CN201470142U - System for purifying and recovering organic waste gas - Google Patents

Abstract

The utility model discloses a system for purifying and recovering organic waste gas, which comprises a cooling and mutually-soluble absorbing device, a solvent storage tank, a solvent cooler, a water cooling tower, a water pool, a solvent pump and a water pump, wherein the cooling and mutually-soluble absorbing device comprises a shell, a liquid film cooling mutually-soluble area, a liquid spraying mixed area, a central cyclone and peripheral liquid film cooling mutually-soluble convection and water cooling heat exchange device, a wind-resisting liquid-spraying device, a liquid film cooling mutually-soluble convection and water cooling heat change device and a solvent liquid flow distributor; and a shell is provided with an organic waste gas inlet, a cooling water inlet, a cooling water outlet, a solvent liquid outlet and a solvent liquid inlet pipe mouth. The system for purifying and recovering organic waste gas has higher solvent recovering rate, no secondary pollution, low running cost and less equipment investment when in use.

Description

A kind of organic waste-gas purification recovery system

Technical field

The utility model relates to a kind of organic waste-gas purification recovery system.

Background technology

The scope of application of finishing line is very wide, comprises the application, corium coating, car surface spraying, color steel spraying of application, the sheet material of industrial part etc., various finishing lines in running because of adopting organic solvent can produce a large amount of organic exhaust gas.In addition, the vent gas treatment in application workshop and the vent gas treatment of machine room etc. also need organic exhaust gas is handled.Processing method to organic exhaust gas can be divided into two big classes at present, and the first kind is a burn processing method, and second class is a recovery and treatment method.

Burn processing method comprises direct firing method and Production by Catalytic Combustion Process.Directly firing method is to utilize auxiliary fuel burning liberated heats such as combustion gas or fuel oil that mist is heated to more than 700 ℃, resident 0.3s～0.5s, and making flammable harmful substance carry out pyrolytic is innocuous substance.This method technology is simple, equipment investment is little, is suitable for high concentration, little air quantity waste gas pollution control and treatment, good, the non-secondary pollution of treatment effect.But this method energy consumption is big, the operating cost height, and running technology requires high, wayward and grasp.And do not reclaim solvent, serious waste of resources yet.Production by Catalytic Combustion Process is that waste gas is heated to more than 200 ℃, and process catalytic bed catalytic combustion changes into the carbon dioxide and the water of harmless odorless, reaches the purification purpose, this method initiation temperature is low, energy savings, purifying rate height, non-secondary pollution, technology is simple, easy to operate, security is good, and device volume is little, floor space is little, and maintenance of equipment and depreciation cost are low.But this method is applicable to the organic exhaust gas improvement of high temperature or high concentration, and has the shortcoming that equipment investment is big, operating cost is high for the organic exhaust gas improvement of low concentration, big air quantity.And do not reclaim solvent, serious waste of resources yet.

Aspect recycling, mainly contain three kinds of methods.The one, the condensation absorption method.This method is that organic exhaust gas is directly imported condenser or again the thickened waste conductance of desorb gone into condenser earlier after adsorbing, and condensate liquid is through separating recyclable valuable organic matter.But this method requires organic concentration height in the waste gas, temperature is low, air quantity is little etc., and need cooling or the condensing plant set up, investment is big, energy consumption is high, operating cost is big, and tail gas still contains certain density organic matter after the condensation, need carry out secondary low concentration treating tail gas.The 2nd, use water absorption method.This method is that organic exhaust gas is fed in the water, by water wherein organic solvent is dissolved absorption.But the limitation of this method is bigger, and the organic solvent that is absorbed must can be dissolved in water.The 3rd, active carbon adsorption.This is present the most frequently used class methods.

Because the organic exhaust gas that finishing line produced often flow velocity reaches per hour 10 ten thousand steres, and the content of organic solvent has only several grams in every cubic metre the waste gas, and is all inapplicable except that active carbon adsorption in the said method.Though and for acticarbon, can absorb preferably, if contain the resinae material in the organic exhaust gas, then stop up the duct of active carbon easily and inactivation.Thereby concerning this class paint line, be difficult to adopt active carbon adsorption.Have again, after adopting the charcoal absorption organic solvent to reach capacity, need heat and the adsorbed organic solvent of active carbon is evaporated, also will carry out water-oil separating etc. and could reclaim organic solvent with steam, the energy that is consumed is higher, thereby cost is also higher.Chinese patent literature CN101274150A, CN101293165A, CN201140028Y etc. all disclose this method.

The utility model content

The purpose of this utility model is to overcome the problems referred to above, provides that not only solvent recovering rate is higher in a kind of use, non-secondary pollution, and the organic waste-gas purification recovery system that operating cost is low, equipment investment is few.

The technical scheme that realizes the utility model purpose is: a kind of organic waste-gas purification recovery system comprises cooling miscible absorption device, solvent tank, solvent cooler, water cooling tower, pond, solvent pump and water pump.

Above-mentioned cooling miscible absorption device comprise housing that the top is opened wide and by the corresponding site of housing as one of component parts or component parts, the liquid that is positioned at the bottom that sets gradually according to from bottom to top order drenches the mixed zone, be positioned at central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig that liquid drenches the top, mixed zone, be positioned at the choke formula liquid shower device of the central authorities top of central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, be positioned at the formula convection current of liquid film cooling miscible and the water-cooled heat-exchanger rig of choke formula liquid shower device top, be positioned at the solvent fluid flow distributor of formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig top; Cooling miscible absorption device also comprises the liquid film cooling miscible district between the formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig and central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig; Housing is provided with organic exhaust gas air inlet, cooling water inlet, coolant outlet, solvent liquid outlet and the solvent feed liquor mouth of pipe; Described solvent tank comprises tank shell and the cooling coil that is arranged in the tank shell; Tank shell is provided with solvent inlet, the first solvent liquid outlet and the second solvent liquid outlet, also is provided with water inlet pipe mouth and effluent pipe mouth; Described solvent cooler comprises shell body and the heat exchanger that is arranged in the shell body; Shell body is provided with cooling water inlet and coolant outlet, also is provided with solvent inlet and solvent liquid outlet; Described water cooling tower comprises water inlet pipe mouth and effluent pipe mouth, and water cooling tower is positioned at the top in described pond, and the effluent pipe mouth of water cooling tower stretches in the pond; Water pump has 2, and they are first water pump and second water pump; The water inlet of each water pump is connected with water inlet pipe, and the water inlet of water inlet pipe stretches in the pond or directly and links to each other with the delivery port in pond; The delivery port of first water pump is connected with the cooling water inlet of cooling miscible absorption device by pipeline, and the delivery port of second water pump is connected with the water inlet of the cooling coil of solvent tank and the cooling water inlet of solvent cooler respectively by pipeline; The delivery port of the coolant outlet of cooling miscible absorption device, the cooling coil of solvent tank and the coolant outlet of solvent cooler are connected with the water inlet pipe mouth of water cooling tower by pipeline respectively; The solvent liquid outlet of described cooling miscible absorption device is connected with the solvent inlet of solvent tank by pipeline, the second solvent liquid outlet of described solvent tank is connected with the solvent inlet of solvent cooler by pipeline and solvent pump, and the solvent liquid outlet of solvent cooler links to each other by the feed tube that the pipeline and the inlet of the solvent fluid flow distributor of cooling miscible absorption device are positioned at the solvent feed liquor mouth of pipe place of housing; The first solvent liquid outlet place of solvent tank is connected with the solvent bleeder by pipeline.

