CN202902999U - Gas-liquid distributor installed at inlet position of heat exchanger - Google Patents

Abstract

The utility model relates to a gas-liquid distributor installed at an inlet position of a heat exchanger. The gas-liquid distributor installed at the inlet position of the heat exchanger is characterized by comprising a shell body, wherein the shell body is installed at the inlet position of the heat exchanger, an outlet of the shell and an inlet of the heat exchanger are communicated, a redistribution plate and a pre-distribution barrel are arranged in an inner cavity of the shell body at intervals, an inlet end of the pre-distribution barrel is connected with the inner wall of the shell body in a sealing mode and communicated with an inlet of the shell body, a plurality of first holes where fluid enters the inner cavity of the shell from the pre-distribution barrel are formed in the peripheral wall of the pre-distribution barrel, the redistribution plate covers the outlet of the shell, a plurality of outlets are formed in the redistribution board, and the fluid flows out of the inner cavity of the shell body and enters the heat exchanger through the outlets. Compared with the prior art, the pre-distribution barrel can conduct first intervention to fluid which enters the pre-distribution barrel firstly and redistribute shapes of two-phase fluid, the redistribution plate can conduct secondary intervention to the fluid and further distributes the shapes of the fluid, and therefore the two-phase fluid entering the heat exchanger can be fully and evenly mixed and a heat exchanging effect can be guaranteed.

Description

Be installed in the gas-liquid distributor at heat exchanger entrance place

Technical field

The utility model relates to a kind of gas-liquid distributor, specifically refers to a kind of gas-liquid distributor that is installed in the heat exchanger entrance place.Background technology

Heat exchanger is a kind of heat transmission equipment that often uses in the chemical process, it comprises housing and is installed in many interior heat exchanger tubes of housing, form shell side between inner walls and the heat exchanger tube outer wall, each heat exchanger tube inner chamber is tube side, two kinds of logistics that need heat exchange heat exchange behind tube side and the shell side of flowing through respectively as required.In order to reach preferably heat transfer effect, often use the heat transferring medium of gas-liquid mixed phase, for example in the chemical process in disproportionation, the hydrogenation plant tube side entrance medium of heat exchanger be the gas-liquid two-phase admixture.Gas-liquid two-phase can produce separation when this class heat transferring medium was flowed through the pipeline access arrangement, affected heat transfer effect.

Granted publication number discloses a kind of " gas-liquid distributor " for lamella heat exchanger for the Chinese utility model patent of CN201088910Y, it comprises liquid distribution trough, gas distributor, bobbin carriage, fluid pipeline and gas pipeline, gas pipeline and fluid pipeline form sleeve structure, gas pipeline is connected with the bobbin carriage bottom, and, described fluid pipeline adopts horizontal tube structure, and the direction of transverse tube is parallel with the arragement direction of heat exchanger plates bundle.This technology can evenly be mixed the two-phase flow body and be distributed to the heat exchanger plates bundle, to avoid occurring bias current and the dry plate phenomenon that skewness is caused.But this gas-liquid distributor can only be used for that gas phase and liquid phase separate separately, to being that the further mixing of gas-liquid mixed phase fluid is then helpless.

Summary of the invention

Technical problem to be solved in the utility model be the present situation for prior art provide a kind of can be to the gas-liquid distributor that is installed in the heat exchanger entrance place of the mixed further mixing of liquid fluid of gas-liquid, thereby reach good heat transfer effect.

The utility model solves the problems of the technologies described above the technical scheme that adopts: this is installed in the gas-liquid distributor at heat exchanger entrance place, it is characterized in that comprising the housing that is installed in the heat exchanger entrance place, the outlet of this housing is connected with the entrance of described heat exchanger, is interval with distribution grid and the pre-bucket that distributes in the inner chamber of housing again; Be tightly connected inner walls and be communicated with the entrance of described housing of the described pre-arrival end that distributes bucket, the pre-perisporium that distributes bucket is provided with a plurality of the first holes that enter the inner chamber of described housing for fluid in the pre-bucket that distributes, described again distribution grid gear is established the outlet that housing is stated in the residence, and described again distribution grid is provided with a plurality of the outflow in the inner chamber of described housing for fluids and enters portalling of described heat exchanger.

In order to reach better mixed effect, can also establish at the bucket end of the described pre-bucket that distributes and be furnished with a plurality of the second holes that enter the inner chamber of described housing for fluid in the pre-bucket that distributes; The percent opening at the described bucket end is 5～10%, and the diameter in each described the second hole is 3～10mm.

Preferably, the described pre-height that distributes bucket is 200～500mm, with suitable with housing, and can obtain better mixed effect.

