CN107879320A - The juice circulation device of dust technology produced by a kind of processing nitrotoleune Waste Sulfuric Acid - Google Patents

Abstract

The invention discloses a kind of juice circulation device of nitrotoleune sulfur waste acid treatment low concentration dust technology, including cooler, automatic segregator, manual separation device, change hands groove, nitrogen oxide gas compressor group, nitrogen oxide absorption tower；The cooler, automatic segregator, manual separation device, change hands groove, nitrogen oxide gas compressor group is sequentially connected by liquid line, the nitrogen oxide gas compressor group outlet line is divided into two-way, lead to nitrogen oxide absorption tower through gas line all the way, another way continues the two-way for being divided into parallel connection by liquid line, lead to automatic segregator all the way, another way sets finished product discharge pipe.The nitrotoleune separation of present invention low concentration dust technology suitable for sulfur waste acid treatment and concentration improve, and improve the use value of low value dust technology, preferably solve the problems, such as the line balancing of dust technology, improve the economy of sulfur waste acid treatment device.

Description

The juice circulation device of dust technology produced by a kind of processing nitrotoleune Waste Sulfuric Acid

Technical field

The present invention relates to spent acid concentrate chemical process, dust technology produced by handling nitrotoleune Waste Sulfuric Acid in particular to one kind Juice circulation device.

Background technology

At present, relatively advanced sulfur waste acid treatment process is inhaled for the vacuum concentration of Waste Sulfuric Acid and the pressurization of nitrogen oxide in the world Receive；The condensation dust technology that concentration is 15%-40% is typically produced in the denitration process that Waste Sulfuric Acid is concentrated in vacuo, if Waste Sulfuric Acid is nitre Base toluene spent acid, then contain largely free nitrotoleune in dust technology；Nitrogen oxide caused by Waste Sulfuric Acid denitration process is condensed It is sent into nitrogen oxide pressure oxidation nitrogen absorption tower afterwards to absorb, pressure oxidation nitrogen absorption tower typically uses 0.65mPa operating pressures, absorbs Nitrogen oxide in tail gas concentration of emission≤240mg/m³；Nitrogen oxide absorption tower obtains 50% concentration nitric acid；Dust technology is condensed to be sent into Dust technology groove and 50% nitric acid obtained from smoke of gunpowder nitrogen oxide absorption tower are mixed into 40% dust technology as finished product dust technology Use.

Contain largely free nitro compound in dust technology；The density range of dust technology is 1.1kg/L-1.25kg/L, The density of nitro compound is about 1.19kg/L, and the density of two kinds of materials is very close, it is difficult to realize free nitro compound from Continuously separated in dust technology；In follow-up nitrification production, a large amount of nitro compounds waste, and merge side reaction and produce.

Therefore, it is necessary to develop it is a kind of free nitro compound is successfully separated, the processing nitre of dust technology concentrate to 50% The juice circulation device of dust technology produced by base toluene Waste Sulfuric Acid.

The content of the invention

Present invention aim to solve the deficiency of above-mentioned background technology, there is provided one kind processing nitrotoleune Waste Sulfuric Acid institute Produce the juice circulation device of dust technology.

The technical scheme is that：The juice circulation device of dust technology produced by a kind of processing nitrotoleune Waste Sulfuric Acid, It is characterized in that：

Including cooler, automatic segregator, manual separation device, change hands groove, nitrogen oxide gas compressor group, nitrogen oxide absorption tower；

The cooler, automatic segregator, manual separation device, change hands groove, nitrogen oxide gas compressor group by liquid line according to Secondary connection, the nitrogen oxide gas compressor group outlet line are divided into two-way, lead to nitrogen oxide absorption tower through gas line all the way, another The two-way for being divided into parallel connection is continued on road by liquid line, and all the way towards automatic segregator, another way sets finished product discharge pipe, cooling Active redundancy pipeline is provided between the liquid line in device exit and the liquid line in automatic segregator exit；

Low concentration dust technology coming expects pipe is connected in cooler inlet line, the cooler, automatic segregator, is divided manually From device, change hands groove upper end and connected through gas line and merge, then with the nitrogen oxide gas discharge pipe of process upstream be merged into inlet gas Phase pipe leads to nitrogen oxide gas compressor group；The discharge of the first nitrotoleune is respectively equipped with above the automatic segregator, manual separation device Pipe, the second nitrotoleune discharge pipe；

Nitrogen oxide absorb the bottom of the tower is communicated to the liquid line changed hands between groove, nitrogen oxide gas compressor group by absorbing liquid discharging tube Line.