The central cyclone of above-mentioned cooling miscible absorption device and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig comprise central breather pipe and the 3rd tubulation assembly that is arranged in the housing; Cooling miscible absorption device also comprises the organic exhaust gas air inlet pipe on the organic exhaust gas air inlet that is connected housing; The cooling water inlet of housing comprises the 3rd cooling water inlet, and the coolant outlet of housing comprises the 3rd coolant outlet; The organic exhaust gas air inlet pipe is connected with the organic exhaust gas air inlet of housing along the tangential direction setting of the cylindrical shell of housing and the outlet of organic exhaust gas air inlet pipe; The 3rd tubulation assembly comprises the 3rd tubulation group, the 3rd upper perforated plate and the 3rd lower perforated plate; The 3rd lower perforated plate sealing and fixing and is positioned at the top of the organic exhaust gas air inlet of housing on the inwall of housing; The 3rd upper perforated plate sealing and fixing is on the inwall of housing, and be positioned at the top of the 3rd lower perforated plate, each tubulation of the 3rd tubulation group is fixed on described the 3rd upper perforated plate and the 3rd lower perforated plate, and the upper end of each tubulation protrudes upward the 3rd upper perforated plate, and the lower ends downward of each tubulation is stretched out the 3rd lower perforated plate; The 3rd cooling water inlet and the 3rd coolant outlet all between the 3rd upper perforated plate and the 3rd lower perforated plate and the 3rd cooling water inlet near the 3rd lower perforated plate; The 3rd coolant outlet is positioned at the 3rd cooling water inlet top and close the 3rd upper perforated plate; Central authorities' breather pipe up/down perforation, by airtight laterally being fixed on the 3rd upper perforated plate and the 3rd lower perforated plate of its week, and the upper end of central breather pipe stretches out the 3rd upper perforated plate, the 3rd lower perforated plate is stretched out in the lower end of central breather pipe.

The choke formula liquid shower device of above-mentioned cooling miscible absorption device comprises the cap that stops that is arranged in the housing; Stop that cap comprises cap body and liquid stream rotary part; The cap body be shaped as conical shell, its vertex of a cone is positioned at the top; Liquid stream rotary part comprises the truncated cone-shaped housing and is weldingly fixed on 6～12 strip connecting plates on the truncated cone-shaped housing lower surface, the strip connecting plate be shaped as involute shape; Each strip connecting plate of liquid stream rotary part is centrosymmetric and is arranged on the truncated cone-shaped housing, and liquid stream rotary part is weldingly fixed on the upper surface of cap body by the lower surface of its each connecting plate; Stop that cap is fixed on the housing by fixed mount or on the 3rd upper perforated plate of the 3rd tubulation assembly, and be positioned at the top of central breather pipe.

The formula convection current of liquid film cooling miscible and the water-cooled heat-exchanger rig of above-mentioned cooling miscible absorption device comprise the second tubulation assembly; The cooling water inlet of housing comprises second cooling water inlet, and the coolant outlet of housing comprises second coolant outlet; The second tubulation assembly comprises the second tubulation group, second upper perforated plate and second lower perforated plate; The second lower perforated plate sealing and fixing and is positioned at the top of choke formula liquid shower device on the inwall of housing; The second upper perforated plate sealing and fixing is on the inwall of housing, and be positioned at the top of second lower perforated plate, each tubulation of the second tubulation group is fixed on described second upper perforated plate and second lower perforated plate, and the upper end of each tubulation protrudes upward second upper perforated plate, and the lower ends downward of each tubulation is stretched out second lower perforated plate; Second cooling water inlet and second coolant outlet all between second upper perforated plate and second lower perforated plate and second cooling water inlet near second lower perforated plate; Second coolant outlet is positioned at second cooling water inlet top and close second upper perforated plate.

The solvent fluid flow distributor of above-mentioned cooling miscible absorption device comprises that also solvent tank and inlet are arranged on 4～12 drain pipes on solvent tank top, and the liquid outlet of each drain pipe is towards second upper perforated plate of the second tubulation assembly of below; 4～12 drain pipes center on the casing periphery setting of solvent tank; The liquid outlet of the feed tube of solvent fluid flow distributor links to each other with the inlet of solvent tank.

Above-mentioned cooling miscible absorption device comprises that also netted cooler, tail gas water-cooled heat-exchanger rig and top pull out fan housing; The cooling water inlet of housing comprises first cooling water inlet, and the coolant outlet of housing comprises first coolant outlet; Tail gas water-cooled heat-exchanger rig comprises the first tubulation assembly; The first tubulation assembly is arranged in housing, is positioned at the top of solvent fluid flow distributor; The first tubulation assembly comprises the first tubulation group, first upper perforated plate and first lower perforated plate; The first lower perforated plate sealing and fixing and is positioned at the top of solvent fluid flow distributor on the inwall of housing; The first upper perforated plate sealing and fixing is on the inwall of housing, and be positioned at the top of first lower perforated plate, each tubulation of the first tubulation group is fixed on described first upper perforated plate and first lower perforated plate, and the upper end of each tubulation protrudes upward first upper perforated plate, and the lower ends downward of each tubulation is stretched out first lower perforated plate; First cooling water inlet and second coolant outlet all between first upper perforated plate and first lower perforated plate and first cooling water inlet near first lower perforated plate; First coolant outlet is positioned at first cooling water inlet top and close first upper perforated plate; Netted cooler is by at each layer flat steel wire that stacks on the above-below direction be sandwiched in pipe network between adjacent each layer flat steel wire and be staggered and form; Each pipe network is around the cylindric thing that forms by the stainless (steel) wire coiled sheet; Netted cooler is arranged in the liquid film cooling miscible district, and each layer flat steel wire and housing are fixed together; The top is pulled out fan housing and is fixed on the housing by support, and is positioned at the top of housing.

