CN105890395A - Shell-and-tube heat exchange condenser - Google Patents

Abstract

The invention discloses a shell-and-tube heat exchange condenser. The shell-and-tube heat exchange condenser is composed of a shell (1), a tube box (2), a tube bundle (8), a floating head (10), an outer cover (11), a tube layer material outflow opening (3), a tube layer material flow-in opening (5), a shell layer material flow-in opening (4), a shell layer material outflow opening (9), a baffle plate A (6) and a baffle plate (15). The baffle plate A (6) and the baffle plate (15) are arranged in a spaced manner, and an upper arch gap (12) and a lower arch gap (13) are formed in the baffle plate (15). The chord height of the lower arch gap (13) is 2% to 20% of the diameter of the shell, and the distance between the baffle plate A (6) and the baffle plate (15) ranges from 80 mm to 750 mm. According to the condenser, the heat exchange strength is improved, the heat exchange efficiency of the condenser is improved, the needed heat exchange area is reduced, metal consumption of a heat exchanger is reduced, and investment and energy consumption are reduced.

Description

A kind of shell heat exchange condensers

Technical field

The present invention relates to steam condenser, particularly to a kind of pipe shell type heat exchange condenser.

Background technology

Heat exchanger is widely used in industrial circle, be for complete the heat of two or more medium exchange set Standby.Shell-and-tube heat exchangerIt is made up of parts such as housing, heating surface bank, tube sheet, deflection plate and bobbin carriages.Housing Mostly being cylindrical shape, internal equipped with tube bank, tube bank two ends are fixed on tube sheet.Carry out cold and hot two kinds of streams of heat exchange Body, a kind of at Bottomhole pressure, it is referred to asTube sideFluid；Another kind of in the outer flowing of pipe, referred to as shell-side fluid.For Improve the individual heat transfer coefficient of extratubal fluid, some baffle plates are generally installed in housing.Baffle plate can improve shell side stream Body speed, forces fluid by regulation distance repeatedly laterally across tube bank, strengthens fluidTurbulent flowDegree.Heat exchanger tube Can be by equilateral triangle or square arrangement on tube sheet.Triangular arranged is compacter, and extratubal fluid is rapid Traverse degree is high, and individual heat transfer coefficient is big；Square arrangement is then managed outer easy to clean, it is adaptable to the easily fluid of fouling. Fluid is often once referred to as a tube side by tube bank；Often once it is referred to as a shell side by housing, for improving in pipe Fluid velocity, can arrange dividing plate in the bobbin carriage of two ends, whole pipes are divided into some groups.So fluid is each Only by partial tube, thus coming and going repeatedly in tube bank, this is referred to as multitube distance.Equally, for improving outside pipe Flow velocity, it is possible to install longitudinal baffle in housing, force fluid Multiple through then out shell space, referred to as muitishell. Multitube distance and muitishell can fit applications.

Condenser be one can be by gaseous materialCondenseBecome the equipment of liquid, be to have to condense gaseous material Become the heat exchanger of liquid, in petroleum chemical engineering, generally refer to shell side processing medium in heat exchange Journey is gradually cooled, releases the latent heat of vaporization, gas phase become liquid phase, produce the heat exchanger of condensation.Right In shell-and-tube cooler, in shell side structure, deflection plate is its important component part, and deflection plate is except exchange Heat pipe rises to be fixed and outside supporting role, the deflection plate heat exchanger shell side that multi-form, different structure are arranged Heat transfer efficiency and pressure drop also play vital effect.Standard GB/T 151-1999 " pipe shell type heat exchange Device " in 5.9.5 bar regulation, deflection plate typically should be equally spaced, and the shell side of horizontal heat exchanger is single-phase cleaning During fluid, baffle gap answers level to arrange up and down；The shell side of horizontal heat exchanger, condenser and reboiler is situated between Matter be gas, liquid coexist or in liquid containing solid material time, baffle gap should vertically left and right layout, in detail See Fig. 1.At present, the condenser of this shell-and-tube have simple in construction, marshalling, operating flexibility big, can By degree advantages of higher.

