixer.

Preferably, described flue collector is provided with booster fan, and this booster fan is positioned at auxiliary flue entrance end.

Preferably, described flour mill is provided with absorbent entrance and air duct.The spatial dispersion utilizing air-flow to drive absorbent in flour mill and turbulence, can realize the pulverizing of absorbent equally, operate very flexible.

Further preferably, described absorbent entrance is provided with absorbent measure control assembly, described absorbent measure control assembly comprises the absorbent metered dispensing unit, absorbent conveying device and the absorbent feed bin that are connected successively, and described absorbent metered dispensing unit is connected with absorbent entrance.

After first absorbent sends into absorbent feed bin, deliver to after absorbent metered dispensing unit through absorbent conveying device again and deliver to flour mill, the metering realizing absorbent is introduced, when practical application, absorbent is usually excessive, also will measure according to the content of pollutant in former flue gas meanwhile, for former flue gas, its pollutant load is usually at 2000 ~ 9009mg/Nm ³scope in, absorbent with air-supply flue gas mixing ratio be 100 ~ 460g/Nm ³, after the pretreatment of impact grinding pulverizing grading machine, the primary mixture of acquisition sends into gas mixer, and in absorbent wherein and flue collector, the mixing ratio of flue gas is 6 ~ 23mg/Nm ³.

Flocculation system described in the utility model comprises static pipeline mixer, settling tank, clear liquid storage tank and dewater unit, the delivery port of described static pipeline mixer connects the water inlet of settling tank by pipeline, the top delivery port of settling tank connects clear liquid storage tank by pipeline, the bottom of settling tank connects dewater unit by slush pump, and the delivery port of dewater unit connects gets back to settling tank.

Flocculant aqueous solution is added by static pipeline mixer in doctor solution, doctor solution carries out flocculate and clarify in settling tank, settling tank upper clear supernate by tube overflow to clear liquid storage tank, bottom settling tank, mud is squeezed into dewater unit by slush pump and is carried out press filtration, be separated solid slag remove slag field reclaim, filtrate turns back to settling tank circular clarifying.

Described doctor solution is the desulfurization wastewater of discharging bottom desulfurizing tower.

The connecting pipe of described static pipeline mixer and settling tank is provided with thermometer.Ensure that the temperature of reactant liquor is greater than 40 DEG C.

Described static pipeline mixer is provided with doctor solution entrance and medicament entrance, and in the angle of 12 °-16 ° between doctor solution inlet duct and medicament inlet duct, is convenient to the abundant mixing of two kinds of liquid.

Preferably, described doctor solution inlet duct is provided with pH value meter.Ensure that the pH value of doctor solution is greater than 7.

Preferably, described filter be precipitating sludge through plate and frame type filter-press or horizontal spiral centrifuge, removal efficiency is high, to the wide accommodation of solid content, thus can shorten the time of staying of sedimentation, reduce investment and take up an area, operate also easier.

Preferably, described pipe-line mixer is auger style static tube mixer, can coutroi velocity well, completes flocculation reaction, do not need to arrange reaction zone in addition in blender.Equipment takes up an area little, investment reduction.

Cooler crystallizer, solid-liquid separator two, destilling tower, cooling twice crystallizer and a solid-liquid separator three is also connected with in turn between solid-liquid separator one described in the utility model and vapo(u)rization system, described solid-liquid separator two connects destilling tower by heat exchanger two, and described solid-liquid separator three connects vapo(u)rization system by heat exchanger three.

The clear liquid that obtains after flocculation is sent into crystallization reactor and is reacted with carbonic hydroammonium, contains the ammonium salt such as ammonium sulfate and ammonium nitrate in reactant liquor, and solid-liquid separator one is separated the absorbent that the solid obtained can be used as flue gas and is back to gas cleaning workshop section.Liquid enters a cooler crystallizer crystallization, clear liquid is sent into destilling tower by solid-liquid separator two after heat exchanger heating, send distilling the clear liquid obtained into the crystallization of cooling twice crystallizer again, clear liquid is sent into vapo(u)rization system removing excessive moisture by solid-liquid separator three after heat exchanger heating, obtains highly purified ammonium salt solution.

The utility model adopts the system process ammonium salt mother liquor of a cooler crystallizer-destilling tower-cooling twice crystallizer, and secondary crystallization is to separate out the unreacted impurity such as carbonic hydroammonium and sodium sulphate completely in solution, reduce supplies consumption simultaneously; Distillation is to remove free ammonia in solution and carbon dioxide.

Described solid-liquid separator two connects gets back to crystallization reactor.The solid of a crystallisation by cooling precipitation separates out a large amount of sal glauberis, sodium acid carbonate and carbonic hydroammonium, turns back in crystallization reactor and continues reaction.

Described solid-liquid separator three connects gets back to a cooler crystallizer.The mixture of cooling twice crystallization four aqueous sodium persulfate and ammonium sulfate, reduces the sodium sulphate content in ammonium sulfate liquor further; Turn back to further crystallisation by cooling in a crystallisation by cooling operation, to improve the product purity of ammonium sulfate simultaneously.

The exhaust outlet of described destilling tower connects the bottom of crystallization reactor by booster fan.

Distill in the ammonia and carbon dioxide Returning reactor obtained and continue reaction, reduce supplies consumption, and reduce the pollution to environment; By booster fan by gas dispersion to crystalliser feet, from the bottom up, utilize crystallizer solution fully to reclaim ammonia and carbon dioxide.

The leakage fluid dram of described destilling tower passes through the shell side connecting secondary cooler crystallizer of heat exchanger two.Clear liquid after a crystallisation by cooling by with destilling tower bottom fluid carry out heat exchange and reach more than 60 DEG C, then send into destilling tower, save distillation steam consumption, reduce plant energy consumption.

Solid-liquid separator four described in the utility model connects gets back to cooling twice crystallizer.Be separated the liquid that obtains before sodium sulphate reaches capacity, filtrate be sent to cooling twice crystallizer and carry out crystallisation by cooling, will sodium sulphate separate out after enter the vapo(u)rization system of postorder again, thus ensure the purity of ammonium sulfate product.

Preferably, described is once DTB cooler crystallizer with cooling twice crystallizer, and the ability of crystallization is high.