Organic waste-gas purification recovery system of the present utility model also comprises pretreating device; Described pretreating device comprises shell, air inlet pipe, flame-retardant device, prime tubulation assembly and escape pipe; Shell comprises air inlet, gas outlet, cooling water inlet and coolant outlet; Air inlet pipe is by air inlet place airtight fixedly connected of its place, gas outlet with shell; Escape pipe is located airtight fixedlying connected by its air inlet place with the gas outlet of shell; Flame-retardant device is made of superimposed being arranged in the air inlet pipe of stainless steel cloth; Prime tubulation assembly comprises prime tubulation group, front tube sheet and back tube sheet; The front tube sheet sealing and fixing and is arranged in the front side of shell on the inwall of shell; The back tube sheet sealing and fixing and is positioned at the rear of front tube sheet on the inwall of shell, each tubulation of prime tubulation group is fixed on described front tube sheet and the back tube sheet, and the front end of each tubulation stretches out front tube sheet forward, and the rear end of each tubulation is stretched out back tube sheet backward; Cooling water inlet and coolant outlet are all between front tube sheet and back tube sheet, and cooling water inlet is near back tube sheet and be positioned at the downside of shell; Coolant outlet is positioned at the upside and the close front tube sheet of shell; The place, gas outlet of escape pipe is connected with the air inlet of the organic exhaust gas air inlet pipe of cooling miscible absorption device; The cooling water inlet of described shell is connected with the coolant outlet of cooling miscible absorption device by pipeline, and the coolant outlet of shell is connected with the water inlet pipe mouth of water cooling tower by pipeline.

The utlity model has positive effect: (1) system architecture of the present utility model is simple, and equipment investment is few, energy resource consumption is lower, and operating cost is also lower, is suitable for large tracts of land and promotes the use of.(2) for the paint line of 10 tons of paint of daily consumption, about 5 tons of the consumption of organic solvent, wherein major part is the aromatic hydrocarbons organosilane ester, its average price is 7000 yuan/ton, so the organic solvent of discharging every day is worth up to 3.5 ten thousand yuan.And, retrieve 2.8 ten thousand yuan with the organic solvent of system of the present utility model recyclable 80%, reclaimed materials can reach 1.5 ten thousand yuan after handling at a discount.System dynamic consumption of the present utility model has only 3 circulating pumps, is about 50kw, calculates day power consumption by the 8h that works every day and is 400kwh, and manufacturing cost is lower than 1,500,000 yuan, cost recovery substantially in 3 months.

Description of drawings

Fig. 1 is a kind of structural representation of organic waste-gas purification recovery system of the present utility model;

Fig. 2 is the another kind of structural representation of organic waste-gas purification recovery system of the present utility model;

Fig. 3 is the structural representation of cooling miscible absorption device in the system of Fig. 1;

Fig. 4 is the structural representation that stops cap among Fig. 3;

Fig. 5 is the structural representation of the netted cooler among Fig. 3;

Fig. 6 is the structural representation of the solvent fluid flow distributor among Fig. 3.

Mark in the above-mentioned accompanying drawing is as follows:

Pretreating device 1, shell 11, air inlet 11-1, gas outlet 11-2, cooling water inlet 11-3, coolant outlet 11-4, air inlet pipe 12, flame-retardant device 13, prime tubulation assembly 14, prime tubulation group 14-1, front tube sheet 14-2, back tube sheet 14-3, escape pipe 15,

Cooling miscible absorption device 2, top pull out fan housing 20, housing 21, organic exhaust gas air inlet 21-1, the first cooling water inlet 21-2, the first coolant outlet 21-3, the second cooling water inlet 21-4, the second coolant outlet 21-5, the 3rd cooling water inlet 21-6, the 3rd coolant outlet 21-7, solvent liquid outlet 21-8, solvent feed liquor mouth of pipe 21-9

The 3rd tubulation assembly 22, the three tubulation group 22-1, the 3rd upper perforated plate 22-2, the 3rd lower perforated plate 22-3,

Stop cap 23, cap body 23-1, liquid stream rotary part 23-2, truncated cone-shaped housing 23-2-1, strip connecting plate 23-2-2, netted cooler 24, silk screen 24-1, pipe network 24-2,

The second tubulation assembly, 25, the second tubulation group 25-1, the second upper perforated plate 25-2, the second lower perforated plate 25-3,

Solvent fluid flow distributor 26, feed tube 26-1, solvent tank 26-2, drain pipe 26-3,

The first tubulation assembly, 27, the first tubulation group 27-1, the first upper perforated plate 27-2, the first lower perforated plate 27-3, central breather pipe 28, organic exhaust gas air inlet pipe 29,

Solvent tank 3, tank shell 31, solvent inlet 31-1, the first solvent liquid outlet 31-2, the second solvent liquid outlet 31-3, water inlet pipe mouth 31-4, effluent pipe mouth 31-5, cooling coil 32,

Solvent cooler 4, shell body 41, cooling water inlet 41-1, coolant outlet 41-2, solvent inlet 41-3, solvent liquid outlet 41-4, heat exchanger 42,

Water cooling tower 5, water inlet pipe mouth 51, effluent pipe mouth 52,

Pond 6,

Solvent pump 71, solvent bleeder 72,

First water pump, 81, the second water pumps 82.

The specific embodiment

(embodiment 1)

See Fig. 3, present embodiment is the cooling miscible absorption device of organic waste-gas purification recovery system.The liquid that is positioned at the bottom that this device comprises the housing 21 that opens wide the top, set gradually according to from bottom to top order drenches mixed zone, central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, choke formula liquid shower device, the formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig, solvent fluid flow distributor 26.Comprise that also tail gas water-cooled heat-exchanger rig, netted cooler 24, top pull out the liquid film cooling miscible district between fan housing 20 and the formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig and central cyclone and peripheral liquid film cooling miscible formula convection current and the water-cooled heat-exchanger rig.Housing 21 is provided with organic exhaust gas air inlet 21-1, cooling water inlet, coolant outlet, solvent liquid outlet 21-8 and solvent feed liquor mouth of pipe 21-9.Cooling water inlet comprises the first cooling water inlet 21-2, and the coolant outlet of housing 21 comprises the first coolant outlet 21-3.

Central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig comprise central breather pipe 28 and the 3rd tubulation assembly 22 that is arranged in the housing 21.Cooling miscible absorption device 2 also comprises the organic exhaust gas air inlet pipe 29 on the organic exhaust gas air inlet 21-1 that is connected housing 21.The cooling water inlet of housing 21 comprises the 3rd cooling water inlet 21-6, and the coolant outlet of housing 21 comprises the 3rd coolant outlet 21-7.Organic exhaust gas air inlet pipe 29 is connected with the organic exhaust gas air inlet 21-1 of housing 21 along the tangential direction setting of the cylindrical shell of housing 21 and the outlet of organic exhaust gas air inlet pipe 29.The 3rd tubulation assembly 22 comprises the 3rd tubulation group 22-1, the 3rd upper perforated plate 22-2 and the 3rd lower perforated plate 22-3.The 3rd lower perforated plate 22-3 sealing and fixing and is positioned at the top of the organic exhaust gas air inlet 21-1 of housing 21 on the inwall of housing 21.The 3rd upper perforated plate 22-2 sealing and fixing is on the inwall of housing 21, and be positioned at the top of the 3rd lower perforated plate 22-3, each tubulation of the 3rd tubulation group 22-1 is fixed on described the 3rd upper perforated plate 22-2 and the 3rd lower perforated plate 22-3, and the upper end of each tubulation protrudes upward the 3rd upper perforated plate 22-2, and the lower ends downward of each tubulation is stretched out the 3rd lower perforated plate 22-3.The 3rd cooling water inlet 21-6 and the 3rd coolant outlet 21-7 all between the 3rd upper perforated plate 22-2 and the 3rd lower perforated plate 22-3 and the 3rd cooling water inlet 21-6 near the 3rd lower perforated plate 22-3.The 3rd coolant outlet 21-7 is positioned at the 3rd cooling water inlet 21-6 top and close the 3rd upper perforated plate 22-2.Central authorities' breather pipe 28 up/down perforations, by airtight laterally being fixed on the 3rd upper perforated plate 22-2 and the 3rd lower perforated plate 22-3 of its week, and the upper end of central breather pipe 28 stretches out the 3rd upper perforated plate 22-2, the 3rd lower perforated plate 22-3 is stretched out in the lower end of central breather pipe 28.