Shell side inlet medium is to illustrate its diabatic process, in heat exchange as a example by the condenser containing not condensing During, shell side gas phase is cooled, and discharges the latent heat of vaporization, and medium is converted to liquid by gaseous state.Along with heat Going deep into of exchange, in shell side medium, gas phase composition gradually decreases, and liquid phase composition gradually increases, i.e. along shell side On flow direction, the liquid in the heat exchange unit unit interval between each deflection plate is many by reducing, and goes up in gradient Rising, gas phase, by reducing, declines in gradient.Deflection plate of the prior art, as it is shown in figure 1, breach is vertical Left and right is arranged, structure is unified, and deflection plate is not with the change of shell side medium gas-liquid amount in each heat exchange unit Change and change so that medium is different by flow velocity during each baffle gap, changing of each heat exchange unit Calorific intensity difference is relatively big, affects overall heat exchange efficiency, simultaneously because the change of velocity of medium, causes shell side pressure The increase of fall, thus cause the heat exchange area of condenser needs more, condenser metal consumption increases, operation Middle energy consumption increases, and i.e. increases equipment investment, wastes again the energy.

But due to baffle arrangement and form, the heat exchange efficiency making prior art shell-and-tube cooler is on the low side, behaviour The defect such as make that pressure drop is relatively big, metal consumption is relatively big and energy consumption is high.

Summary of the invention

The present invention be directed to that horizontal pipe shell tube condenser heat exchange efficiency in prior art is on the low side, operation pressure drop is relatively big, The defects such as metal consumption is bigger, it is proposed that a kind of pipe shell type heat exchange condenser, by using optimization baffling to harden The high-efficiency condensation heat exchanger of configuration formula, increases heat transfer intensity, is allowed to be suitable for shell side medium and produces the special of phase transformation Heat exchange occasion, improves the heat exchange efficiency of condenser, the heat exchange area needed for minimizing further, reduces heat exchange The metal consumption of device, reduces investment and energy resource consumption.

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, it is characterised in that: deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with Upper arcuate indentation 12 and lower arcuate indentation 13.

Action is diameter of the housing 10%～the 40% of described upper arcuate indentation 12, preferably 15%～35%.Near shell The upper arch more than close shell stream outlet 9 of the upper arcuate indentation 12 of layer stream inlet 4 deflection plate 15 The action of breach 12, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell The action of the upper arcuate indentation 12 of stream outlet 9 is to gradually decrease, the string of two adjacent upper arcuate indentation 12 The discrepancy in elevation is 0.8%～2.5% housing 1 diameter, preferably 1%～2% housing 1 diameter

Spacing between described deflection plate A6 and deflection plate 15 is 80～750mm, preferably 100～650mm. Action is diameter of the housing 2%～the 20% of described lower arcuate indentation 13, preferably 5%～15%.Near shell Lacking less than the lower arch near shell stream outlet 9 of the lower arcuate indentation 13 of stream inlet 4 deflection plate 15 The action of mouth 13, from the lower arcuate indentation 13 near shell stream inlet 4 deflection plate 15 near shell thing The action of the lower arcuate indentation 13 of flow export 9 is gradually increased the action difference of two adjacent lower arcuate indentation 13 0.6%～2.2% housing 1 diameter, preferably 1.0%～2.0% housing 1 diameter.

The method have the characteristics that the structure of arrangement and the deflection plate changing shell deflection plate, on the one hand Change shell baffle gap into horizontally disposed setting by being arranged vertically, upper arcuate indentation 12 and lower arcuate indentation The action of 13 is referred to as the change of liquid phase medium flow along with minimizing and the condensation of steam flow and changes, from close The lower arcuate indentation 13 of shell stream inlet 4 is to the string of the lower arcuate indentation 13 near shell stream outlet 9 Height is gradually increased.Along shell media flow direction, breach size is gradually increased, and enters near shell logistics The upper arcuate indentation 12 of mouth 4 gradually decreases to the action of the upper arcuate indentation 12 near shell stream outlet 9. The action of upper arcuate indentation 12 reduces according to the minimizing of quantity of steam, and the action of lower arcuate indentation 13 is according to liquid The increase of phase medium and become larger so that shell gas phase and liquid phase medium are by during each baffle gap Flow velocity is held essentially constant, the heat transfer intensity convergence of each heat exchange unit, strengthens gaseous heat transfer simultaneously, thus Improving overall heat exchange efficiency, reduce the heat exchange area that condenser needs, condenser metal consumption decreases.

Effect that is fixing and that support heat exchanger tube is played in aperture area 1；Upper arcuate breach 12 plays holding gas phase Media flow and guarantee gas phase media carry out the effect of heat exchange with medium in pipe；Lower arcuate breach 13 To keeping the effect along the horizontal axis constant speed flowing of tube bank direction of the shell liquid phase medium.