Preferably, the cooler discharging opening and automatic segregator charging aperture, automatic segregator discharging opening and manual separation Device charging aperture, manual separation device discharging opening are with changing hands groove charging aperture, changing hands groove discharging opening and nitrogen oxide gas compressor group charging aperture is equal Connected by liquid line.

Preferably, in addition to DCS control systems, the first densitometer, the nitrogen oxide pressure are provided with the automatic segregator The liquid line all the way that contracting unit discharging opening leads to automatic segregator is provided with the first regulating valve, first densitometer and first Regulating valve is connected by DCS control systems.

Further, described change hands in groove is provided with first liquid level gauge, and described change hands is provided between groove and nitrogen oxide gas compressor group First delivery pump, the first liquid level gauge are connected with the first delivery pump by DCS control systems；

Further, the finished product discharge pipe is provided with the second densitometer, and the nitrogen oxide on nitrogen oxide absorption tower absorbs water pipe The 3rd regulating valve is provided with, second densitometer is connected with the 3rd regulating valve by DCS control systems.

Further, the absorbing liquid discharging tube is provided with the second regulating valve, and nitrogen oxide absorb the bottom of the tower is provided with the second liquid Position meter, second regulating valve are connected with second liquid level gauge by DCS control systems.

Preferably, the nitrogen oxide absorption tower column plate outer wall sets column plate working solution delivery pipe, the column plate working solution row Pipe is put to connect with manual separation device to the liquid line changed hands between groove.

Preferably, the row's steam condensate (SC) pipe for leading to sour water pond is connected with the low concentration dust technology coming expects pipe.

Above-mentioned free nitro compound is successfully separated, produced by the processing nitrotoleune Waste Sulfuric Acid of dust technology concentrate to 50% The control method of the juice circulation device of dust technology, step are：

Start-up：

By the mass fraction 15%-40% low concentration dust technologies from Waste Sulfuric Acid processing denitration condenser, cool, weight Power sedimentation separation go on a tour from nitrotoleune, control, as the sour nitric acid flow of concentration 50% is started, makes startup from changing hands in groove After acid is mixed into nitrogen oxide gas compressor group with 15%-40% low concentration dust technologies, concentration reaches more than 50%；

Production phase：

A. the mass fraction 15%-40% low concentration dust technologies of denitration condenser will be handled from Waste Sulfuric Acid, are cooled, Control makes it be mixed with 15%-40% low concentration dust technologies from the nitric acid flow of nitrogen oxide gas compressor group mass fraction more than 50% Afterwards, density is more than nitrotoleune density；

B. gravity settling separation goes out the nitrotoleune to dissociate in mixed nitrate, and the mixed nitrate for separating nitrotoleune is passed through The nitrogen oxide gas compressor group improves concentration to more than 50%；

C. the nitric acid of concentration more than 50% part obtained and the quality point subsequently from sulfur waste acid treatment denitration condenser Number 15%-40% low concentrations dust technology carries out step abc and forms circulation technology；Another part is discharged into finished product tank field；

D. caused nitrogen oxide gas merges with nitrogen oxide gas caused by Waste Sulfuric Acid denitration process in system, through the oxygen Change oxidized nitrogen absorption tower absorption discharge again after nitrogen compressor absorbs；

E. absorb the bottom of the tower absorbing liquid is combined into nitrogen oxide gas compressor group raising concentration with mixed nitrate in step b and arrived More than 50%.Dust technology concentration in the present invention is mass percent.

Preferably, the mixed nitrate that nitrotoleune was separated in step b enters back into nitrogen oxide gas compressor group through changing hands groove, leads to Cross and change hands the flow that Liquid level mixed nitrate in groove enters nitrogen oxide gas compressor group.