Described solid-liquid separator one is centrifugal separator or band filter.

Vapo(u)rization system described in the utility model comprises feed pump, preheater, heat exchanger one, crystal separator, compressor; The discharging opening of described crystallization reactor connects solid-liquid separator one, the liquid outlet of solid-liquid separator one connects feed pump, feed pump connects preheater, the liquid outlet of preheater connects heat exchanger one, heat exchanger one is connected with the inlet of crystal separator by forced circulation pump, the exhaust outlet of crystal separator is connected with the air inlet of compressor by jet chimney, and the exhaust outlet of compressor is connected with the air inlet of heat exchanger one shell.

Waste liquid reacts with carbonic hydroammonium in crystallization reactor, the absorbent that the solid reclaimed in reactant liquor by solid-liquid separator one can be used as flue gas is back to gas cleaning workshop section, liquid is as material liquid, pump into preheater, material liquid after preheating enters heat exchanger one, raised by shell side Steam Heating temperature in the tube side of heat exchanger one, material liquid enters crystal separator under the promotion of forced circulation pump, in crystal separator, pressure reduces, material liquid produces flash distillation, the indirect steam that flash distillation produces rises from jet chimney and discharges in crystal separator, material liquid produces supersaturation and makes nuclei grow, when nuclei grow is deposited to bottom crystal separator to during comparatively megacryst, described indirect steam enters the shell side of heat exchanger one after compressor compression as thermal source.

Described preheater is divided into one-level preheater and secondary preheater, effectively utilizes boiler afterheat and steam condensed water waste heat.

Described compressor is the compact conformation of centrifugal compressor, centrifugal compressor, and size is little, lightweight; Exhaust is continuous, even, does not need the devices such as pans; Vibrate little, few easy workout part, do not need the huge and basic part of heaviness; Except bearing, machine intimate does not need lubrication, fuel-efficient, and does not pollute by the gas compressed; Rotating speed is high; A little repair, easy to adjust.

Preferably, described centrifugal compressor is thtee-stage shiplock, and compressor electric motor joins 160Kw.Compressor tandem energy accesses higher pressure head, improves indirect steam temperature simultaneously, returns to heat exchanger one forced-circulation evaporation as thermal source.

Preferably, the condensate liquid liquid outlet of described heat exchanger one is connected fluid reservoir with the condensate liquid liquid outlet of secondary preheater, and the liquid outlet of fluid reservoir connects the inlet of one-level preheater shell.Using the thermal source of the condensate liquid of heat exchanger one and secondary preheater as one-level preheater, economize energy.

The condensate liquid liquid outlet connection of described one-level preheater is got back to gas cleaning workshop section and is achieved zero-emission as moisturizing use.

Gas mixer described in the utility model comprises the vertical blender body arranged, described blender body is provided with the pipeline configuration of buffer board in being, gas approach is provided with in the bottom of described blender body, cross section along described blender body bottom portion is tangentially provided with the import of dry powder absorbent, is provided with mixed flue gas outlet at the top of described blender body.

Absorbent powder tangentially sends into blender body by the import of dry powder absorbent, is separated after centrifugal; Main flue gas sends into blender body by main flue gas import, mix with absorbent powder, simultaneously, the main flue gas flowed from the bottom to top changes the flow direction under the effect of buffer board, and further mix with absorbent powder, not only increase the mixing efficiency of absorbent powder and main flue gas, also add main flue gas in the blender intrinsic reaction time, effectively can remove the part SO in flue gas ₂, NO _xwith most SO ₃, the smoke mixture of acquisition is exported by mixed flue gas to be sent, then enters desulfurizing tower wet desulphurization denitration, after reaching the emission abatement standard of flue gas, is discharged by flue.

Preferably, described buffer board is horizontally set in blender body, is provided with the tapered protrusion to downward-extension in the bottom of described buffer board, and the conical surface of this tapered protrusion is flue gas guide face.

The main flue gas entering blender body mixes with absorbent powder and drives absorbent powder upwards to flow, during by buffer board, main flue gas flows along flue gas guide face to the inwall of blender body, and further mix with absorbent powder, mixed main flue gas is upwards flowed by the space between buffer board and blender body, water conservancy diversion is proceeded to during next buffer board, realize fully mixing of main flue gas and absorbent powder, simultaneously, too increase main flue gas in the blender intrinsic reaction time

Preferably, described flue gas guide face and the angle of buffer board are 15 ° ~ 20 °, better realize fully contacting of main flue gas and absorbent powder.

Further preferably, the diameter of described buffer board: internal diameter=1:(1.1 ~ 1.6 of blender body), in actual use, the diameter of buffer board and blender body all sets with main flue gas throughput.

For further realizing fully mixing of main flue gas and absorbent powder, buffer board is arranged in the following way: the quantity of described buffer board is more than one group, often organize buffer board and comprise the first buffer board and the second buffer board, the diameter of described first buffer board: internal diameter=1:(1.2 ~ 1.6 of blender body), if the diameter of setting the first buffer board is 2m, the internal diameter of blender body is 2.4 ~ 3.2 m, and the distance of this first buffer board two lateral extent blender body is then 200 mm ~ 600mm; The diameter of described second buffer board: internal diameter=1:(1.1 ~ 1.2 of blender body), same is that 2.4 ~ 3.2 m calculate with the internal diameter of blender body, the diameter of the second buffer board is 2.2 ~ 2.8m, and the distance of this first buffer board two lateral extent blender body is then 100mm ~ 200mm.

Described buffer board can arrange more than one group, and in described often group buffer board, the first buffer board is located at the below of the second buffer board, is 160,000 m with main flue gas throughput ³/ h, absorbent powder is that excessive sodium bicarbonate powder calculates, buffer board should arrange two groups, first buffer board and the second buffer board interval are arranged, and the distance of described first buffer board to the second buffer board is 0.8 ~ 1 times of the first buffer board diameter, ensure that main flue gas and the enough blending space of sodium bicarbonate powder, it is very reasonable to design.

Preferably, described buffer board is provided with perforate, and the quantity of perforate can arrange more than one, and its gross area is associated with the throughput of main flue gas.

Equipment and materials described in the utility model and the selection for pipeline TA2 material with material contact portion.

