CN205361342U - Air -cooled condensing equipment of gaseous heat transfer of reation kettle low boiling - Google Patents

Abstract

The utility model provides an air -cooled condensing equipment of gaseous heat transfer of reation kettle low boiling, setting up air -cooled condenser in the sealed dustcoat of, one side of the air intake of condenser cylinder surface sets up the air -blower, and one side of air outlet sets up exhaust pipe, sealed dustcoat below sets up reation kettle, and the reation kettle top sets up the outlet duct, sets up the observation window on the pipe wall of outlet duct, sets up the flange between the one end of outlet duct and blast pipe, the other end of blast pipe with advance discharge gate butt joint setting, set up the gas -supply pipe between gas vent and the receipt jar, set up the condenser on the gas -supply pipe, set up the emergency venting pipe on the blast pipe and between the import of condenser, setting valve is gone up to the emergency venting pipe, has overcome the danger of using water -cooled condenser probably to cause in the reaction building -up process, has lasted the drum toward the condenser in and go into the air, avoided with reactor's gas -phase material direct contact, the security of producing has improved.

Description

A kind of air-cooled condensing unit of reactor low-boiling point gas heat exchange

Technical field

This utility model relates to heat exchange production technical field, the air-cooled condensing unit of especially a kind of reactor low-boiling point gas heat exchange.

Background technology

In reactor, the temperature of reaction is higher, course of reaction generates low-boiling gas, affecting temperature in reactor to raise, low-boiling gas is generally the relatively low alcohol of alkene, boiling point and alkyl chloride, it is necessary to after being discharged by low-boiling point gas in reactor, reactor temperature can be made to raise rapidly, the industrial water-cooled condenser that commonly uses, the water capacity easily enters reactor from the gap of pipeline, it is easy to cause production accident, there is very big potential safety hazard, and the existence of water also can affect product purity and yield.

In view of the foregoing, the structure of existing water-cooled condenser needs to improve.

Utility model content

The purpose of this utility model is to overcome deficiency of the prior art, the air-cooled condensing unit of a kind of reactor low-boiling point gas heat exchange is provided, overcome the danger using water-cooled condenser to be likely to result in the process of being synthesized, continue to blast air in condenser, avoid and directly contact with the gaseous phase materials in reactor, improve the safety of production.The cooling medium adopted is air, in condenser, do not pass into water but continue to blast air, cold air is discharged made the low-boiling point gas cooling in cooling tube by dividing wall type energy exchange after, flow in air heat exchange cavity in condenser, hot-air after heat exchange is discharged from air outlet, thus reaching condensation effect, and the impurity such as water, dust will not be introduced in reactor.Stop the existence of water, improve the safety of production.

This utility model is to achieve these goals, adopt the following technical scheme that the air-cooled condensing unit of a kind of reactor low-boiling point gas heat exchange, be by: sealing cover, condenser cylinder, upper flange, upper cover, air vent, lower flange, low head, feed inlet and outlet, air inlet, air outlet, exhaust duct, aerator, adjustor, wire, reactor, agitator, motor, electric machine support, escape pipe, observation window, transparent observing plate, flange, exhaustor, dump pipe, valve, appendix, condenser, reception tank are constituted；Air-cooled condenser is set in sealing cover, the structure of described air-cooled condenser is: arrange upper flange between upper end and the upper cover of condenser cylinder, the center, top of upper cover arranges air vent through sealing cover, between lower end and the low head of condenser cylinder, lower flange is set, the bottom center of low head arranges feed inlet and outlet through sealing cover, at least two ten cooling tubes it are uniformly distributed in condenser cylinder between upper flange and lower flange, heat exchange cavity is constituted between condenser cylinder inner surface and described cooling tube, the lower section of condenser barrel outer surface arranges at least one air inlet through sealing cover, top arranges at least one air outlet through sealing cover, the side of described air inlet arranges aerator, between adjustor and at least one aerator, wire is set, the side of described air outlet arranges exhaust duct；

Sealing cover is arranged below reactor, centrally disposed agitator in reactor, the centrally disposed electric machine support in reactor top, electric machine support arranges motor, the upper end of described agitator and motor are correspondingly arranged, reactor is provided above the escape pipe of at least one, the tube wall of described escape pipe arranges observation window, seal in observation window and transparent observing plate is set, between described escape pipe and one end of exhaustor, flange is set, the other end of described exhaustor docks setting with described feed inlet and outlet, between described air vent and reception tank, appendix is set, described appendix arranges condenser, dump pipe is set on described exhaustor and between the import of condenser, dump pipe arranges valve.

The cross section of described sealing cover, the cross section of condenser cylinder, upper flange, lower flange are disposed as rectangle.

Described cooling tube periphery arranges helical form radiating fin.

The beneficial effects of the utility model are: this utility model overcomes and uses the danger that is likely to result in of water-cooled condenser in the process of being synthesized, and continues to blast air in condenser, it is to avoid directly contact with the gaseous phase materials in reactor, improve the safety of production.In air-cooled condenser, cold air and low boiling hot gas indirect heat exchange, the hot-air after heat exchange is entered exhaust duct by air outlet, is adjusted the intake velocity of aerator by adjustor, increases ventilation, strengthens cooling effect.