Preferably, step d is to merge the nitrogen oxide gas that separation process obtains in cooling procedure, step b in step a, Again with Waste Sulfuric Acid denitration process caused by nitrogen oxide gas merge, oxidized nitrogen absorbs again after nitrogen oxide gas compressor absorption Tower absorbs discharge.

Preferably, upper end intakes in the concentrated nitric acid density domination absorption tower exported in step d by nitrogen oxide gas compressor group Amount.

Preferably, the absorption flow quantity of nitrogen oxide gas compressor group is entered in step d by absorb the bottom of the tower Liquid level.

Preferably, step is：

Start-up：

By the mass fraction 15%-40% low concentration dust technologies from Waste Sulfuric Acid processing denitration condenser, cool, weight Power sedimentation separation go on a tour from nitrotoleune, control, as the sour nitric acid flow of concentration 50% is started, makes startup from changing hands in groove After acid is mixed into nitrogen oxide gas compressor group with 15%-40% low concentration dust technologies, concentration reaches more than 50%；

Production phase：

A. the mass fraction 15%-40% low concentration dust technologies of denitration condenser will be handled from Waste Sulfuric Acid, are cooled, Control makes it be mixed with 15%-40% low concentration dust technologies from the concentrated nitric acid flow of nitrogen oxide gas compressor group mass fraction more than 50% After conjunction, density is more than nitrotoleune density；

B. mixed nitrate passes in succession through automatic segregator, manual separation device isolates free nitrotoleune, will separate The mixed nitrate of nitrotoleune is passed through the nitrogen oxide gas compressor group again through changing hands groove, concentration is improved to more than 50%, wherein logical Cross and change hands the flow that Liquid level mixed nitrate in groove enters nitrogen oxide gas compressor group；

C. the nitric acid of concentration more than 50% part obtained is with subsequently coming from sulfur waste acid treatment denitration condenser mass fraction 15%-40% low concentrations dust technology carries out step abc and forms circulation technology；Another part is discharged into finished product tank field；

D. nitrogen oxide gas caused by system intercooler and oxidation nitrogen caused by automatic segregator, manual separation device Body, change hands caused by groove nitrogen oxide gas and merge, then with Waste Sulfuric Acid denitration process caused by nitrogen oxide gas merge, through the oxygen Change oxidized nitrogen absorption tower absorption discharge again after nitrogen compressor set absorbs；The concentrated nitric acid density exported by nitrogen oxide gas compressor group Control upper end inflow in absorption tower；

E. by its flow of absorb the bottom of the tower absorbing liquid Liquid level, nitrogen oxide is combined into mixed nitrate in step b Compressor set improves concentration to more than 50%.

Beneficial effects of the present invention are：

1. 15%-40% low concentrations dust technology and the concentrated nitric acid of concentration 50% are mixed into 37%-40% dilute nitre by the present apparatus Acid, it is ensured that dust technology density is bigger than nitrotoleune all the time, then by gravity settling separation, solves in 15%-40% dust technologies Free nitrotoleune separates the problem of difficult.

2. 15%-40% dust technology concentration is brought up into more than 50%, use value is improved, eliminates nitrogen oxide absorption Tower driving and parking needs to produce a large amount of 30% low concentration dust technologies, it is necessary to the problems such as longer working time acid filling of flower prepares；Add The economy of sulfur waste acid treatment device.

After 3. the oxidized nitrogen compressor set of nitrogen oxide, nitrogen oxide absorption tower absorb, tail gas reaches European emission standard discharge, With it is environment-friendly the advantages of.

4. automaticity is high, pass through the dilute nitre finished acid Density Detection signal of nitrogen oxide gas compressor group 50%, adjustment oxidation Nitrogen absorbing tower apical sink water, more than 50% dust technology for being stablized nitrogen oxide gas compressor group separator.