The long and narrow hole of described the first hole for being parallel to each other and arranging on the sidewall that vertically is arranged on the described pre-bucket that distributes, the quantity in described the first hole is 10～20, and the area sum in each described the first hole is more than or equal to the cross-sectional area of the described pre-bucket that distributes, under the requirement of satisfying resistance drop, can reach and mix better purpose.

Each described again distribution grid comprises substrate and baffle plate; Described substrate is fixedly connected on the described housing internal perisporium, and the middle part of this substrate is provided with the through hole that passes through for personnel; Described baffle plate is blocked on the described through hole, and this baffle plate is flexibly connected mutually with described substrate.Baffle plate and substrate be connected with kinds of schemes, for example, an end of baffle plate is hinged on the substrate, the remainder of baffle plate (as being connected by screw) substrate that removably connects; Perhaps baffle plate directly is connected by screw on substrate; Perhaps be provided with slot at substrate, the edge of baffle plate is plugged in the slot.In the time of need to safeguarding, can flap shutter or dismountable block plate or translation baffle plate, make it to expose the through hole on the substrate, operate with the inner chamber that makes things convenient for personnel to enter into housing.

To the further improvement of above-mentioned each scheme, described again distribution grid has 2～3, and these arrange at distribution grid interval that is parallel to each other again, with the uniformity of further guaranteeing to mix.

Described pre-bucket bottom surface to the again distance between the distribution grid near described housing outlet that distributes be 0.5～1 of the again distribution grid diameter that exports near described housing, satisfying the requirement of resistance drop, and can promote the even mixing of gas-liquid.

The adjacent described again spacing between the distribution grid is 300～500 millimeters, in like manner, can satisfy the requirement of resistance drop, can promote again the even mixing of gas-liquid.

Percent opening on each described again distribution grid is 5～10%, and such scheme can satisfy the requirement of resistance drop equally, can promote again the even mixing of gas-liquid.

Preferred version to above-mentioned improvement structure is that the described diameter that portals is 3～10mm.

Compared with prior art, pre-distribution bucket in the utility model can be intervened for the first time to the fluid that enters in it, redistribute the two-phase fluid form, and the distribution grid convection cell carries out the secondary intervention again, further distributing fluids form, fully mix so that enter the two-phase fluid of heat exchanger, to guarantee heat transfer effect.

Description of drawings

Fig. 1 is the floor map of the utility model embodiment 1 assembly structure;

Fig. 2 is the floor map of distribution grid again among the utility model embodiment 1;

Fig. 3 is the floor map of the pre-bucket that distributes among the utility model embodiment 1;

Fig. 4 be among Fig. 3 A-A to cutaway view;

Fig. 5 is the top view of Fig. 3;

Fig. 6 is the floor map (dotted line is the baffle plate open mode) of the utility model embodiment 2 assembly structures;

Fig. 7 is the floor map of distribution grid decomposition texture again among the utility model embodiment 2;

Fig. 8 is the floor map of the pre-bucket that distributes among the utility model embodiment 2;

Fig. 9 be among Fig. 8 B-B to cutaway view;

Figure 10 is the top view of Fig. 8.

The specific embodiment

Embodiment is described in further detail the utility model below in conjunction with accompanying drawing.

Embodiment 1

To shown in Figure 5, this gas-liquid distributor that is installed in the heat exchanger entrance place comprises such as Fig. 1:

Housing 1, main body are pyramidal structure, and its entrance 11 connects upstream equipment by flange, and its port of export is connected to by flange on the entrance of heat exchanger (not shown), and the outlet 12 of housing is connected with the entrance of heat exchanger.

The pre-bucket 2 that distributes is arranged in the inner chamber of housing 1, the pre-arrival end that distributes bucket be tightly connected housing inwall and be communicated with the entrance of housing, that is to say, the pre-entrance 21 that distributes bucket is the entrance that the gas-liquid mixed phase fluid enters this gas-liquid distributor.What be evenly equipped with a plurality of vertical settings on the sidewall of the pre-bucket that distributes enters the first long and narrow hole 22 of the inner chamber of housing in the pre-bucket that distributes for fluid, the quantity in the first hole is 18 in the present embodiment, these first holes are arranged in parallel, also can be designed to as required 20,15 or 10, the area sum in all the first holes is more than or equal to the cross-sectional area of the pre-bucket 2 that distributes, and the present embodiment is 1.5 times; The pre-cross section that distributes bucket 2 is the end face that direction is seen of analysing and observe among Fig. 3.The pre-height that distributes bucket is 300mm in the present embodiment; The pre-height that distributes bucket can also be selected arbitrarily such as 200mm, 400mm, 500mm etc. as required at 200～500mm.The bucket end 24 of the pre-bucket that distributes, be provided with a plurality of the second holes 23 that enter the inner chamber of housing for fluid in the pre-bucket that distributes, these second holes, 23 preferred structures that adopt on the bottom surface that is evenly distributed on the pre-bucket that distributes, and the percent opening at the bucket end is 5～10%, is 7% in the present embodiment.The diameter in the second hole is 5mm in the present embodiment.The diameter in the second hole can be optional in 3～10mm as required, such as 3mm, 7mm, 10mm etc.