The beneficial effects of the utility model are:

1, gas cleaning recovery and processing system of the present utility model is the integral system of gas cleaning and recovery, on the one hand, adopts wet-dry change to combine the pollutant removed in flue gas, and carries out pretreatment to dry powder absorbent, substantially increase the removal efficiency of flue gas pollutant; On the one hand, recycle the waste liquid on absorption tower, waste liquid and carbonic hydroammonium react and make solid absorbent be reclaimed and reused in purification section, and liquid is that ammonium sulfate and ammonium salt can be used for preparing composite fertilizer, thus achieves the zero-emission of high slat-containing wastewater; On the other hand, from flocculation to evaporation and crystallization system, effectively integrate equipment, make full use of the energy, the floor space achieving equipment is little, and energy consumption is little, and cost is low, and industrialization exploitativeness is strong.

2, the utility model system is provided with the auxiliary flue that feed wind and smoke gas passes through on flue collector, impact grinding pulverizing grading machine is provided with in this auxiliary flue, described impact grinding pulverizing grading machine is realize absorbent pulverize and deliver to the gas powder conveying device of flue collector in the lump with auxiliary flue gas, when practical operation, the absorbent of impact grinding pulverizing grading machine is sent into pulverized while with auxiliary flue gas, carry out reacting and obtaining primary mixture with auxiliary flue gas, absorbent in this primary mixture has activity because of reaction, achieve the pretreatment of absorbent, simultaneously, because introducing air-flow is flue gas, carrying out pretreated to absorbent while, flue gas can also react with absorbent, and make absorbent with activity, be conducive to the denitrification efficiency improving waste gas, in auxiliary flue, the thick purifying rate of waste gas can reach 90 ~ 99%.During flue gas hybrid reaction in pretreated primary mixture and flue collector, improve the denitrification efficiency of absorbent greatly, and to the treatment effeciency of subsequent wet desulfurizing and denitrifying process, there is high facilitation.

3, the utility model principle is simple, flue gas and absorbent are introduced into flour mill with high-pressure suction fan and carry out fragmentation, the spatial dispersion of absorbent between grader and flour mill and turbulence, and it is broken by the synergy of impact grinding pulverizing grading machine and air-supply flue gas, crushing efficiency is high, the specific surface area and porosity of the absorbent obtained through pretreatment greatly increases, and in actual use, absorbent is crushed to grain graininess≤40um, pore volume is 0. 0317 m ³/ g, specific area 4.2m ²the particulate of/g.

4, the absorbent integer type device adopted in the pretreatment that the utility model relates to forms primarily of flour mill, grader and high-pressure suction fan, with traditional grinding machine system unlike, the integer type device that the utility model adopts eliminates traditional whirlwind and the setting of bag collector, avoid the absorbent after pulverizing to reunite, maintain the activity of pretreatment absorbent fully, practicality is extremely strong.

5, the utility model devises the gas mixer that dry powder absorbent mixes with flue gas in flue collector, powder mixes mutually with main flue gas after tangentially sending into blender body, main flue gas is in the process driving absorbent powder to flow from the bottom to top, change under the effect of buffer board and flow to, further mix with absorbent powder, not only increase the mixing efficiency of absorbent powder and main flue gas, also add main flue gas in the blender intrinsic reaction time, effectively can remove the SO in flue gas ₂, NO _xwith most SO ₃, further ensure denitrification efficiency high.

6, flocculation system of the present utility model adds flocculant aqueous solution by pipe-line mixer in doctor solution, doctor solution carries out flocculate and clarify in settling tank, does not need adjust ph, does not also need to arrange reaction zone in addition, equipment takes up an area little, has saved investment to a great extent.

7, the pipe-line mixer in flocculation system is auger style static tube mixer, can control the flow velocity of doctor solution in pipe-line mixer is well 0.8-1.2m/s, the flow velocity of flocculant aqueous solution in pipe-line mixer is 0.9-1.0m/s, flocculation reaction is completed in blender, do not need to arrange reaction zone in addition, and the angle of 12 °-16 ° will be arranged between doctor solution inlet duct and medicament inlet duct, good mixing property, efficiency is high; Stable operation.

8, in order to adapt to the crystallization and evaporation process of gas cleaning waste liquid, the utility model adopts forced-circulation evaporation system.Material is raised by shell side Steam Heating temperature in the tube side of heat exchanger one, the low generation flash distillation of Pressure Drop enter crystal separator under the promotion of forced circulation pump after, the indirect steam produced is discharged from steam pipework, material produces supersaturation crystallization sedimentation, the indirect steam that forced-circulation evaporation produces after compressor compresses as the thermal source of heat exchanger.Saved the consumption of steam, raw steam about the 7000t of annual saving, achieves energy-conservation.Reduce by the floor space of more than 50% simultaneously.

9, the condensate liquid of secondary preheater of the present utility model and heat exchanger is as the thermal source of one-level preheater, and meanwhile, the condensate liquid of one-level preheater is got back to gas cleaning workshop section and used as moisturizing, the while of water-saving, achieves zero-emission.

10, because material contains a large amount of acid ion (Cl ^-, NO3 ^-), therefore adopt forced-circulation evaporation crystallization processes, effectively can avoid pipe plugging by crystallization, equipment and materials and the selection for pipeline TA2 material with material contact portion, ensure service life of equipment.

11, the utility model adopts centrifugal compressor as heat pump, itself consumption little a part of electric energy during work, but can extract 4-7 doubly to electric energy from indirect steam, promotes temperature and utilizes.The compact conformation of compression centrifuge own, size is little, lightweight; Exhaust is continuous, even, does not need the devices such as pans; Vibrate little, few easy workout part, do not need the huge and basic part of heaviness; Except bearing, machine intimate does not need lubrication, fuel-efficient, and does not pollute by the gas compressed; Rotating speed is high; A little repair, easy to adjust.