Choke formula liquid shower device comprises being arranged on and stops cap 23 in the housing 21.See Fig. 4, stop that cap 23 comprises cap body 23-1 and liquid stream rotary part 23-2.Cap body 23-1 is shaped as conical shell, and its vertex of a cone is positioned at the top.Liquid stream rotary part 23-2 comprises truncated cone-shaped housing 23-2-1 and is weldingly fixed on 6～12 strip connecting plate 23-2-2 on the truncated cone-shaped housing 23-2-1 lower surface, and strip connecting plate 23-2-2 is shaped as involute shape.Each strip connecting plate 23-2-2 of liquid stream rotary part 23-2 is centrosymmetric and is arranged on the truncated cone-shaped housing 23-2-1, and liquid stream rotary part 23-2 is weldingly fixed on the upper surface of cap body 23-1 by the lower surface of its each connecting plate 23-2-2.Stop cap 23 be fixed on the housing 21 by fixed mount or the 3rd upper perforated plate 22-2 of the 3rd tubulation assembly 22 on, and be positioned at the top of central breather pipe 28.

Formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig comprise the second tubulation assembly 25.The cooling water inlet of housing 21 comprises the second cooling water inlet 21-4, and the coolant outlet of housing 21 comprises the second coolant outlet 21-5.The second tubulation assembly 25 comprises the second tubulation group 25-1, the second upper perforated plate 25-2 and the second lower perforated plate 25-3.The second lower perforated plate 25-3 sealing and fixing and is positioned at the top of choke formula liquid shower device on the inwall of housing 21.The second upper perforated plate 25-2 sealing and fixing is on the inwall of housing 21, and be positioned at the top of the second lower perforated plate 25-3, each tubulation of the second tubulation group 25-1 is fixed on the described second upper perforated plate 25-2 and the second lower perforated plate 25-3, and the upper end of each tubulation protrudes upward the second upper perforated plate 25-2, and the lower ends downward of each tubulation is stretched out the second lower perforated plate 25-3.The second cooling water inlet 21-4 and the second coolant outlet 21-5 all between the second upper perforated plate 25-2 and the second lower perforated plate 25-3 and the second cooling water inlet 21-4 near the second lower perforated plate 25-3.The second coolant outlet 21-5 is positioned at second cooling water inlet 21-4 top and the close second upper perforated plate 25-2.

See Fig. 6, solvent fluid flow distributor 26 comprises that also solvent tank 26-2 and inlet are arranged on 8 drain pipe 26-3 on solvent tank 26-2 top, and the liquid outlet of each drain pipe 26-3 is towards the second upper perforated plate 25-2 of the second tubulation assembly 25 of below.8 drain pipe 26-3 center on the casing periphery setting of solvent tank 26-2.The liquid outlet of the feed tube 26-1 of solvent fluid flow distributor 26 links to each other with the inlet of solvent tank 26-2.

Tail gas water-cooled heat-exchanger rig comprises the first tubulation assembly 27.The first tubulation assembly 27 is arranged in housing 21, is positioned at the top of solvent fluid flow distributor 26.The first tubulation assembly 27 comprises the first tubulation group 27-1, the first upper perforated plate 27-2 and the first lower perforated plate 27-3.The first lower perforated plate 27-3 sealing and fixing and is positioned at the top of solvent fluid flow distributor 26 on the inwall of housing 21.The first upper perforated plate 27-2 sealing and fixing is on the inwall of housing 21, and be positioned at the top of the first lower perforated plate 27-3, each tubulation of the first tubulation group 27-1 is fixed on the described first upper perforated plate 27-2 and the first lower perforated plate 27-3, and the upper end of each tubulation protrudes upward the first upper perforated plate 27-2, and the lower ends downward of each tubulation is stretched out the first lower perforated plate 27-3.The first cooling water inlet 21-2 and the second coolant outlet 21-3 all between the first upper perforated plate 27-2 and the first lower perforated plate 27-3 and the first cooling water inlet 21-2 near the first lower perforated plate 27-3.The first coolant outlet 21-3 is positioned at first cooling water inlet 21-2 top and the close first upper perforated plate 27-2.The waste gas of being discharged by tail gas water-cooled heat-exchanger rig reaches discharge standard.

See Fig. 5, netted cooler 24 is by at each layer flat steel wire 24-1 that stacks on the above-below direction be sandwiched in pipe network 24-2 between adjacent each layer flat steel wire 24-1 and be staggered and form.Each pipe network 24-2 is around the cylindric thing that forms by the stainless (steel) wire coiled sheet.Netted cooler 24 is arranged in the liquid film cooling miscible district, and each layer flat steel wire 24-1 and housing 21 are fixed together.

The top is pulled out fan housing 20 and is fixed on the housing 21 by support, and is positioned at the top of housing 21.

(embodiment 2)

See Fig. 1, present embodiment is the organic waste-gas purification recovery system, and this system also comprises solvent tank 3, solvent cooler 4, water cooling tower 5, pond 6, solvent pump 71 and water pump except the cooling miscible absorption device 2 that comprises embodiment 1.

Described solvent tank 3 comprises tank shell 31 and the cooling coil 32 that is arranged in the tank shell.Tank shell 31 is provided with solvent inlet 31-1, the first solvent liquid outlet 31-2 and the second solvent liquid outlet 31-3, also is provided with water inlet pipe mouth 31-4 and effluent pipe mouth 31-5.

Described solvent cooler 4 comprises shell body 41 and the heat exchanger 42 that is arranged in the shell body 41.Shell body 41 is provided with cooling water inlet 41-1 and coolant outlet 41-2, also is provided with solvent inlet 41-3 and solvent liquid outlet 41-4.

Described water cooling tower 5 comprises water inlet pipe mouth 51 and effluent pipe mouth 52, and water cooling tower 5 is positioned at the top in described pond 6, and the effluent pipe mouth 52 of water cooling tower 5 stretches in the pond 6.

