CN110081730A - A kind of compound board-like condensate cooler - Google Patents

Abstract

A kind of compound board-like condensate cooler, the medium inlet and outlet end socket and adapter tube arranged including condenser cylinder and thereon, it is divided into three parts, cooling zone respectively setting up and down and condensing zone, the disengagement chamber of the cooling zone and the ipsilateral setting of condensing zone in the condenser cylinder；The cooling zone and condensing zone are provided with cooling zone heat exchanger plates beam and condensing zone heat exchanger plates beam, are penetrated through between the two by cold medium intermediate channel；Resolution element is provided in disengagement chamber；The two-phase medium outlet of condensing zone heat exchanger plates beam and the fixed gas medium inlet of cooling zone heat exchanger plates beam are penetrated through with disengagement chamber.The present invention solves the problems, such as the cooling of the condensation containing fixed gas medium and product separation problem, and condensation efficiency and product yield can be improved, and realizes the direct output of gas phase, liquid-phase product, compact-sized, has good intensivism, remarkable in economical benefits.

Description

A kind of compound board-like condensate cooler

Technical field

The invention belongs to energy-saving equipment technical fields, and in particular to a kind of compound board-like condensate cooler, especially needle To a kind of condensate cooler containing fixed gas medium.

Background technique

Condenser is a kind of heat-exchange apparatus for being widely used in the industries such as chemical industry, medicine, petroleum, light industry.Board-like condensation Device especially full-welding plate-type condenser is in some medium temperatures, pressure is higher, the demanding occasion of land occupation has and answers well With.It is general in cooling medium all to contain a certain amount of fixed gas for common condensation occasion, even requiring purity higher Product, there is also certain fixed gases, with the condensation that can coagulate component, fixed gas concentration increases, decline condensation efficiency, because This considers the accumulation of fixed gas in design of condenser, in time discharges fixed gas, condensation effect etc. can be improved.It ought not coagulate simultaneously When gas is also important handicraft product, condensation side outlet medium is separated, cools down and meet downstream product needs, to improving work Skill, economy are of great significance.

Chinese patent 201510391004.1 proposes the plate-type condenser that one kind rolls over Cheng Liudao more, but it does not consider not coagulate The discharge of gas there is certain application to limit the condensation occasion containing fixed gas.Although patent 2011220146979.X is examined The discharge of fixed gas is considered, but for the medium occasion containing fixed gas, condensation side outlet medium is gas-liquid mixed phase, in fixed gas Discharge when have the entrainment of a certain amount of condensate liquid, the yield of condensation liquid product is reduced, simultaneously for fixed gas subsequent processing Improve technical requirements.

Summary of the invention

The present invention provides a kind of compound board-like condensate cooler, to solve the problems, such as that the condensation containing fixed gas medium is cooling With product separation problem, condensation efficiency and product yield can be improved for provided product, it can be achieved that gas phase, liquid-phase product it is direct defeated Out, compact-sized.

Used technical solution is the present invention to achieve the goals above:

A kind of compound board-like condensate cooler, the medium inlet and outlet end socket and adapter tube arranged including condenser cylinder and thereon, It is divided into three parts, cooling zone respectively setting up and down and condensing zone in the condenser cylinder, the cooling zone and condensing zone are same The disengagement chamber of side setting；The cooling zone and condensing zone are provided with cooling zone heat exchanger plates beam and condensing zone heat exchanger plates beam, the two it Between penetrated through by cold medium intermediate channel；Resolution element is provided in disengagement chamber；The two-phase medium of condensing zone heat exchanger plates beam exports It is penetrated through with disengagement chamber with the fixed gas medium inlet of cooling zone heat exchanger plates beam.

Condensing zone cold medium stream of the cooling zone cold media flow channel of the cooling zone heat exchanger plates beam than condensing zone heat exchanger plates beam The width of flow path in road is wide, and the runner spacing of the cooling zone fixed gas runner of cooling zone heat exchanger plates beam is cold compared with condensing zone heat exchanger plates beam Coagulation zone heat medium flow channel is narrow.

The identical plate of condensing zone heat exchanger plates Shu Caiyong ripple's depth or not equal runners template piece, condensing zone thermal medium Runner, the runner spacing of condensing zone cold media flow channel is adjustable.

The not equal runners template piece of the cooling zone heat exchanger plates Shu Caiyong.

The present invention realizes the Multi-class propagation of energy after by heat transfer zone classification, condensation by the way of medium separation, will condense The direct output of gas, liquid product afterwards, can cancel the setting of downstream separator.Realize the condensation of hot fluid, product after condensation Separation and fixed gas further cooling, solve the problems, such as that condensation containing fixed gas medium is cooling and product separation is asked Topic, condensation efficiency and product yield can be improved, it can be achieved that gas phase, liquid-phase product direct output, compact-sized, small in size, function Energy property is strong, has good intensivism, remarkable in economical benefits.