12, the utility model system is by the waste liquid of gas cleaning, the waste liquid and the carbonic hydroammonium that comprise desulfurization or denitration react, containing the ammonium salt such as ammonium sulfate and ammonium nitrate in reactant liquor, solid-liquid separator one is separated the absorbent that the solid obtained can be used as flue gas and is back to gas cleaning workshop section.Adopt the system process ammonium salt mother liquor of a cooler crystallizer-destilling tower-cooling twice crystallizer, secondary crystallization is to separate out the unreacted impurity such as carbonic hydroammonium and sodium sulphate completely in solution, reduce supplies consumption simultaneously; Distillation is to remove free ammonia in solution and carbon dioxide.Obtain highly purified ammonium salt solution.The nitrogen content of final products meets the producing ammonium sulfate byproduct product requirement of electric power standard: total nitrogen >=18%, appearance white particle.

13, solid-liquid separator two described in the utility model connects and gets back to crystallization reactor, and sal glauberi, sodium acid carbonate and carbonic hydroammonium solid that crystallisation by cooling is separated out turn back in crystallization reactor and continue reaction; Solid-liquid separator three connects gets back to a cooler crystallizer, and precipitation four aqueous sodium persulfate of cooling twice crystallization and the mixture solid of ammonium sulfate turn back to crystallisation by cooling in a crystallisation by cooling operation; Solid-liquid separator four connects gets back to cooling twice crystallizer, containing a large amount of ammonium sulfate in the solution after separation, gets back to crystallisation by cooling in cooling twice Crystallization Procedure and separates out.More than operation is the strong guarantee of yield coefficient of ammonium sulfate, and the yield that system obtains ammonium salt product reaches more than 99%, and waste liquid per ton can by-product 0.25-0.35 ton ammonium salt product.

14, because the leakage fluid dram of destilling tower is by the shell side connecting secondary cooler crystallizer of heat exchanger two, make the clear liquid after a crystallisation by cooling by with destilling tower bottom fluid carry out heat exchange, temperature reaches more than 60 DEG C, then sends into destilling tower, save distillation steam consumption, reduce plant energy consumption.

15, because the exhaust outlet of destilling tower connects the bottom of crystallization reactor by booster fan, distill in the ammonia and carbon dioxide Returning reactor obtained and continue reaction, the bottom of gas from crystallizer is sent into, be distributed to bottom, from the bottom up, crystallizer solution and ammonia and carbon dioxide are fully reacted, reclaims ammonia and carbon dioxide.While reducing supplies consumption, reduce the pollution to environment.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model flue gas wet-dry change Recovery Purifying treatment system.

Fig. 2 is the structural representation of the utility model flocculation system.

Fig. 3 is the structural representation of the utility model vapo(u)rization system.

Fig. 4 is the structural representation of the utility model flocculation system.

Fig. 5 is the structural representation of the utility model flocculation system and vapo(u)rization system.

Fig. 6 is the structural representation of the utility model gas mixer.

The top view of Fig. 7 the utility model gas mixer.

Fig. 8 is the structural representation of the first buffer board of gas mixer described in the utility model.

Fig. 9 is the structural representation of the second buffer board of gas mixer described in the utility model.

Figure 10 is the structural representation of the utility model gas mixer when being provided with two groups of buffer boards.

Be labeled as in figure: 1, crystallization reactor, 2, solid-liquid separator one, 3, feed pump, 4, preheater, 5, heat exchanger one, 6, crystal separator, 7, compressor, 8, one-level preheater, 9, secondary preheater, 10, fluid reservoir, 11, a cooler crystallizer, 12, solid-liquid separator two, 13, heat exchanger two, 14, destilling tower, 15, cooling twice crystallizer, 16, solid-liquid separator three, 17, heat exchanger three, 18, flue collector, 19, auxiliary flue, 20, flour mill, 21, grader, 22, high-pressure suction fan, 23, gas mixer, 24, absorption tower, 25, flocculation system, 26, vapo(u)rization system, 27, solid-liquid separator four, 28, static pipeline mixer, 29, settling tank, 30, dewater unit, 31, clear liquid storage tank, 32, doctor solution inlet duct, 33, medicament inlet duct, 34, blender body, 35, buffer board, 36, gas approach, 37, the import of dry powder absorbent, 38, mixed flue gas exports, and 39, flue gas guide face, 40, perforate, 41, mounting bracket, 42, first buffer board, 43, second buffer board.

Detailed description of the invention

Below in conjunction with detailed description of the invention, essentiality content of the present utility model is described in further detail.

Embodiment 1

A kind of flue gas wet-dry change Recovery Purifying treatment system, is characterized in that: comprise flue collector 18, auxiliary flue 19, absorption tower 24, flocculation system 25, crystallization reactor 1, solid-liquid separator 1, vapo(u)rization system 26, solid-liquid separator 4 27; The entrance of described auxiliary flue 19 communicates with flue collector 18 respectively with outlet, the connection absorption tower, gas outlet 24 of flue collector 18, leakage fluid dram bottom absorption tower 24 connects flocculation system 25, flocculation system 25 connects crystallization reactor 1, the discharging opening of crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects vapo(u)rization system 26, and vapo(u)rization system 26 connects solid-liquid separator 4 27; Described auxiliary flue 19 is provided with flour mill 20, grader 21 and high-pressure suction fan 22, and described flour mill 20 is connected successively with grader 21, and high-pressure suction fan 22 is positioned at the front end of flour mill 20.

Embodiment 2

A kind of flue gas wet-dry change Recovery Purifying treatment system, is characterized in that: comprise flue collector 18, auxiliary flue 19, absorption tower 24, flocculation system 25, crystallization reactor 1, solid-liquid separator 1, vapo(u)rization system 26, solid-liquid separator 4 27; The entrance of described auxiliary flue 19 communicates with flue collector 18 respectively with outlet, the connection absorption tower, gas outlet 24 of flue collector 18, leakage fluid dram bottom absorption tower 24 connects flocculation system 25, flocculation system 25 connects crystallization reactor 1, the discharging opening of crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects vapo(u)rization system 26, and vapo(u)rization system 26 connects solid-liquid separator 4 27; Described auxiliary flue 19 is provided with flour mill 20, grader 21 and high-pressure suction fan 22, and described flour mill 20 is connected successively with grader 21, and high-pressure suction fan 22 is positioned at the rear end of grader 21.

Embodiment 3

The present embodiment is substantially the same manner as Example 1, on this basis:

Described flue collector 18 is provided with gas mixer 23, and the outlet of described auxiliary flue 19 connects the air inlet of gas mixer 23.