Water pump has 2, and they are first water pump 81 and second water pump 82.The water inlet of each water pump 81,82 is connected with water inlet pipe, and the water inlet of water inlet pipe stretches in the pond 6 or directly and links to each other with the delivery port in pond 6.The delivery port of first water pump 81 is connected by the cooling water inlet of pipeline with cooling miscible absorption device 2, and the delivery port of second water pump 82 is connected with the water inlet of the cooling coil 32 of solvent tank 3 and the cooling water inlet 41-1 of solvent cooler 4 respectively by pipeline.The delivery port of the cooling coil 32 of the coolant outlet of cooling miscible absorption device 2, solvent tank 3 and the coolant outlet 41-2 of solvent cooler 4 are connected with the water inlet pipe mouth 51 of water cooling tower 5 by pipeline respectively.

The solvent liquid outlet 21-8 of described cooling miscible absorption device 2 is connected with the solvent inlet 31-1 of solvent tank 3 by pipeline, the second solvent liquid outlet 31-3 of described solvent tank 3 is connected with the solvent inlet 41-3 of solvent cooler 4 by pipeline and solvent pump 71, and the solvent liquid outlet 41-4 of solvent cooler 4 links to each other by the feed tube 26-1 that the pipeline and the inlet of the solvent fluid flow distributor 26 of cooling miscible absorption device 2 are positioned at the solvent feed liquor mouth of pipe 21-9 place of housing 21.The first solvent liquid outlet 31-2 place of solvent tank 3 is connected with solvent bleeder 72 by pipeline.

Above-mentioned organic waste-gas purification recovery system purifies the method that reclaims organic exhaust gas, has following steps:

1. by first water pump 81 with pumping the back as the cooling medium cooling water and enter the housing 21 and enter in the tail gas water-cooled heat-exchanger rig from the first cooling water inlet 21-2 of cooling miscible absorption device 2 in the pond 6 by pipeline, flow through the first tubulation assembly, 27 backs at the outer surface of each tubulation of the first tubulation assembly 27 and leave tail gas water-cooled heat-exchanger rig from the first coolant outlet 21-3.Cooling water enters the housing 21 and enters formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig from the second cooling water inlet 21-4 then, leaves the formula convection current of liquid film cooling miscible and the water-cooled heat-exchanger rig of cooling miscible absorption device 2 after the outer surface of each tubulation of the second tubulation group 25-1 flows through the second tubulation group 25-1 from the second coolant outlet 21-5.Cooling water enters the housing 21 and enters central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig from the 3rd cooling water inlet 21-6 then, after flowing through the 3rd tubulation group 22-1, the outer surface of each tubulation of the 3rd tubulation group 22-1 leaves cooling miscible absorption device 2 from the 3rd coolant outlet 21-7, and, after water cooling tower 5 coolings, flow in the pond 6 recycling again by pipeline inflow water cooling tower 5.

By second water pump 82 cooling water as cooling medium in the pond 6 being pumped the back enters the cooling coil 32 by the water inlet of a pipeline part from the cooling coil 32 of solvent tank 3, the organic solvent that flows through cooling coil 32 outer surfaces in the solvent tank 3 is cooled off, cooling water is flowed out, is flowed into water cooling tower 5 by pipeline by the delivery port of cooling coil 32 subsequently, flows in the pond 6 recycling after water cooling tower 5 coolings again.

The cooling water that pumps through second water pump 82 by pipeline after another part enter the shell body 41 of solvent cooler 4 from the cooling water inlet 41-1 of solvent cooler 4, flow through heat exchanger 42 from the outer surface of heat exchanger 42, cooling water is flowed out, is flowed into water cooling tower 5 by pipeline by the coolant outlet 41-2 of shell body 41 subsequently, flows in the pond 6 recycling after water cooling tower 5 coolings again.

2. store liquid organic media in the solvent tank 3, when the organic media of wherein stored liquid state surpasses a definite amount, then emit a part and reclaim from the first solvent liquid outlet 31-2.To be stored in the solvent tank 3 after liquid organic media pumps by solvent pump 71, enter in the shell body 41 of solvent cooler 4 through the solvent inlet 41-3 of solvent cooler 4 by pipeline, from the inner chamber of heat exchanger 42, flow through heat exchanger 42, and the cooling water heat-shift that flows through with outer surface and being cooled from heat exchanger 42, liquid organic media flows out from the solvent liquid outlet 41-4 of solvent cooler 4 subsequently, the feed tube 26-1 of solvent fluid flow distributor 26 of cooling miscible absorption device 2 that is arranged on the solvent feed liquor mouth of pipe 21-9 place of cooling miscible absorption device 2 by pipeline by inlet enters among the solvent tank 26-2 of solvent fluid flow distributor 26, flows out to earlier the second upper perforated plate 25-2 of the second tubulation assembly 25 downwards from 8 drain pipe 26-3.Organic media liquid under the effect of gravity flows into liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig through the drain pipe 26-3 of solvent fluid flow distributor 26, in the inner chamber of each root tubulation of the second tubulation group 25-1 of formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig, flow through the second tubulation group 25-1 from top to bottom, being liquid film cooling miscible shape by formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig falls and enters liquid film cooling miscible district, and pass through the netted cooler 24 that is arranged in the liquid film cooling miscible district, thereby some liquid organic media remains on the netted cooler 24.The part that is positioned at periphery of organic media that enters the liquid state in liquid film cooling miscible district directly enters central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, from the inner chamber of each tubulation of the 3rd tubulation group 22-1 of central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig from top to bottom through the 3rd tubulation group 22-1.And after the organic media of liquid state that is positioned at central authorities falls to the upper surface of choke formula liquid shower device earlier, a part directly falls on the upper surface of cap body 23-1, another part falls to earlier on the truncated cone-shaped housing 23-2-1 of liquid stream rotary part 23-2, flow on the upper surface of cap body 23-1 downwards, the organic media that is in the liquid state on the cap body 23-1 upper surface is the eddy flow shape and flows down and become the liquid stream that liquid drenches the curtain wall shape along cap body 23-1 upper surface under the guiding of strip connecting plate 23-2-2.Under the gravity effect, be liquid pouring curtain wall shape again and fall to entering central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig at the surrounding edge place of choke formula liquid shower device.The organic media of liquid state that enters central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig is under the gravity effect, being liquid film cooling miscible shape flows out central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig and enters liquid pouring mixed zone, fall to the bottom of housing 21 then, after flowing out cooling miscible absorption device 2 by the solvent liquid outlet 21-8 of housing 21 bottoms, enter in the solvent tank 3 by the solvent inlet 31-1 on the tank shell 31 of solvent tank 3 and recycling through piping.

3. the air that contains organic solvent gas that is called organic exhaust gas is introduced in the organic exhaust gas air inlet pipe 29, tangentially level is drenched the mixed zone from the liquid that the organic exhaust gas air inlet 21-1 of housing 21 enters cooling miscible absorption device 2 then, enter the organic exhaust gas screw movement that liquid drenches the mixed zone, be arranged in peripheral organic exhaust gas from the inner chamber of each tubulation of the 3rd tubulation group 22-1 from the bottom to top through central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig and enter liquid film cooling miscible district, the organic exhaust gas that is arranged in central authorities passes through central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig from the bottom to top from the inner chamber of central breather pipe 28.Directly contact earlier and carry out the exchange heat of phase I with the organic media of the liquid state that falls to housing 21 bottoms by central cyclone and the convection current of peripheral liquid film cooling miscible formula and water-cooled heat-exchanger rig, and make a part of organic solvent in the organic exhaust gas be liquefied and the organic media of feasible liquid state in a part of organic media gasified.The organic media that has the liquid state of the organic solvent that is liquefied falls to housing 21 bottoms, flows out cooling miscible absorption device 2 and inflow solvent tank 3 under the gravity effect.