Brief description of the drawings

Fig. 1 is the juice circulation schematic device of dust technology produced by present invention processing nitrotoleune Waste Sulfuric Acid

Wherein：1- cooler 2- automatic segregator 3- manual separation device 4- active redundancy pipelines 5- changes hands groove 6- nitrogen oxide gas compressors Group 7- nitrogen oxides absorption tower 8- low concentration dust technology coming expects pipe 9- nitrogen oxide gas discharge pipe 10- import gas phase pipe 11- finished products row Outlet pipe 12- the first densitometer 13- the first regulating valve 14- first liquid level gauges 15- the first delivery pump the second densitometers of 16- 17- rows steam Vapour condensate pipe 18- first gas pipeline 19- second gas pipeline 20- third gas pipeline 21- service valve 22- gas pipelines close And the gas pipeline 6.1- nitrogen oxide gas compressor 6.2- separator 7.1- nitrogen oxides of section 5.1- the 4th absorb the work of water pipe 7.2- column plates Liquid delivery pipe 7.3- vapor liquid equilibrium pipe 7.4- absorbing liquid discharging tube 7.5- tail gas discharging pipes 7.6- the second regulating valve the second liquid of 7.7- The position meter regulating valves of 7.8- the 3rd.

Embodiment

The present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, the juice circulation device of dust technology is produced by processing nitrotoleune Waste Sulfuric Acid provided by the invention, Including cooler 1, automatic segregator 2, manual separation device 3, change hands groove 5, nitrogen oxide gas compressor group 6, nitrogen oxide absorption tower 7 and Liquid line and gas line；Nitrogen oxide gas compressor group 6 includes preceding latter linked nitrogen oxide gas compressor 6.1 and separator 6.2.

Cooler 1, automatic segregator 2, manual separation device 3, change hands groove 5, nitrogen oxide gas compressor group 6 by liquid line according to Secondary connection, the outlet line of nitrogen oxide gas compressor group 6 are divided into the two-way of parallel connection, lead to nitrogen oxide absorption tower 7 through gas line all the way, Another way continues the two-way for being divided into parallel connection by liquid line, sets finished product discharge pipe towards automatic segregator 2, another way all the way 11, active redundancy pipeline 4 is provided between the liquid line in the exit of cooler 1 and the liquid line in the exit of automatic segregator 2；Low concentration Dust technology coming expects pipe 8 is connected in the inlet line of cooler 1, and cooler 1, automatic segregator 2, the upper end of manual separation device 3 are through gas Fluid line connection merges, then is merged into import gas phase pipe 10 with the nitrogen oxide gas discharge pipe 9 of process upstream and leads to nitrogen oxide pressure Contracting unit 6.

It is specially in the present embodiment：The upper right side discharging opening of cooler 1 divides with the lower-left endfeed mouth of automatic segregator 2, automatically From the lower right side discharging opening of device 2 and the bottom righthand side charging aperture of manual separation device 3, the upper right side discharging opening of manual separation device 3 and change hands on groove 5 Endfeed mouth, change hands the lower right side of groove 5 and the left side of the first delivery pump 15, the top of the first delivery pump 15 and the left side of nitrogen oxide gas compressor group 6 Side charging aperture is connected by liquid line, and the discharge outlet pipeline of 6 separator of nitrogen oxide gas compressor group 6.2 is divided into the gas-liquid of parallel connection Two-way, leads to the bottom feed mouth of nitrogen oxide absorption tower 7 through gas line all the way, and another way is separated into the two of parallel connection through liquid line Road, connected all the way with the discharge outlet liquid line of cooler 1, another way sets finished product discharge pipe 11.Automatic segregator 2, manually The top of separator 3 is additionally provided with the special discharge line of the nitrotoleune discharge system of separation.The upper right side discharging opening of cooler 1 with Active redundancy pipeline 4 between the liquid line of the lower-left endfeed mouth of automatic segregator 2 is provided with service valve 21, right with automatic segregator 2 Downside discharging opening is connected with the liquid line of the bottom righthand side charging aperture of manual separation device 3.Automatic segregator 2, the top of manual separation device 3 It is respectively equipped with the first nitrotoleune discharge pipe 2.1, the second nitrotoleune discharge pipe 3.1.The bottom of nitrogen oxide absorption tower 7 passes through absorption Liquid discharging tube 7.4 is connected to the liquid line changed hands between groove 5, nitrogen oxide gas compressor group 6.