Distribution grid 3 again, be arranged in the inner chamber of housing 1, the outlet 12 that gear is established housing, the again distribution grid in the present embodiment only has one, be evenly equipped with on the distribution grid more a plurality of for fluids flow out in the inner chamber of housing enter housing outlet 12 portal 31,31 the diameter of portalling in the present embodiment is 5mm; The diameter that portals can also be selected at 3～10mm as required.Respectively the percent opening of distribution grid is 5～10% again, and the present embodiment is 8%.

Above-mentioned pre-distribute the bucket bottom surface near the housing outlet first again the distance between the distribution grid be first 0.8 times of diameter of distribution grid again.

Embodiment 2

To shown in Figure 10, this gas-liquid distributor that is installed in the heat exchanger entrance place comprises such as Fig. 6:

In the present embodiment, the body design of housing 4 is tubular body, and its lower end is hemispherical, and the again distribution grid 5 in the present embodiment has two, these two again distribution grid be arranged in parallel on the inwall of housing 1, spacing between the two is 300mm.Distribution grid also can use three as required again, and the adjacent again spacing between the distribution grid can be selected in 300～500 millimeters.

Above-mentioned every again distribution grid include substrate 51 and baffle plate 52.Wherein, the periphery of substrate 51 is welded on the madial wall of housing 5, and the middle part of substrate 51 is provided with the through hole 53 that passes through for the maintainer.Baffle plate 52 is blocked on the through hole 53, and an end of baffle plate is hinged on the lower surface of substrate, and the remainder of baffle plate is by the bolt substrate 51 that removably connects.

All the other contents are identical with embodiment 1.

Claims (10)

1. be installed in the gas-liquid distributor at heat exchanger entrance place, it is characterized in that comprising the housing that is installed in the heat exchanger entrance place, the outlet of this housing is connected with the entrance of described heat exchanger, is interval with distribution grid and the pre-bucket that distributes in the inner chamber of housing again; Be tightly connected inner walls and be communicated with the entrance of described housing of the described pre-arrival end that distributes bucket, the pre-perisporium that distributes bucket is provided with a plurality of the first holes that enter the inner chamber of described housing for fluid in the pre-bucket that distributes, described again distribution grid gear is established the outlet that housing is stated in the residence, and described again distribution grid is provided with a plurality of the outflow in the inner chamber of described housing for fluids and enters portalling of described heat exchanger.

2. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 1, the bucket end that it is characterized in that the described pre-bucket that distributes, also be provided with a plurality of the second holes that enter the inner chamber of described housing for fluid in the pre-bucket that distributes; The percent opening at the described bucket end is 5～10%, and the diameter in each described the second hole is 3～10mm.

3. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 1 is characterized in that the described pre-height that distributes bucket is 200～500mm.

4. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 1, it is characterized in that the long and narrow hole of described the first hole for being parallel to each other and arranging on the sidewall that vertically is arranged on the described pre-bucket that distributes, the quantity in described the first hole is 10～20, and the area sum in each described the first hole is more than or equal to the cross-sectional area of the described pre-bucket that distributes.

5. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 1 is characterized in that each described again distribution grid comprises substrate and baffle plate; Described substrate is fixedly connected on the described housing internal perisporium, and the middle part of this substrate is provided with the through hole that passes through for personnel; Described baffle plate is blocked on the described through hole, and this baffle plate is flexibly connected mutually with described substrate.

6. according to claim 1 to the described gas-liquid distributor that is installed in the heat exchanger entrance place of 5 arbitrary claims, it is characterized in that described again distribution grid has 2～3, these arrange at distribution grid interval that is parallel to each other again.

7. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 6, it is characterized in that described pre-distribute the bucket bottom surface near the again distance between the distribution grid of described housing outlet near 0.5～1 of the again distribution grid diameter of described housing outlet.

8. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 7 is characterized in that the adjacent described again spacing between the distribution grid is 300～500 millimeters.

9. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 8, the percent opening that it is characterized in that each described again distribution grid is 5～10%.

10. the gas-liquid distributor that is installed in the heat exchanger entrance place according to claim 9 is characterized in that the described diameter that portals is 3～10mm.

Images