4. the step organic exhaust gas that has vaporized organic media 3. passes central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig and choke formula liquid shower device and carries out the exchange heat of second stage.In this process, the organic exhaust gas that is positioned at peripheral position is during through central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, on the one hand with this device in the mutual convection current of organic media of top-down liquid state directly contact and heat-shift, on the other hand with this device in cooling water carry out indirect heat exchange, thereby make that a part of organic solvent is liquefied in the organic exhaust gas, and make that a part of organic media in the liquid organic media is gasified, the organic media of liquid state that has the organic solvent that is liquefied is under the gravity effect, be liquid film cooling miscible shape and flow out and fall to the bottom of housing 21 from central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, the organic exhaust gas that has vaporized organic media then enters liquid film cooling miscible district.In this process, the organic exhaust gas that is positioned at central part is during through central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, organic exhaust gas flows to the lower surface of the cap body 23-1 of choke formula liquid shower device from the bottom to top, because of cap body 23-1 stopping up, can only change direction from the below of cap body 23-1, again from around pass outwards through periphery liquid drench the curtain wall shape liquid state organic media and carry out entering liquid film cooling miscible district after the direct heat exchange.

5. the step organic exhaust gas that enters liquid film cooling miscible district 4. earlier directly contacts and carries out the exchange heat of phase III with the convection current of liquid film cooling miscible formula and water-cooled heat-exchanger rig organic media and the organic media that remains in the liquid state on the netted cooler 24 from the downward liquid film cooling miscible of periphery to the liquid state in liquid film cooling miscible district, and make a part of organic solvent in the organic exhaust gas be liquefied and the organic media of feasible liquid state in a part of organic media gasified.The organic media that has the liquid state of the organic solvent that is liquefied falls to central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig under the gravity effect.

6. the step organic exhaust gas that has vaporized organic media 5. passes the formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig and carries out the exchange heat of quadravalence section.In this process, organic exhaust gas flows through on the one hand the top-down liquid state in the second tubulation group 25-1 and this device from the bottom to top from the inner chamber of each root tubulation of the second tubulation group 25-1 the mutual convection current of organic media directly contacts and heat-shift, on the other hand with this device in cooling water carry out indirect heat exchange, thereby make a part of organic solvent in the organic exhaust gas be liquefied and make that a part of organic media in the liquid organic media is gasified.The organic media of liquid state that has the organic solvent that is liquefied is liquid film cooling miscible shape and falls to liquid film cooling miscible district from formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig under the gravity effect.

7. the step organic exhaust gas that has vaporized organic media 6. upwards enters tail gas water-cooled heat-exchanger rig after the process of solvent fluid flow distributor 26 next doors, organic exhaust gas flows through in the inner chamber of each root tubulation of the first tubulation assembly 27 of tail gas water-cooled heat-exchanger rig from the bottom to top, become tail gas and leave tail gas water-cooled heat-exchanger rig from the top, pull out the inner chamber of fan housing 20 by the top after, discharge cooling miscible absorption device 2 again.Then from the inner chamber of each root tubulation of the first tubulation assembly 27, flow out the first tubulation assembly 27 from top to bottom through the be cooled organic solvent of liquefaction of exchange heat.Cooling water in organic exhaust gas and this device carries out indirect heat exchange, thereby make the most of organic solvent in the organic exhaust gas be liquefied, substantially do not contain the less tail gas of organic solvent or organic solvent content and leave tail gas water-cooled heat-exchanger rig from the top of tail gas water-cooled heat-exchanger rig, discharge cooling miscible absorption device 2 at last, the organic solvent that is liquefied then flows out tail gas water-cooled heat-exchanger rig downwards and drops down onto formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig under the effect of gravity.

(embodiment 3)

See Fig. 2, all the other are substantially the same manner as Example 2 for present embodiment, and difference is: the organic waste-gas purification recovery system also comprises pretreating device 1.This pretreating device 1 comprises shell 11, air inlet pipe 12, flame-retardant device 13, prime tubulation assembly 14 and escape pipe 15.Shell 11 comprises air inlet 11-1, gas outlet 11-2, cooling water inlet 11-3 and coolant outlet 11-4.Air inlet pipe 12 is by air inlet 11-1 place airtight fixedly connected of its place, gas outlet with shell 11.Escape pipe 15 is by gas outlet 11-2 place airtight fixedly connected of its air inlet place with shell 11.Flame-retardant device 13 is made of superimposed being arranged in the air inlet pipe 12 of stainless steel cloth.Prime tubulation assembly 14 comprises prime tubulation group 14-1, front tube sheet 14-2 and back tube sheet 14-3.Front tube sheet 14-2 sealing and fixing and is arranged in the front side of shell 11 on the inwall of shell 11.Back tube sheet 14-3 sealing and fixing is on the inwall of shell 11, and be positioned at the rear of front tube sheet 14-2, each tubulation of prime tubulation group 14-1 is fixed on described front tube sheet 14-2 and the back tube sheet 14-3, and the front end of each tubulation stretches out front tube sheet 14-2 forward, and the rear end of each tubulation is stretched out back tube sheet 14-3 backward.Cooling water inlet 11-3 and coolant outlet 11-4 are all between front tube sheet 14-2 and back tube sheet 14-3, and cooling water inlet 11-3 is near back tube sheet 14-3 and be positioned at the downside of shell 11.Coolant outlet 11-4 is positioned at the upside and the close front tube sheet 14-2 of shell 11.The place, gas outlet of escape pipe 15 is connected with the air inlet of the organic exhaust gas air inlet pipe 29 of cooling miscible absorption device 2.The cooling water inlet 11-3 of described shell 11 is connected by the coolant outlet of pipeline with cooling miscible absorption device 2, and the coolant outlet 11-4 of shell 11 is connected with the water inlet pipe mouth 51 of water cooling tower 5 by pipeline.

The step of the method for embodiment 2 1. in, after cooling water flow out of cooling miscible absorption device 2, cooling water inlet 11-3 from pretreating device 1 flows into the shell 11 earlier, flow through prime tubulation assembly 14 backs from the outer surface of each tubulation of prime tubulation assembly 14 and leave pretreating device 1, just flow into water cooling tower 5 then by pipeline from coolant outlet 11-4.