Embodiment 4

The present embodiment is substantially the same manner as Example 2, on this basis:

Described flue collector 18 is provided with gas mixer 23, and the outlet of described auxiliary flue 19 connects the air inlet of gas mixer 23.

Described flue collector 18 is provided with booster fan, and this booster fan is positioned at auxiliary flue entrance end.

Embodiment 5

The present embodiment is substantially the same manner as Example 2, on this basis:

Described flue collector 18 is provided with gas mixer 23, and the outlet of described auxiliary flue 19 connects the air inlet of gas mixer 23.

Described flue collector 18 is provided with booster fan, and this booster fan is positioned at auxiliary flue entrance end.

Described flour mill 20 is provided with absorbent entrance and air duct.

Embodiment 6

The present embodiment is substantially the same manner as Example 1, on this basis:

Described flue collector 18 is provided with gas mixer 23, and the outlet of described auxiliary flue 19 connects the air inlet of gas mixer 23.

Described flue collector 18 is provided with booster fan, and this booster fan is positioned at auxiliary flue entrance end.

Described flour mill 20 is provided with absorbent entrance and air duct.

Described absorbent entrance is provided with absorbent measure control assembly, described absorbent measure control assembly comprises the absorbent metered dispensing unit, absorbent conveying device and the absorbent feed bin that are connected successively, and described absorbent metered dispensing unit is connected with absorbent entrance.

Embodiment 7

The present embodiment is substantially the same manner as Example 1, on this basis:

Described flue collector 18 is provided with gas mixer 23, and the outlet of described auxiliary flue 19 connects the air inlet of gas mixer 23.

Described flue collector 18 is provided with booster fan, and this booster fan is positioned at auxiliary flue entrance end.

Described flour mill 20 is provided with absorbent entrance and air duct.

Described absorbent entrance is provided with absorbent measure control assembly, described absorbent measure control assembly comprises the absorbent metered dispensing unit, absorbent conveying device and the absorbent feed bin that are connected successively, and described absorbent metered dispensing unit is connected with absorbent entrance.

Embodiment 8

The present embodiment is substantially the same manner as Example 2, on this basis:

Described flocculation system 25 comprises static pipeline mixer 28, settling tank 29, clear liquid storage tank 31 and dewater unit 30, the delivery port of described static pipeline mixer 28 connects the water inlet of settling tank 29 by pipeline, the top delivery port of settling tank 29 connects clear liquid storage tank 31 by pipeline, the bottom of settling tank 29 connects dewater unit 30 by slush pump, and the delivery port of dewater unit 30 connects gets back to settling tank 29.

Embodiment 9

The present embodiment is substantially the same manner as Example 1, on this basis:

Described flocculation system 25 comprises static pipeline mixer 28, settling tank 29, clear liquid storage tank 31 and dewater unit 30, the delivery port of described static pipeline mixer 28 connects the water inlet of settling tank 29 by pipeline, the top delivery port of settling tank 29 connects clear liquid storage tank 31 by pipeline, the bottom of settling tank 29 connects dewater unit 30 by slush pump, and the delivery port of dewater unit 30 connects gets back to settling tank 29.

Described static pipeline mixer 28 and the connecting pipe of settling tank 29 are provided with thermometer.

Embodiment 10

The present embodiment is substantially the same manner as Example 6, on this basis:

Described flocculation system 25 comprises static pipeline mixer 28, settling tank 29, clear liquid storage tank 31 and dewater unit 30, the delivery port of described static pipeline mixer 28 connects the water inlet of settling tank 29 by pipeline, the top delivery port of settling tank 29 connects clear liquid storage tank 31 by pipeline, the bottom of settling tank 29 connects dewater unit 30 by slush pump, and the delivery port of dewater unit 30 connects gets back to settling tank 29.

Described static pipeline mixer 28 and the connecting pipe of settling tank 29 are provided with thermometer.

Described static pipeline mixer 28 is provided with doctor solution entrance and medicament entrance, and in the angle of 12 °-16 ° between doctor solution inlet duct 32 and medicament inlet duct 33.

Embodiment 11

The present embodiment is substantially the same manner as Example 6, on this basis:

Described flocculation system 25 comprises static pipeline mixer 28, settling tank 29, clear liquid storage tank 31 and dewater unit 30, the delivery port of described static pipeline mixer 28 connects the water inlet of settling tank 29 by pipeline, the top delivery port of settling tank 29 connects clear liquid storage tank 31 by pipeline, the bottom of settling tank 29 connects dewater unit 30 by slush pump, and the delivery port of dewater unit 30 connects gets back to settling tank 29.

Described static pipeline mixer 28 and the connecting pipe of settling tank 29 are provided with thermometer.

Described static pipeline mixer 28 is provided with doctor solution entrance and medicament entrance, and in the angle of 12 °-16 ° between doctor solution inlet duct 32 and medicament inlet duct 33.

Described doctor solution inlet duct (32) is provided with pH value meter.

Embodiment 12

The present embodiment is substantially the same manner as Example 6, on this basis:

Described flocculation system 25 comprises static pipeline mixer 28, settling tank 29, clear liquid storage tank 31 and dewater unit 30, the delivery port of described static pipeline mixer 28 connects the water inlet of settling tank 29 by pipeline, the top delivery port of settling tank 29 connects clear liquid storage tank 31 by pipeline, the bottom of settling tank 29 connects dewater unit 30 by slush pump, and the delivery port of dewater unit 30 connects gets back to settling tank 29.

Described static pipeline mixer 28 and the connecting pipe of settling tank 29 are provided with thermometer.

Described static pipeline mixer 28 is provided with doctor solution entrance and medicament entrance, and in the angle of 12 °-16 ° between doctor solution inlet duct 32 and medicament inlet duct 33.

Described doctor solution inlet duct (32) is provided with pH value meter.

Described dewater unit 30 is plate and frame type filter-press or horizontal spiral centrifuge.

Described equipment and materials and the selection for pipeline TA2 material with material contact portion.