Detailed description of the invention

Fig. 1 is general assembly drawing of the invention；

Fig. 2 is condensing zone heat exchanger plates beam figure of the invention；

Fig. 3 is cooling zone heat exchanger plates beam figure of the invention；

Fig. 4 is front and back support layout drawing of the invention；

It is numbered in figure: 1. gas phase inlet flanges, 2. gas phase entrance end sockets, 3. gas phase entrance bobbin carriages, 4. gaseous distributers, 5. condensations Area's heat exchanger plates beam, 6. disengagement chambers, 7. resolution elements, 8. cooling zone heat exchanger plates beams, 9. fixed gases outlet bobbin carriage, 10. fixed gases go out Mouth end socket, 11. fixed gas outlet(discharge) flanges, 12. cold medium intermediate channels, 13. condensate outlet end sockets, 14. condensate outlet methods Orchid, 15. cold medium inlet flanges, 16. cold medium outlet(discharge) flanges, 17. cold medium inlet chambers, 18. cold medium inlet distributors, 19. cold medium exports support, 22. rear supports, 23. long panels before cavity, 20. condenser cylinders, 21., 24. long panels、25 Short panel, 26. short panels, 101. gas phase media entrances, 102. two-phase mediums outlet, 103. condensate liquid media outlets, 104. Fixed gas medium inlet, 105. fixed gas media outlets, 106. cold medium condensing zone entrances, 107. cold medium condensing zones outlet, 108. the outlet of cold medium cooling zone, 1001. condensing zone heat medium flow channels, 1002. condensing zone cold media flow channels, 1003. cooling zones Fixed gas runner, 1004. cooling zone cold media flow channels.

Specific embodiment

In order to preferably introduce technical solution of the present invention, the present invention is made below with reference to Fig. 1 to Fig. 4 further detailed Explanation.

As shown in Figs 1-4, gas phase media passes sequentially through gas phase inlet flange 1, gas phase entrance envelope from gas phase media entrance 101 First 2, gas phase entrance bobbin carriage 3 is redistributed through gaseous distributer 4, improves the uniformly distributed property of fluid, reduces heat transfer dead zone.Gas phase is situated between Matter enters the condensing zone heat medium flow channel 1001 of condensing zone heat exchanger plates beam 5 and the cold medium in condensing zone cold media flow channel 1002 is changed Heat, the component of coagulating in gas phase media are condensed into liquid, and 1001 outlet-side media of condensing zone heat medium flow channel is in two-phase flow regime, warp Two-phase medium outlet 102 enters disengagement chamber 6, is separated into fixed gas and condensate liquid two streams, condensate liquid warp by resolution element 7 Condensate outlet end socket 13, outlet(discharge) flange 14 go out equipment by condensate liquid media outlet 103.Fixed gas is entered by fixed gas medium Mouth 104 enters cold Jie in the cooling zone fixed gas runners 1003 and cooling zone cold media flow channel 1004 of cooling zone heat exchanger plate beam 8 Matter heat exchange is down to after technique requires temperature and sequentially enters fixed gas outlet bobbin carriage 9, fixed gas outlet head 10, fixed gas outlet Flange 11 goes out equipment through fixed gas media outlet 105.

Cold medium is from cold medium condensing zone entrance 106 through cold medium inlet flange 15, cold medium inlet chamber 17, cold medium Inlet distributor 18, condensing zone cold media flow channel 1002, cold medium condensing zone export 107 cold medium intermediate channels 12, cold medium Export cavity 19, cold medium cooling zone outlet 108 goes out equipment.

Heat transfer zone is by condensing zone heat exchanger plates beam 5 and 8 two-stage heat exchanger plates Shu Zucheng of cooling zone heat exchanger plates beam, condensing zone heat exchanger plates 5 condensing zone heat medium flow channel 1001 of beam, cooling zone heat exchanger plates beam 8 cooling zone fixed gas runner 1003 flow to direction point along medium It Cai Yong not short panel25, short panel26 welded seals, to 5 condensing zone cold media flow channel 1002 of condensing zone heat exchanger plates beam, cooling The cooling zone cold media flow channel 1004 of area's heat exchanger plates beam 8 flows to direction using long panel along medium23, long panel24 welding are close It seals, setting cold medium intermediate channel 12 is realized cold among condensing zone cold media flow channel 1002 and cooling zone cold media flow channel 1004 It connects the upper and lower region of medium.It realizes that condensing zone is connected to the medium of cooling zone by aforesaid operations, energy can be further realized Multi-class propagation function.