The step of the method for embodiment 2 3. in, organic exhaust gas was entered in the pretreating device 11 by the air inlet 11-1 of pretreating device 1 earlier before entering cooling miscible absorption device 2, during by flame-retardant device 13, contact with stainless steel cloth and the flame in the organic exhaust gas is eliminated, organic exhaust gas flows through prime tubulation assembly 14 and carries out the exchange heat in preposition stage from the inner chamber of each tubulation of prime tubulation assembly 14 then, and the organic exhaust gas of being lowered the temperature flows out shell 11 by the gas outlet 11-2 of shell 11 again and enters in the cooling miscible absorption device 2 through escape pipe 15.

Claims (7)

1. an organic waste-gas purification recovery system is characterized in that: comprise cooling miscible absorption device (2), solvent tank (3), solvent cooler (4), water cooling tower (5), pond (6), solvent pump (71) and water pump;

Described cooling miscible absorption device (2) comprise housing (21) that the top is opened wide and by the corresponding site of housing (21) as one of component parts or component parts, the liquid that is positioned at the bottom that sets gradually according to from bottom to top order drenches the mixed zone, be positioned at central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig that liquid drenches the top, mixed zone, be positioned at the choke formula liquid shower device of the central authorities top of central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig, be positioned at the formula convection current of liquid film cooling miscible and the water-cooled heat-exchanger rig of choke formula liquid shower device top, be positioned at the solvent fluid flow distributor (26) of formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig top; Cooling miscible absorption device (2) also comprises the liquid film cooling miscible district between the formula convection current of liquid film cooling miscible and water-cooled heat-exchanger rig and central cyclone and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig;

Housing (21) is provided with organic exhaust gas air inlet (21-1), cooling water inlet, coolant outlet, solvent liquid outlet (21-8) and the solvent feed liquor mouth of pipe (21-9);

Described solvent tank (3) comprises tank shell (31) and is arranged on cooling coil (32) in the tank shell; Tank shell (31) is provided with solvent inlet (31-1), the first solvent liquid outlet (31-2) and the second solvent liquid outlet (31-3), also is provided with water inlet pipe mouth (31-4) and effluent pipe mouth (31-5);

Described solvent cooler (4) comprises shell body (41) and is arranged on heat exchanger (42) in the shell body (41); Shell body (41) is provided with cooling water inlet (41-1) and coolant outlet (41-2), also is provided with solvent inlet (41-3) and solvent liquid outlet (41-4);

Described water cooling tower (5) comprises water inlet pipe mouth (51) and effluent pipe mouth (52), and water cooling tower (5) is positioned at the top of described pond (6), and the effluent pipe mouth (52) of water cooling tower (5) stretches in the pond (6);

Water pump has 2, and they are first water pump (81) and second water pump (82); The water inlet of each water pump (81,82) is connected with water inlet pipe, and the water inlet of water inlet pipe stretches in the pond (6) or directly and links to each other with the delivery port of pond (6); The delivery port of first water pump (81) is connected by the cooling water inlet of pipeline with cooling miscible absorption device (2), and the delivery port of second water pump (82) is connected with the water inlet of the cooling coil (32) of solvent tank (3) and the cooling water inlet (41-1) of solvent cooler (4) respectively by pipeline; The delivery port of the cooling coil (32) of the coolant outlet of cooling miscible absorption device (2), solvent tank (3) and the coolant outlet (41-2) of solvent cooler (4) are connected with the water inlet pipe mouth (51) of water cooling tower (5) by pipeline respectively;

The solvent liquid outlet (21-8) of described cooling miscible absorption device (2) is connected with the solvent inlet (31-1) of solvent tank (3) by pipeline, the second solvent liquid outlet (31-3) of described solvent tank (3) is connected with the solvent inlet (41-3) of solvent cooler (4) by pipeline and solvent pump (71), and the solvent liquid outlet (41-4) of solvent cooler (4) is positioned at the feed tube (26-1) that the solvent feed liquor mouth of pipe (21-9) of housing (21) locates by the pipeline and the inlet of the solvent fluid flow distributor (26) of cooling miscible absorption device (2) and links to each other; The first solvent liquid outlet (31-2) of solvent tank (3) is located to be connected with solvent bleeder (72) by pipeline.

2. organic waste-gas purification recovery system according to claim 1 is characterized in that: the central cyclone of cooling miscible absorption device (2) and peripheral liquid film cooling miscible formula convection current and water-cooled heat-exchanger rig comprise central breather pipe (28) and the 3rd tubulation assembly (22) that is arranged in the housing (21); Cooling miscible absorption device (2) also comprises the organic exhaust gas air inlet pipe (29) on the organic exhaust gas air inlet (21-1) that is connected housing (21); The cooling water inlet of housing (21) comprises the 3rd cooling water inlet (21-6), and the coolant outlet of housing (21) comprises the 3rd coolant outlet (21-7);

Organic exhaust gas air inlet pipe (29) is connected with the organic exhaust gas air inlet (21-1) of housing (21) along the tangential direction setting of the cylindrical shell of housing (21) and the outlet of organic exhaust gas air inlet pipe (29);

The 3rd tubulation assembly (22) comprises the 3rd tubulation group (22-1), the 3rd upper perforated plate (22-2) and the 3rd lower perforated plate (22-3); The 3rd lower perforated plate (22-3) sealing and fixing and is positioned at the top of the organic exhaust gas air inlet (21-1) of housing (21) on the inwall of housing (21); The 3rd upper perforated plate (22-2) sealing and fixing is on the inwall of housing (21), and be positioned at the top of the 3rd lower perforated plate (22-3), each tubulation of the 3rd tubulation group (22-1) is fixed on described the 3rd upper perforated plate (22-2) and the 3rd lower perforated plate (22-3), and the upper end of each tubulation protrudes upward the 3rd upper perforated plate (22-2), and the lower ends downward of each tubulation is stretched out the 3rd lower perforated plate (22-3); The 3rd cooling water inlet (21-6) and the 3rd coolant outlet (21-7) all are positioned between the 3rd upper perforated plate (22-2) and the 3rd lower perforated plate (22-3) and close the 3rd lower perforated plate (22-3) of the 3rd cooling water inlet (21-6); The 3rd coolant outlet (21-7) is positioned at the 3rd cooling water inlet (21-6) top and close the 3rd upper perforated plate (22-2);

Central authorities' breather pipe (28) up/down perforation, by airtight laterally being fixed on the 3rd upper perforated plate (22-2) and the 3rd lower perforated plate (22-3) of its week, and the 3rd upper perforated plate (22-2) is stretched out in the upper end of central breather pipe (28), and the 3rd lower perforated plate (22-3) is stretched out in the lower end of central breather pipe (28).