Compared with prior art, one shell-and-tube cooler of the present invention has the following characteristics that

1. shell liquid phase medium is along the horizontal axis flowing of tube bank direction, compared with in traditional structure, liquid phase medium comes and goes baffling Decrease pressure drop；

2., due to the change of lower arcuate indentation 13 action of deflection plate 15, on the one hand can ensure that liquid phase medium flow velocity Stable, also ensure that gas phase media can carry out sufficient heat biography by the stream of design with medium in pipe simultaneously Pass so that the utilization ratio of heat exchange area is greatly improved；

3. enhance gaseous heat transfer, be suitable for shell side medium and produce the special heat exchange occasion of phase transformation, add heat transfer intensity；

4. under conditions of control action being played for shell-side heat transfer, the heat exchange efficiency of condenser can be improved, changing needed for minimizing Hot side amasss, and can be effectively improved heat exchange efficiency 10%～about 35%, the corresponding metal consumption reducing heat exchanger. Under similarity condition, use patent efficient condenser of the present invention, equipment investment 8%～about 20% can be reduced.

Accompanying drawing and accompanying drawing explanation

Fig. 1 is shell-and-tube cooler structural representation in prior art

Deflection plate upper and lower notch features schematic diagram in shell-and-tube cooler in Fig. 2 prior art

Fig. 3 one of the present invention shell heat exchange condensers device structural representation

Fig. 4 one of the present invention shell heat exchange condensers, deflection plate 15 upper and lower notch features schematic diagram

Wherein: 1. housing, 2. bobbin carriage, 3. tube layer stream outlet, 4. shell stream inlet, 5. tube layer stream inlet, 6. deflection plate A, 7. deflection plate B, 8. tube bank, 9. shell stream outlet, 10. raise the nose above water to breathe, 11. enclosing covers, 12. Upper arcuate indentation, 13. times arcuate indentation, 14. aperture area, 15 deflection plates, 16. deflection plate A and deflection plate 15 Spacing.

Detailed description of the invention

Embodiment 1

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, and deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with arcuate indentation 12 With lower arcuate indentation 13, action is diameter of the housing the 15% of upper arcuate indentation 12, near shell stream inlet The string more than the upper arcuate indentation 12 near shell stream outlet 9 of the upper arcuate indentation 12 of 4 deflection plates 15 Height, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell stream outlet 9 The action of upper arcuate indentation 12 be to gradually decrease, the action difference of two adjacent upper arcuate indentation 12 is 1% shell Body diameter, the spacing between deflection plate A6 and deflection plate 15 is 100mm, the action of lower arcuate indentation 13 For the 2% of diameter of the housing, near shell stream inlet 4 deflection plate 15 lower arcuate indentation 13 less than close The action of the lower arcuate indentation 13 of shell stream outlet 9, near shell stream inlet 4 deflection plate 15 Lower arcuate indentation 13 is gradually increased two phases to the action of the lower arcuate indentation 13 near shell stream outlet 9 The action difference of adjacent lower arcuate indentation 13 is 1.2% diameter of the housing.

Embodiment 2

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, and deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with arcuate indentation 12 With lower arcuate indentation 13, action is diameter of the housing the 20% of upper arcuate indentation 12, near shell stream inlet The string more than the upper arcuate indentation 12 near shell stream outlet 9 of the upper arcuate indentation 12 of 4 deflection plates 15 Height, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell stream outlet 9 The action of upper arcuate indentation 12 be to gradually decrease, the action difference of two adjacent upper arcuate indentation 12 is 1.5% Diameter of the housing, the spacing between deflection plate A6 and deflection plate 15 is 200mm, the string of lower arcuate indentation 13 The 5% of a height of diameter of the housing, being less than of lower arcuate indentation 13 near shell stream inlet 4 deflection plate 15 is leaned on The action of the lower arcuate indentation 13 of nearly shell stream outlet 9, near shell stream inlet 4 deflection plate 15 Lower arcuate indentation 13 be gradually increased two to the action of lower arcuate indentation 13 near shell stream outlet 9 The action difference of adjacent lower arcuate indentation 13 is 1.0% diameter of the housing.

Embodiment 3

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, and deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with arcuate indentation 12 With lower arcuate indentation 13, action is diameter of the housing the 30% of upper arcuate indentation 12, near shell stream inlet The string more than the upper arcuate indentation 12 near shell stream outlet 9 of the upper arcuate indentation 12 of 4 deflection plates 15 Height, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell stream outlet 9 The action of upper arcuate indentation 12 be to gradually decrease, the action difference of two adjacent upper arcuate indentation 12 is 1.8% Diameter of the housing, the spacing between deflection plate A6 and deflection plate 15 is 500mm, the string of lower arcuate indentation 13 The 10% of a height of diameter of the housing, being less than of lower arcuate indentation 13 near shell stream inlet 4 deflection plate 15 is leaned on The action of the lower arcuate indentation 13 of nearly shell stream outlet 9, near shell stream inlet 4 deflection plate 15 Lower arcuate indentation 13 be gradually increased two to the action of lower arcuate indentation 13 near shell stream outlet 9 The action difference of adjacent lower arcuate indentation 13 is 1.5% diameter of the housing.