Present apparatus system also includes DCS control systems, and the first densitometer 12, nitrogen oxide compression are provided with automatic segregator 2 The liquid line all the way that the discharging opening of unit 6 leads to automatic segregator 2 is provided with the first regulating valve 13, the first densitometer 12 and first Regulating valve 13 is connected by DCS control systems；Change hands in groove 5 and be provided with first liquid level gauge, change hands groove 5 and nitrogen oxide gas compressor group 10 Between be provided with the first delivery pump 15, first liquid level gauge is connected with the first delivery pump 15 by DCS control systems, and the first delivery pump 15 pushes up Portion's liquid line is provided with flowmeter 15.1；Finished product discharge pipe 11 is provided with the second densitometer 16, the oxidation on nitrogen oxide absorption tower 7 Nitrogen absorbs water pipe 7.1 and is provided with the 3rd regulating valve 7.8, and the second densitometer 16 is connected with the 3rd regulating valve 7.8 by DCS control systems Connect.Absorbing liquid discharging tube 7.4 is provided with the second regulating valve 7.6, and the bottom of nitrogen oxide absorption tower 7 is provided with second liquid level gauge 7.7, and second Regulating valve 7.6 is connected with second liquid level gauge 7.7 by DCS control systems.

Gas line includes the first gas pipeline 18 of the top of cooler 1 setting, second that the top of automatic segregator 2 is set The third gas pipeline 20 that gas pipeline 19, the top of manual separation device 3 are set, change hands the 4th gas pipeline of the top of groove 5 setting 5.1, first gas pipeline 18, second gas pipeline 19, third gas pipeline 20, the connection of the 4th gas pipeline 5.1, which merge, to be formed Gas pipeline merges section 22, and gas pipeline merges section 22 and nitrogen oxide gas discharge pipe 9 is merged into import gas phase pipe 10 and leads to oxygen Change nitrogen compressor set 6.The bottom of nitrogen oxide absorption tower 7 is connected to gas pipeline by absorbing liquid discharging tube 7.4 and merges section 22.This reality Apply in example and be relatively large in diameter because gas pipeline merges section 22, therefore the liquid of nitrogen oxide gas compressor group 6 to be entered can be passed directly into Gas pipeline merges section 22, then enters nitrogen oxide gas compressor group 6 by import gas phase pipe 10 together with nitrogen oxide gas, so as to inhale Gas pipeline merging section 22 can be also passed directly into by receiving liquid discharging tube 7.4；Also can be directly by the liquid of nitrogen oxide gas compressor group 6 to be entered Body enters nitrogen oxide gas compressor group 6 by fluid pipeline.

The column plate outer wall of nitrogen oxide absorption tower 7 sets column plate working solution delivery pipe 7.2, column plate working solution delivery pipe 7.2 and hand Flow separator 3 to the liquid line changed hands between groove 5 connects.The row's steaming for leading to sour water pond is connected with low concentration dust technology coming expects pipe 8 Vapour condensate pipe 17.Nitrogen oxide absorption tower bubble cap plate cancels column plate discharge orifice, it is ensured that the tower in the case of any amount of water Plate keeps full liquid level；The vapor liquid equilibrium pipe 7.3 at the top of nitrogen oxide absorption tower 7 ensures that nitrogen oxide absorption tower is surprisingly let out in certain layer of column plate Full tower occurs without liquid flooding in the case of leakage, it is ensured that nitrogen oxide absorption tower continuous-stable works.Tail gas is set at the top of nitrogen oxide absorption tower Delivery pipe 7.5.

By said apparatus system, the juice circulation method specific steps of dust technology produced by handling nitrotoleune Waste Sulfuric Acid For：

Start-up：

Steam condensate (SC) caused by start-up flows out from low concentration dust technology coming expects pipe 8, by arranging steam condensate (SC) pipe 17 are discharged into acid waste water system i.e. sour water pond, and valve on steam condensate (SC) pipe 17 is arranged under system normal operation and is closed.

It is first drive or overhaul after start-up, it is relatively low to come from the dust technology concentration of separator 6.2, dilute without adjusting The function of concentration of nitric acid, the valve 21 on active redundancy pipeline 4 is opened, the nitric acid that low concentration dust technology coming expects pipe 8 flows out, is directly entered Manual separation nitrotoleune in manual separation device 3.The dust technology of concentration 50% is noted before driving in groove 5 is changed hands, as start-up Concentration regulation start acid.DCS control systems are with the second densitometer 16 detection nitrogen oxide gas compressor group 6 on finished product discharge pipe 11 The nitric acid density of outflow is signal, and by controlling the aperture of the first delivery pump 15, control, which is changed hands, starts sour flow in groove 5, make startup After acid is mixed into nitrogen oxide gas compressor group with 15%-40% low concentration dust technologies, concentration reaches more than 50%.