3. organic waste-gas purification recovery system according to claim 2 is characterized in that: the choke formula liquid shower device of cooling miscible absorption device (2) comprises being arranged on and stops cap (23) in the housing (21); Stop that cap (23) comprises cap body (23-1) and liquid stream rotary part (23-2); Cap body (23-1) be shaped as conical shell, its vertex of a cone is positioned at the top; Liquid stream rotary part (23-2) comprises truncated cone-shaped housing (23-2-1) and is weldingly fixed on 6～12 strip connecting plates (23-2-2) on truncated cone-shaped housing (23-2-1) lower surface, strip connecting plate (23-2-2) be shaped as involute shape; Each strip connecting plate (23-2-2) of liquid stream rotary part (23-2) is centrosymmetric and is arranged on the truncated cone-shaped housing (23-2-1), and liquid stream rotary part (23-2) is weldingly fixed on the upper surface of cap body (23-1) by the lower surface of its each connecting plate (23-2-2); Stop that cap (23) is fixed on by fixed mount that housing (21) is gone up or the 3rd upper perforated plate (22-2) of the 3rd tubulation assembly (22) on, and be positioned at the top of central breather pipe (28).

4. organic waste-gas purification recovery system according to claim 1 is characterized in that: the liquid film cooling miscible formula convection current of cooling miscible absorption device (2) and water-cooled heat-exchanger rig comprise the second tubulation assembly (25); The cooling water inlet of housing (21) comprises second cooling water inlet (21-4), and the coolant outlet of housing (21) comprises second coolant outlet (21-5);

The second tubulation assembly (25) comprises the second tubulation group (25-1), second upper perforated plate (25-2) and second lower perforated plate (25-3); Second lower perforated plate (25-3) sealing and fixing and is positioned at the top of choke formula liquid shower device on the inwall of housing (21); Second upper perforated plate (25-2) sealing and fixing is on the inwall of housing (21), and be positioned at the top of second lower perforated plate (25-3), each tubulation of the second tubulation group (25-1) is fixed on described second upper perforated plate (25-2) and second lower perforated plate (25-3), and the upper end of each tubulation protrudes upward second upper perforated plate (25-2), and the lower ends downward of each tubulation is stretched out second lower perforated plate (25-3); Second cooling water inlet (21-4) and second coolant outlet (21-5) all are positioned between second upper perforated plate (25-2) and second lower perforated plate (25-3) and close second lower perforated plate (25-3) of second cooling water inlet (21-4); Second coolant outlet (21-5) is positioned at second cooling water inlet (21-4) top and close second upper perforated plate (25-2).

5. organic waste-gas purification recovery system according to claim 4, it is characterized in that: the solvent fluid flow distributor (26) of cooling miscible absorption device (2) comprises that also solvent tank (26-2) and inlet are arranged on 4～12 drain pipes (26-3) on solvent tank (26-2) top, and the liquid outlet of each drain pipe (26-3) is towards second upper perforated plate (25-2) of the second tubulation assembly (25) of below; 4～12 drain pipes (26-3) are provided with around the casing periphery of solvent tank (26-2); The liquid outlet of the feed tube (26-1) of solvent fluid flow distributor (26) links to each other with the inlet of solvent tank (26-2).

6. according to the described organic waste-gas purification recovery system of one of claim 1 to 5, it is characterized in that: cooling miscible absorption device (2) comprises that also netted cooler (24), tail gas water-cooled heat-exchanger rig and top pull out fan housing (20); The cooling water inlet of housing (21) comprises first cooling water inlet (21-2), and the coolant outlet of housing (21) comprises first coolant outlet (21-3);

Tail gas water-cooled heat-exchanger rig comprises the first tubulation assembly (27); The first tubulation assembly (27) is arranged in housing (21), is positioned at the top of solvent fluid flow distributor (26); The first tubulation assembly (27) comprises the first tubulation group (27-1), first upper perforated plate (27-2) and first lower perforated plate (27-3); First lower perforated plate (27-3) sealing and fixing and is positioned at the top of solvent fluid flow distributor (26) on the inwall of housing (21); First upper perforated plate (27-2) sealing and fixing is on the inwall of housing (21), and be positioned at the top of first lower perforated plate (27-3), each tubulation of the first tubulation group (27-1) is fixed on described first upper perforated plate (27-2) and first lower perforated plate (27-3), and the upper end of each tubulation protrudes upward first upper perforated plate (27-2), and the lower ends downward of each tubulation is stretched out first lower perforated plate (27-3); First cooling water inlet (21-2) and second coolant outlet (21-3) all are positioned between first upper perforated plate (27-2) and first lower perforated plate (27-3) and close first lower perforated plate (27-3) of first cooling water inlet (21-2); First coolant outlet (21-3) is positioned at first cooling water inlet (21-2) top and close first upper perforated plate (27-2);

Netted cooler (24) is by at each layer flat steel wire (24-1) that stacks on the above-below direction be sandwiched in pipe network (24-2) between adjacent each layer flat steel wire (24-1) and be staggered and form; Each pipe network (24-2) is around the cylindric thing that forms by the stainless (steel) wire coiled sheet; Netted cooler (24) is arranged in the liquid film cooling miscible district, and each layer flat steel wire (24-1) is fixed together with housing (21);

The top is pulled out fan housing (20) and is fixed on the housing (21) by support, and is positioned at the top of housing (21).

7. according to claim 2 or 3 described organic waste-gas purification recovery systems, it is characterized in that: also comprise pretreating device (1); Described pretreating device (1) comprises shell (11), air inlet pipe (12), flame-retardant device (13), prime tubulation assembly (14) and escape pipe (15); Shell (11) comprises air inlet (11-1), gas outlet (11-2), cooling water inlet (11-3) and coolant outlet (11-4); Air inlet pipe (12) is located airtight fixedlying connected by its place, gas outlet with the air inlet (11-1) of shell (11); Escape pipe (15) is located airtight fixedlying connected by its air inlet place with the gas outlet (11-2) of shell (11); Flame-retardant device (13) is made of superimposed being arranged in the air inlet pipe (12) of stainless steel cloth; Prime tubulation assembly (14) comprises prime tubulation group (14-1), front tube sheet (14-2) and back tube sheet (14-3); Front tube sheet (14-2) sealing and fixing and is arranged in the front side of shell (11) on the inwall of shell (11); Back tube sheet (14-3) sealing and fixing is on the inwall of shell (11), and be positioned at the rear of front tube sheet (14-2), each tubulation of prime tubulation group (14-1) is fixed on described front tube sheet (14-2) and the back tube sheet (14-3), and the front end of each tubulation stretches out front tube sheet (14-2) forward, and the rear end of each tubulation is stretched out back tube sheet (14-3) backward; Cooling water inlet (11-3) and coolant outlet (11-4) all are positioned between front tube sheet (14-2) and the back tube sheet (14-3), and cooling water inlet (11-3) is near back tube sheet (14-3) and be positioned at the downside of shell (11); Coolant outlet (11-4) is positioned at the upside and the close front tube sheet (14-2) of shell (11); The place, gas outlet of escape pipe (15) is connected with the air inlet of the organic exhaust gas air inlet pipe (29) of cooling miscible absorption device (2); The cooling water inlet (11-3) of described shell (11) is connected by the coolant outlet of pipeline with cooling miscible absorption device (2), and the coolant outlet (11-4) of shell (11) is connected with the water inlet pipe mouth (51) of water cooling tower (5) by pipeline.

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