Embodiment 13

The present embodiment is substantially the same manner as Example 6, on this basis:

Described flocculation system 25 comprises static pipeline mixer 28, settling tank 29, clear liquid storage tank 31 and dewater unit 30, the delivery port of described static pipeline mixer 28 connects the water inlet of settling tank 29 by pipeline, the top delivery port of settling tank 29 connects clear liquid storage tank 31 by pipeline, the bottom of settling tank 29 connects dewater unit 30 by slush pump, and the delivery port of dewater unit 30 connects gets back to settling tank 29.

Described static pipeline mixer 28 and the connecting pipe of settling tank 29 are provided with thermometer.

Described static pipeline mixer 28 is provided with doctor solution entrance and medicament entrance, and in the angle of 12 °-16 ° between doctor solution inlet duct 32 and medicament inlet duct 33.

Described doctor solution inlet duct (32) is provided with pH value meter.

Described dewater unit 30 is plate and frame type filter-press or horizontal spiral centrifuge.

Described static pipeline mixer 28 is auger style static tube mixer.

Embodiment 14

The present embodiment is substantially the same manner as Example 1, on this basis:

Cooler crystallizer 11, solid-liquid separator 2 12, destilling tower 14, cooling twice crystallizer 15 and a solid-liquid separator 3 16 is also connected with in turn between described solid-liquid separator 1 and vapo(u)rization system 26, described solid-liquid separator 2 12 connects destilling tower 14 by heat exchanger 2 13, and described solid-liquid separator 3 16 connects vapo(u)rization system by heat exchanger 3 17.

Embodiment 15

The present embodiment is substantially the same manner as Example 2, on this basis:

Cooler crystallizer 11, solid-liquid separator 2 12, destilling tower 14, cooling twice crystallizer 15 and a solid-liquid separator 3 16 is also connected with in turn between described solid-liquid separator 1 and vapo(u)rization system 26, described solid-liquid separator 2 12 connects destilling tower 14 by heat exchanger 2 13, and described solid-liquid separator 3 16 connects vapo(u)rization system by heat exchanger 3 17.

Described solid-liquid separator 2 12 connects gets back to crystallization reactor 1; Described solid-liquid separator 3 17 connects gets back to a cooler crystallizer 11.

Embodiment 16

The present embodiment is substantially the same manner as Example 7, on this basis:

Cooler crystallizer 11, solid-liquid separator 2 12, destilling tower 14, cooling twice crystallizer 15 and a solid-liquid separator 3 16 is also connected with in turn between described solid-liquid separator 1 and vapo(u)rization system 26, described solid-liquid separator 2 12 connects destilling tower 14 by heat exchanger 2 13, and described solid-liquid separator 3 16 connects vapo(u)rization system by heat exchanger 3 17.

Described solid-liquid separator 2 12 connects gets back to crystallization reactor 1; Described solid-liquid separator 3 17 connects gets back to a cooler crystallizer 11.

Described solid-liquid separator 49 connects gets back to cooling twice crystallizer 15.

Described equipment and materials and the selection for pipeline TA2 material with material contact portion.

Embodiment 17

The present embodiment is substantially the same manner as Example 12, on this basis:

Cooler crystallizer 11, solid-liquid separator 2 12, destilling tower 14, cooling twice crystallizer 15 and a solid-liquid separator 3 16 is also connected with in turn between described solid-liquid separator 1 and vapo(u)rization system 26, described solid-liquid separator 2 12 connects destilling tower 14 by heat exchanger 2 13, and described solid-liquid separator 3 16 connects vapo(u)rization system by heat exchanger 3 17.

Described solid-liquid separator 2 12 connects gets back to crystallization reactor 1; Described solid-liquid separator 3 17 connects gets back to a cooler crystallizer 11.

Described solid-liquid separator 49 connects gets back to cooling twice crystallizer 15.

The exhaust outlet of described destilling tower 14 connects the bottom of crystallization reactor 1 by booster fan.

Embodiment 18

The present embodiment is substantially the same manner as Example 12, on this basis:

Cooler crystallizer 11, solid-liquid separator 2 12, destilling tower 14, cooling twice crystallizer 15 and a solid-liquid separator 3 16 is also connected with in turn between described solid-liquid separator 1 and vapo(u)rization system 26, described solid-liquid separator 2 12 connects destilling tower 14 by heat exchanger 2 13, and described solid-liquid separator 3 16 connects vapo(u)rization system by heat exchanger 3 17.

Described solid-liquid separator 2 12 connects gets back to crystallization reactor 1; Described solid-liquid separator 3 17 connects gets back to a cooler crystallizer 11.

Described solid-liquid separator 49 connects gets back to cooling twice crystallizer 15.

The exhaust outlet of described destilling tower 14 connects the bottom of crystallization reactor 1 by booster fan.

Described is once DTB cooler crystallizer with cooling twice crystallizer.

Described equipment and materials and the selection for pipeline TA2 material with material contact portion.

Embodiment 19

The present embodiment is substantially the same manner as Example 12, on this basis:

Cooler crystallizer 11, solid-liquid separator 2 12, destilling tower 14, cooling twice crystallizer 15 and a solid-liquid separator 3 16 is also connected with in turn between described solid-liquid separator 1 and vapo(u)rization system 26, described solid-liquid separator 2 12 connects destilling tower 14 by heat exchanger 2 13, and described solid-liquid separator 3 16 connects vapo(u)rization system by heat exchanger 3 17.

Described solid-liquid separator 2 12 connects gets back to crystallization reactor 1; Described solid-liquid separator 3 17 connects gets back to a cooler crystallizer 11.

Described solid-liquid separator 49 connects gets back to cooling twice crystallizer 15.

The exhaust outlet of described destilling tower 14 connects the bottom of crystallization reactor 1 by booster fan.

Described is once DTB cooler crystallizer with cooling twice crystallizer.

The leakage fluid dram of described destilling tower 14 passes through the shell side connecting secondary cooler crystallizer 15 of heat exchanger 2 13.

Embodiment 20

The present embodiment is substantially the same manner as Example 1, on this basis:

Described vapo(u)rization system feed pump 3, preheater 4, heat exchanger 1, crystal separator 6, compressor 7; The discharging opening of described crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects feed pump 3, feed pump 3 connects preheater 4, the liquid outlet of preheater 4 connects heat exchanger 1, heat exchanger 1 is connected by the inlet of forced circulation pump with crystal separator 6, the exhaust outlet of crystal separator 6 is connected by the air inlet of jet chimney with compressor 7, and the exhaust outlet of compressor 7 is connected with the air inlet of heat exchanger 1 shell.