Production phase：

A. by the mass fraction 15%-40% low concentration dust technologies from low concentration dust technology coming expects pipe 8, through cooler 1 Heat transfer is cooled to 20 DEG C, promotes the solubility of dust technology para-nitrotoluene to decline.Mass fraction 15%-40% after cooling is low Concentration dust technology adjusts concentration to 37%-40% with the concentrated nitric acid from the mass fraction more than 50% of nitrogen oxide gas compressor group 6 again, This concentration is adjusted to density that DCS control systems are determined using the first densitometer 12 as signal, controls the aperture of the first regulating valve 13, adjusts The whole flow for adding the concentrated nitric acid from the mass fraction more than 50% of nitrogen oxide gas compressor group 6, it is ensured that dust technology density after adjustment All the time bigger than nitrotoleune, dust technology is heavy phase.

B. mixed nitrate passes in succession through automatic segregator 2, manual separation device 3 is isolated free nitrotoleune, then flow automatically Enter to change hands groove 5.The gravitational settling of automatic segregator 2 continuously separates nitrotoleune, manual separation device 3 divides nitrotoleune interval From, nitrotoleune from the special discharge line at automatic segregator 2, the top of manual separation device 3 (the first nitrotoleune discharge pipe 2.1, Second nitrotoleune discharge pipe 3.1) give off system.Change hands groove 5 and remain the liquid level no more than highest liquid level 50%, DCS The liquid level that control system is determined using first liquid level gauge 14 automatically controls the aperture of the first delivery pump 15 as signal, adjusts feed flow, By unnecessary concentration 37%-40% dust technologies by being sent into the import gas phase of the import of nitrogen oxide gas compressor 6.1 through flowmeter 15.1 Pipe 10, concentration is improved to more than 50% by nitrogen oxide gas compressor group 6.

C. the nitric acid of concentration more than 50% part obtained continues and subsequently comes from sulfur waste acid treatment denitration condenser quality Fraction 15%-40% low concentrations dust technology carries out step abc and forms circulation technology；Another part is discharged into finished product tank field.

D. nitrogen oxide gas caused by system intercooler 1 and nitrogen oxide caused by automatic segregator 2, manual separation device 3 Gas, change hands nitrogen oxide gas caused by groove 5 gas pipeline merge section 22 in merge, then with oxidized nitrogen discharge pipe 9 The Waste Sulfuric Acid denitration process of discharge produces nitrogen oxide gas and merged, and entering nitrogen oxide gas compressor group 6 through import gas phase pipe 10 absorbs, 6 unabsorbed nitrogen oxide gas of nitrogen oxide gas compressor group is passed through the bottom of nitrogen oxide absorption tower 7 after being come out from separator 6.2, with water Counter-current absorption, produce 30% low concentration dust technology, the dilute nitre of concentration 37%-40% that the first delivery pump 15 conveys through flowmeter 15.1 Acid is mixed into working solution with 30% low concentration dust technology in absorbing liquid discharging tube 7.4 and adds nitrogen oxide gas compressor group 6；Tail gas reaches European emission standard discharges, and is discharged from the tail gas discharging pipe 7.5 at top.DCS control systems are with second on finished product discharge pipe 11 The nitric acid density that densitometer 16 detects the outflow of nitrogen oxide gas compressor group 6 is signal, by controlling the aperture of the 3rd regulating valve 7.8, i.e., Nitrogen oxide absorbs the inflow of water pipe 7.1 (top of tower of nitrogen oxide absorption tower 7 absorbs water), makes nitrogen oxide gas compressor group separator 6.2 dust technologies of concentration more than 50% stablized.

E.DCS control systems pass through control using the measure liquid level of the bottom second liquid level gauge 7.7 of nitrogen oxide absorption tower 7 as signal The aperture of the second regulating valve 7.6 is made, control merges into the absorption flow quantity of nitrogen oxide gas compressor group 6 with mixed nitrate in step b Concentration is improved to more than 50% into nitrogen oxide gas compressor group, can also avoid the occurrence of flooding.