The cooling medium that this utility model adopts is air, in condenser, do not pass into water but continue to blast air, cold air is discharged made the low-boiling point gas cooling in cooling tube by dividing wall type energy exchange after, flow in air heat exchange cavity in condenser, hot-air after heat exchange is discharged from air outlet, thus reaching condensation effect, and the impurity such as water, dust will not be introduced in reactor.Stop the existence of water, improve the safety of production.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is general assembly structural representation；

Fig. 2 be in Fig. 1 A-A to cross-sectional view；

Fig. 1, in 2: sealing cover 1, condenser cylinder 2, upper flange 3, upper cover 4, air vent 5, lower flange 6, low head 7, feed inlet and outlet 8, air inlet 9, air outlet 10, exhaust duct 11, aerator 12, adjustor 13, wire 14, reactor 15, agitator 16, motor 17, electric machine support 18, escape pipe 19, observation window 20, transparent observing plate 21, flange 22, exhaustor 23, dump pipe 24, valve 25, appendix 26, condenser 27, receive tank 28.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, this utility model is described in further detail:

nullIn sealing cover 1, air-cooled condenser is set，The structure of described air-cooled condenser is: arrange upper flange 3 between upper end and the upper cover 4 of condenser cylinder 2，The center, top of upper cover 4 arranges air vent 5 through sealing cover 1，Between lower end and the low head 7 of condenser cylinder 2, lower flange 6 is set，The bottom center of low head 7 arranges feed inlet and outlet 8 through sealing cover 1，At least two ten cooling tubes it are uniformly distributed in condenser cylinder 2 between upper flange 3 and lower flange 6，Heat exchange cavity is constituted between condenser cylinder 2 inner surface and described cooling tube，The lower section of condenser cylinder 2 outer surface arranges at least one air inlet 9 through sealing cover 1，Top arranges at least one air outlet 10 through sealing cover 1，The side of described air inlet 9 arranges aerator 12，Wire 14 is set between adjustor 13 and at least one aerator 12，The side of described air outlet 10 arranges exhaust duct 11；

nullSealing cover 1 is arranged below reactor 15，Centrally disposed agitator 16 in reactor 15，The centrally disposed electric machine support 18 in reactor 15 top，Electric machine support 18 arranges motor 17，The upper end of described agitator 16 and motor 17 are correspondingly arranged，Reactor 15 is provided above the escape pipe 19 of at least one，The tube wall of described escape pipe 19 arranges observation window 20，Seal in observation window 20 and transparent observing plate 21 is set，Between described escape pipe 19 and one end of exhaustor 23, flange 22 is set，The other end of described exhaustor 23 docks setting with described feed inlet and outlet 8，Between described air vent 5 and reception tank 28, appendix 26 is set，Described appendix 26 arranges condenser 27，On described exhaustor 23 and between the import of condenser 27, dump pipe 24 is set，Dump pipe 24 arranges valve 25.

The cross section of described sealing cover 1, the cross section of condenser cylinder 2, upper flange 3, lower flange 6 are disposed as rectangle.

Described cooling tube periphery arranges helical form radiating fin.

Claims (3)

1. the air-cooled condensing unit of a reactor low-boiling point gas heat exchange, it is by sealing cover (1), condenser cylinder (2), upper flange (3), upper cover (4), air vent (5), lower flange (6), low head (7), feed inlet and outlet (8), air inlet (9), air outlet (10), exhaust duct (11), aerator (12), adjustor (13), wire (14), reactor (15), agitator (16), motor (17), electric machine support (18), escape pipe (19), observation window (20), transparent observing plate (21), flange (22), exhaustor (23), dump pipe (24), valve (25), appendix (26), condenser (27), receive tank (28) to constitute；nullIt is characterized in that: sealing cover arranges air-cooled condenser in (1)，The structure of described air-cooled condenser is: arrange upper flange (3) between upper end and the upper cover (4) of condenser cylinder (2)，The center, top of upper cover (4) arranges air vent (5) through sealing cover (1)，Between lower end and the low head (7) of condenser cylinder (2), lower flange (6) is set，The bottom center of low head (7) arranges feed inlet and outlet (8) through sealing cover (1)，At least two ten cooling tubes it are uniformly distributed in condenser cylinder (2) between upper flange (3) and lower flange (6)，Heat exchange cavity is constituted between condenser cylinder (2) inner surface and described cooling tube，The lower section of condenser cylinder (2) outer surface arranges at least one air inlet (9) through sealing cover (1)，Top arranges at least one air outlet (10) through sealing cover (1)，The side of described air inlet (9) arranges aerator (12)，Wire (14) is set between adjustor (13) and at least one aerator (12)，The side of described air outlet (10) arranges exhaust duct (11)；

nullSealing cover (1) is arranged below reactor (15)，Centrally disposed agitator (16) in reactor (15)，The centrally disposed electric machine support in reactor (15) top (18)，Electric machine support (18) arranges motor (17)，The upper end of described agitator (16) and motor (17) are correspondingly arranged，Reactor (15) is provided above the escape pipe (19) of at least one，The tube wall of described escape pipe (19) arranges observation window (20)，Seal in observation window (20) and transparent observing plate (21) is set，Flange (22) is set between one end of described escape pipe (19) and exhaustor (23)，The other end of described exhaustor (23) docks setting with described feed inlet and outlet (8)，Between described air vent (5) and reception tank (28), appendix (26) is set，Described appendix (26) arranges condenser (27)，Described exhaustor (23) above and arranges dump pipe (24) between the import of condenser (27)，Dump pipe (24) arranges valve (25).

2. the air-cooled condensing unit of a kind of reactor low-boiling point gas heat exchange according to claim 1, it is characterised in that: the cross section of described sealing cover (1), the cross section of condenser cylinder (2), upper flange (3), lower flange (6) are disposed as rectangle.

3. the air-cooled condensing unit of a kind of reactor low-boiling point gas heat exchange according to claim 1, it is characterised in that: described cooling tube periphery arranges helical form radiating fin.