Condensing zone heat exchanger plates beam 5 waits runners template piece, condensing zone thermal medium stream using the identical plate of ripple's depth or not Road 1001, condensing zone cold media flow channel 1002 runner spacing can need to select plate according to medium volume flow, heat transfer, pressure drop Pattern realizes that runner spacing is adjustable.Cooling zone heat exchanger plates beam 8 uses not equal runners template piece, cooling zone cold media flow channel 1004 Width of flow path than condensing zone cold media flow channel 1002 is slightly wide, and the runner spacing of cooling zone fixed gas runner 1003 is compared to condensation Area's heat medium flow channel 1001 reduces.By above-mentioned not equal runners and different type corrugated design, Reynolds number is improved, is realized to equipment Internal flow velocity, heat transfer and the optimization design of pressure drop increase heat transfer efficiency.

Disengagement chamber 6 is set in condensate cooler, is provided with resolution element 7 in disengagement chamber, resolution element 7 can be used level-one or Second level and multilevel pattern, with TP corrugated plating, coalescence material etc. for separation material, can be required according to processing medium separation accuracy will be cold Lime set and fixed gas are separated, and condensate liquid goes out equipment into next link, and fixed gas enters cooling zone fixed gas runner 1003 It is further cooling, to meet technique requirement.

Support 21 is slightly above rear support 22 before condensate cooler, and equipment is whole to have certain angle in the horizontal direction, just In the timely discharge of condensate liquid, reduction is gathered in equipment.

Heat exchanger plates beam can be needed according to thermic load, flow, pressure drop etc. plate is long, plate is wide, is adjusted on folded thick direction, when When condensation side allowable pressure drop is lower, condensing zone heat medium flow channel 1001, fixed gas runner 1003 may be designed as contactless runner.

Heat exchange plate material can be selected according to the composition of medium, temperature, pressure, corrosivity etc., general using common Super stainless steel, titanium etc. also can be used when corrosive medium is higher for stainless steel material.

Cold medium can be tower top oil gas, anti-for the process stream etc. that cooling water, air, needs heat, hot side medium It should gas etc..

Claims (7)

1. a kind of compound board-like condensate cooler, the medium inlet and outlet end socket arranged including condenser cylinder and thereon and connect Pipe, which is characterized in that it is divided into three parts, cooling zone respectively setting up and down and condensing zone in the condenser cylinder (20), The disengagement chamber (6) of the cooling zone and the ipsilateral setting of condensing zone；The cooling zone and condensing zone are provided with cooling zone heat exchanger plates beam (8) With condensing zone heat exchanger plates beam (5), penetrated through between the two by cold medium intermediate channel (12)；Separation is provided in disengagement chamber (6) Element (7)；The two-phase medium outlet (102) of condensing zone heat exchanger plates beam (5) and the fixed gas medium of cooling zone heat exchanger plates beam (8) enter Mouth (104) is penetrated through with disengagement chamber (6).

2. according to the compound board-like condensate cooler of one kind described in right 1, which is characterized in that the cooling zone heat exchanger plates beam (8) runner of the cooling zone cold media flow channel (1004) than the condensing zone cold media flow channel (1002) of condensing zone heat exchanger plates beam (5) Width is wide, and the runner spacing of the cooling zone fixed gas runner (1003) of cooling zone heat exchanger plates beam (8) is compared with condensing zone heat exchanger plates beam (5) Condensing zone heat medium flow channel (1001) it is narrow.

3. according to the compound board-like condensate cooler of one kind described in right 1, which is characterized in that the condensing zone heat exchanger plates beam (5) runners template piece, condensing zone heat medium flow channel (1001), condensing zone cold medium are waited using the identical plate of ripple's depth or not The runner spacing of runner (1002) is adjustable.

4. according to the compound board-like condensate cooler of one kind described in right 1, which is characterized in that the cooling zone heat exchanger plates beam (8) not equal runners template piece is used.

5. according to the compound board-like condensate cooler of one kind described in right 1, which is characterized in that the resolution element (7) uses TP corrugated plating or coalescence material.

6. according to the compound board-like condensate cooler of one kind described in right 1, which is characterized in that the condenser cylinder (20) by Front and back seat supports, and preceding support (21) is higher than rear support (22), so that the board-like condensate cooler is whole in the horizontal direction It is upper that there is certain angle.

7. according to the compound board-like condensate cooler of one kind described in right 1, which is characterized in that the import of the hot and cold medium It is provided with distributor.