Delivery pump 15 is two, and one opens one standby, when production failure of pump, starts stand-by pump immediately, can fully ensure that system Consecutive production.This method newly added equipment is few, formerly has nitrogen oxide to absorb and is arranged between Waste Sulfuric Acid treatment process, it is not necessary to Newly-increased place is built.

Claims (8)

1. A kind of 1. juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid, it is characterised in that：

   Including cooler (1), automatic segregator (2), manual separation device (3), change hands groove (5), nitrogen oxide gas compressor group (6), oxygen Change nitrogen absorption tower (7)；

   The cooler (1), automatic segregator (2), manual separation device (3), change hands groove (5), nitrogen oxide gas compressor group (6) passes through Liquid line is sequentially connected, and nitrogen oxide gas compressor group (6) outlet line is divided into two-way, leads to oxidation through gas line all the way Nitrogen absorption tower (7), another way continues the two-way for being divided into parallel connection by liquid line, all the way towards automatic segregator (2), another way Finished product discharge pipe (11) is set, between the liquid line in cooler (1) exit and the liquid line in automatic segregator (2) exit Provided with active redundancy pipeline (4)；

   Low concentration dust technology coming expects pipe (8) is connected in cooler (1) inlet line, the cooler (1), automatic segregator (2), manual separation device (3), change hands groove (5) upper end and connected through gas line and merge, then arranged with the nitrogen oxide gas of process upstream Outlet pipe (9) is merged into import gas phase pipe (10) and leads to nitrogen oxide gas compressor group (6)；The automatic segregator (2), manual separation device (3) top is respectively equipped with the first nitrotoleune discharge pipe (2.1), the second nitrotoleune discharge pipe (3.1)；

   Nitrogen oxide absorption tower (7) bottom is communicated to by absorbing liquid discharging tube (7.4) changes hands groove (5), nitrogen oxide gas compressor group (6) Between liquid line.
2. 2. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 1, it is characterised in that： Cooler (1) discharging opening enters with automatic segregator (2) charging aperture, automatic segregator (2) discharging opening and manual separation device (3) Material mouth, manual separation device (3) discharging opening and change hands groove (5) charging aperture, change hands groove (5) and nitrogen oxide gas compressor group (6) charging aperture Connected by liquid line.
3. 3. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 1, it is characterised in that： Also include DCS control systems, the first densitometer (12), the nitrogen oxide gas compressor group (6) are provided with the automatic segregator (2) The liquid line all the way that discharging opening leads to automatic segregator (2) is provided with the first regulating valve (13), first densitometer (12) It is connected with the first regulating valve (13) by DCS control systems.
4. 4. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 3, it is characterised in that： Described change hands is provided with first liquid level gauge (14) in groove (5), described change hands is provided with first between groove (5) and nitrogen oxide gas compressor group (6) Delivery pump (15), the first liquid level gauge (14) are connected with the first delivery pump (15) by DCS control systems.
5. 5. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 3, it is characterised in that： The finished product discharge pipe (11) is provided with the second densitometer (16), and the nitrogen oxide of nitrogen oxide absorption tower (7) is absorbed on water pipe (7.1) Provided with the 3rd regulating valve (7.8), second densitometer (16) is connected with the 3rd regulating valve (7.8) by DCS control systems.
6. 6. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 1, it is characterised in that： The absorbing liquid discharging tube (7.4) is provided with the second regulating valve (7.6), and nitrogen oxide absorption tower (7) bottom is provided with second liquid level gauge (7.7), second regulating valve (7.6) is connected with second liquid level gauge (7.7) by DCS control systems.
7. 7. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 1, it is characterised in that： Nitrogen oxide absorption tower (7) the column plate outer wall sets column plate working solution delivery pipe (7.2), the column plate working solution delivery pipe (7.2) connected with manual separation device (3) to the liquid line changed hands between groove (5).
8. 8. the juice circulation device of dust technology produced by processing nitrotoleune Waste Sulfuric Acid as claimed in claim 1, it is characterised in that： The row's steam condensate (SC) pipe (17) for leading to sour water pond is connected with low concentration dust technology coming expects pipe (8).