Embodiment 21

The present embodiment is substantially the same manner as Example 2, on this basis:

Described vapo(u)rization system feed pump 3, preheater 4, heat exchanger 1, crystal separator 6, compressor 7; The discharging opening of described crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects feed pump 3, feed pump 3 connects preheater 4, the liquid outlet of preheater 4 connects heat exchanger 1, heat exchanger 1 is connected by the inlet of forced circulation pump with crystal separator 6, the exhaust outlet of crystal separator 6 is connected by the air inlet of jet chimney with compressor 7, and the exhaust outlet of compressor 7 is connected with the air inlet of heat exchanger 1 shell.

Described compressor 7 is centrifugal compressor.

Embodiment 22

The present embodiment is substantially the same manner as Example 7, on this basis:

Described vapo(u)rization system feed pump 3, preheater 4, heat exchanger 1, crystal separator 6, compressor 7; The discharging opening of described crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects feed pump 3, feed pump 3 connects preheater 4, the liquid outlet of preheater 4 connects heat exchanger 1, heat exchanger 1 is connected by the inlet of forced circulation pump with crystal separator 6, the exhaust outlet of crystal separator 6 is connected by the air inlet of jet chimney with compressor 7, and the exhaust outlet of compressor 7 is connected with the air inlet of heat exchanger 1 shell.

Described compressor 7 is centrifugal compressor.

Described centrifugal compressor is thtee-stage shiplock, and compressor electric motor joins 160Kw.

Embodiment 23

The present embodiment is substantially the same manner as Example 13, on this basis:

Described vapo(u)rization system feed pump 3, preheater 4, heat exchanger 1, crystal separator 6, compressor 7; The discharging opening of described crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects feed pump 3, feed pump 3 connects preheater 4, the liquid outlet of preheater 4 connects heat exchanger 1, heat exchanger 1 is connected by the inlet of forced circulation pump with crystal separator 6, the exhaust outlet of crystal separator 6 is connected by the air inlet of jet chimney with compressor 7, and the exhaust outlet of compressor 7 is connected with the air inlet of heat exchanger 1 shell.

Described compressor 7 is centrifugal compressor.

Described centrifugal compressor is thtee-stage shiplock, and compressor electric motor joins 160Kw.

Described preheater 4 is divided into one-level preheater 8 and secondary preheater 9.

Embodiment 24

The present embodiment is substantially the same manner as Example 18, on this basis:

Described vapo(u)rization system feed pump 3, preheater 4, heat exchanger 1, crystal separator 6, compressor 7; The discharging opening of described crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects feed pump 3, feed pump 3 connects preheater 4, the liquid outlet of preheater 4 connects heat exchanger 1, heat exchanger 1 is connected by the inlet of forced circulation pump with crystal separator 6, the exhaust outlet of crystal separator 6 is connected by the air inlet of jet chimney with compressor 7, and the exhaust outlet of compressor 7 is connected with the air inlet of heat exchanger 1 shell.

Described compressor 7 is centrifugal compressor.

Described centrifugal compressor is thtee-stage shiplock, and compressor electric motor joins 160Kw.

Described preheater 4 is divided into one-level preheater 8 and secondary preheater 9.

The condensate liquid liquid outlet of described heat exchanger 1 is connected fluid reservoir 10 with the condensate liquid liquid outlet of secondary preheater 9, and the liquid outlet of fluid reservoir 10 connects the inlet of one-level preheater 8 shell.

Described equipment and materials and the selection for pipeline TA2 material with material contact portion.

Embodiment 25

The present embodiment is substantially the same manner as Example 18, on this basis:

Described vapo(u)rization system feed pump 3, preheater 4, heat exchanger 1, crystal separator 6, compressor 7; The discharging opening of described crystallization reactor 1 connects solid-liquid separator 1, the liquid outlet of solid-liquid separator 1 connects feed pump 3, feed pump 3 connects preheater 4, the liquid outlet of preheater 4 connects heat exchanger 1, heat exchanger 1 is connected by the inlet of forced circulation pump with crystal separator 6, the exhaust outlet of crystal separator 6 is connected by the air inlet of jet chimney with compressor 7, and the exhaust outlet of compressor 7 is connected with the air inlet of heat exchanger 1 shell.

Described compressor 7 is centrifugal compressor.

Described centrifugal compressor is thtee-stage shiplock, and compressor electric motor joins 160Kw.

Described preheater 4 is divided into one-level preheater 8 and secondary preheater 9.

The condensate liquid liquid outlet of described heat exchanger 1 is connected fluid reservoir 10 with the condensate liquid liquid outlet of secondary preheater 9, and the liquid outlet of fluid reservoir 10 connects the inlet of one-level preheater 8 shell.

The condensate liquid liquid outlet of described one-level preheater 8 connects gets back to gas cleaning workshop section as moisturizing.

Described equipment and materials and the selection for pipeline TA2 material with material contact portion.

Claims (31)

1. a flue gas wet-dry change Recovery Purifying treatment system, is characterized in that: comprise flue collector (18), auxiliary flue (19), absorption tower (24), flocculation system (25), crystallization reactor (1), solid-liquid separator one (2), vapo(u)rization system (26), solid-liquid separator four (27); The entrance of described auxiliary flue (19) communicates with flue collector (18) respectively with outlet, the connection absorption tower, gas outlet (24) of flue collector (18), the leakage fluid dram of bottom, absorption tower (24) connects flocculation system (25), flocculation system (25) connects crystallization reactor (1), the discharging opening of crystallization reactor (1) connects solid-liquid separator one (2), the liquid outlet of solid-liquid separator one (2) connects vapo(u)rization system (26), and vapo(u)rization system (26) connects solid-liquid separator four (27); Described auxiliary flue (19) is provided with flour mill (20), grader (21) and high-pressure suction fan (22), described flour mill (20) is connected successively with grader (21), and high-pressure suction fan (22) is positioned at the front end of flour mill (20) or the rear end of grader (21).

2. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 1, is characterized in that: described flue collector (18) is provided with gas mixer (23), and the outlet of described auxiliary flue (19) connects the air inlet of gas mixer (23).

3. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 1, is characterized in that: described flue collector (18) is provided with booster fan, and this booster fan is positioned at auxiliary flue entrance end.

4. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 1, is characterized in that: described flour mill (20) is provided with absorbent entrance and air duct.

5. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 4, it is characterized in that: described absorbent entrance is provided with absorbent measure control assembly, described absorbent measure control assembly comprises the absorbent metered dispensing unit, absorbent conveying device and the absorbent feed bin that are connected successively, and described absorbent metered dispensing unit is connected with absorbent entrance.

6. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 1, it is characterized in that: described flocculation system (25) comprises static pipeline mixer (28), settling tank (29), clear liquid storage tank (31) and dewater unit (30), the delivery port of described static pipeline mixer (28) connects the water inlet of settling tank (29) by pipeline, the top delivery port of settling tank (29) connects clear liquid storage tank (31) by pipeline, the bottom of settling tank (29) connects dewater unit (30) by slush pump, the delivery port of dewater unit (30) connects gets back to settling tank (29).

7. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 6, is characterized in that: described static pipeline mixer (28) and the connecting pipe of settling tank (29) are provided with thermometer.

8. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 6, it is characterized in that: described static pipeline mixer (28) is provided with doctor solution entrance and medicament entrance, and in the angle of 12 °-16 ° between doctor solution inlet duct (32) and medicament inlet duct (33).

9. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 8, is characterized in that: described doctor solution inlet duct (32) is provided with pH value meter.

10. a kind of flue gas wet-dry change Recovery Purifying treatment system according to claim 6, is characterized in that: described dewater unit (30) is plate and frame type filter-press or horizontal spiral centrifuge.

11. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 6, is characterized in that: described static pipeline mixer (28) is auger style static tube mixer.

12. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 1, it is characterized in that: between described solid-liquid separator one (2) and vapo(u)rization system (26), be also connected with cooler crystallizer (11), solid-liquid separator two (12), destilling tower (14), cooling twice crystallizer (15) and a solid-liquid separator three (16) in turn, described solid-liquid separator two (12) connects destilling tower (14) by heat exchanger two (13), and described solid-liquid separator three (16) connects vapo(u)rization system by heat exchanger three (17).

13. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 12, is characterized in that: described solid-liquid separator two (12) connects gets back to crystallization reactor (1); Described solid-liquid separator three (17) connects gets back to a cooler crystallizer (11).

14. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 12, is characterized in that: described solid-liquid separator four (27) connects gets back to cooling twice crystallizer (15).

15. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 12, is characterized in that: the exhaust outlet of described destilling tower (14) connects the bottom of crystallization reactor (1) by booster fan.

16. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 12, is characterized in that: described is once DTB cooler crystallizer with cooling twice crystallizer.

17. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 12, is characterized in that: the leakage fluid dram of described destilling tower (14) passes through the shell side connecting secondary cooler crystallizer (15) of heat exchanger two (13).

18. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 1, is characterized in that: described vapo(u)rization system comprises feed pump (3), preheater (4), heat exchanger one (5), crystal separator (6), compressor (7); The discharging opening of crystallization reactor (1) connects solid-liquid separator one (2), the liquid outlet of solid-liquid separator one (2) connects feed pump (3), feed pump (3) connects preheater (4), the liquid outlet of preheater (4) connects heat exchanger one (5), heat exchanger one (5) is connected by the inlet of forced circulation pump with crystal separator (6), the exhaust outlet of crystal separator (6) is connected by the air inlet of jet chimney with compressor (7), and the exhaust outlet of compressor (7) is connected with the air inlet of heat exchanger one (5) shell.

19. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 18, is characterized in that: described compressor (7) is centrifugal compressor.

20. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 19, is characterized in that: described centrifugal compressor is thtee-stage shiplock, and compressor electric motor joins 160Kw.

21. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 18, is characterized in that: described preheater (4) is divided into one-level preheater (8) and secondary preheater (9).

22. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 21, it is characterized in that: the condensate liquid liquid outlet of described heat exchanger one (5) is connected fluid reservoir (10) with the condensate liquid liquid outlet of secondary preheater (9), the liquid outlet of fluid reservoir (10) connects the inlet of one-level preheater (8) shell.

23. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 21, is characterized in that: the condensate liquid liquid outlet of described one-level preheater (8) connects gets back to gas cleaning workshop section as moisturizing.

24. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 2, it is characterized in that: described gas mixer (23) comprises the vertical blender body (34) arranged, described blender body (34) is provided with the pipeline configuration of buffer board (35) in being, gas approach (36) is provided with in the bottom of described blender body (34), cross section along described blender body (34) bottom is tangentially provided with dry powder absorbent import (37), is provided with mixed flue gas outlet (38) at the top of described blender body (34).

25. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 24, it is characterized in that: described buffer board (35) is horizontally set in blender body (34), be provided with the tapered protrusion to downward-extension in the bottom of described buffer board (35), the conical surface of this tapered protrusion is flue gas guide face (39).

26. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 25, is characterized in that: described flue gas guide face (39) is 15 ° ~ 20 ° with the angle of buffer board (35).

27. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 26, is characterized in that: the diameter of described buffer board (35): internal diameter=1:(1.1 ~ 1.6 of blender body (34)).

28. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 24, it is characterized in that: the quantity of described buffer board (35) is more than one group, often organize buffer board (35) and comprise the first buffer board (42) and the second buffer board (43), the diameter of described first buffer board (42): internal diameter=1:(1.2 ~ 1.6 of blender body (34)); The diameter of described second buffer board (43): internal diameter=1:(1.1 ~ 1.2 of blender body (34)); First buffer board (42) is located at the below of the second buffer board (43).

29. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 28, is characterized in that: described first buffer board (42) to the distance of the second buffer board (43) is 0.8 ~ 1 times of the first buffer board (42) diameter.

30. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to claim 24, is characterized in that: on described buffer board (25), be provided with perforate (40).

31. a kind of flue gas wet-dry change Recovery Purifying treatment systems according to any one of claim 1-30, is characterized in that: described equipment and materials and the selection for pipeline TA2 material with material contact portion.