Embodiment 4

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, and deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with arcuate indentation 12 With lower arcuate indentation 13, action is diameter of the housing the 35% of upper arcuate indentation 12, near shell stream inlet The string more than the upper arcuate indentation 12 near shell stream outlet 9 of the upper arcuate indentation 12 of 4 deflection plates 15 Height, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell stream outlet 9 The action of upper arcuate indentation 12 be to gradually decrease, the action difference of two adjacent upper arcuate indentation 12 is 2.0% Diameter of the housing, the spacing between deflection plate A6 and deflection plate 15 is 300mm, the string of lower arcuate indentation 13 The 15% of a height of diameter of the housing, being less than of lower arcuate indentation 13 near shell stream inlet 4 deflection plate 15 is leaned on The action of the lower arcuate indentation 13 of nearly shell stream outlet 9, near shell stream inlet 4 deflection plate 15 Lower arcuate indentation 13 be gradually increased two to the action of lower arcuate indentation 13 near shell stream outlet 9 The action difference of adjacent lower arcuate indentation 13 is 1.8% diameter of the housing.

Embodiment 5

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, and deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with arcuate indentation 12 With lower arcuate indentation 13, action is diameter of the housing the 35% of upper arcuate indentation 12, near shell stream inlet The string more than the upper arcuate indentation 12 near shell stream outlet 9 of the upper arcuate indentation 12 of 4 deflection plates 15 Height, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell stream outlet 9 The action of upper arcuate indentation 12 be to gradually decrease, the action difference of two adjacent upper arcuate indentation 12 is 2.0% Diameter of the housing, the spacing between deflection plate A6 and deflection plate 15 is 650mm, the string of lower arcuate indentation 13 The 15% of a height of diameter of the housing, being less than of lower arcuate indentation 13 near shell stream inlet 4 deflection plate 15 is leaned on The action of the lower arcuate indentation 13 of nearly shell stream outlet 9, near shell stream inlet 4 deflection plate 15 Lower arcuate indentation 13 be gradually increased two to the action of lower arcuate indentation 13 near shell stream outlet 9 The action difference of adjacent lower arcuate indentation 13 is 1.8% diameter of the housing.

Embodiment 6

A kind of shell heat exchange condensers, by housing 1, bobbin carriage 2, tube bank 8, floating head 10, enclosing cover 11, tube layer thing Flow export 3, tube layer stream inlet 5, shell stream inlet 4, shell stream outlet 9, deflection plate A6, folding Stream plate 15 forms, and deflection plate A6 and deflection plate 15 interval are arranged, and deflection plate 15 is provided with arcuate indentation 12 With lower arcuate indentation 13, action is diameter of the housing the 35% of upper arcuate indentation 12, near shell stream inlet The string more than the upper arcuate indentation 12 near shell stream outlet 9 of the upper arcuate indentation 12 of 4 deflection plates 15 Height, from the upper arcuate indentation 12 near shell stream inlet 4 deflection plate 15 near shell stream outlet 9 The action of upper arcuate indentation 12 be to gradually decrease, the action difference of two adjacent upper arcuate indentation 12 is 2.0% Diameter of the housing, the spacing between deflection plate A6 and deflection plate 15 is 500mm, the string of lower arcuate indentation 13 The 15% of a height of diameter of the housing, being less than of lower arcuate indentation 13 near shell stream inlet 4 deflection plate 15 is leaned on The action of the lower arcuate indentation 13 of nearly shell stream outlet 9, near shell stream inlet 4 deflection plate 15 Lower arcuate indentation 13 be gradually increased two to the action of lower arcuate indentation 13 near shell stream outlet 9 The action difference of adjacent lower arcuate indentation 13 is 1.8% diameter of the housing.

Claims (6)

1. a shell heat exchange condensers, by housing (1), bobbin carriage (2), tube bank (8), raise the nose above water to breathe (10), enclosing cover (11), tube layer stream outlet (3), tube layer stream inlet (5), shell stream inlet (4), shell stream outlet (9), deflection plate A (6), deflection plate (15) forms, it is characterized in that: deflection plate A (6) and deflection plate (15) interval are arranged, deflection plate (15) is provided with arcuate indentation (12) and lower arcuate indentation (13), action is diameter of the housing 2%～the 20% of lower arcuate indentation (13), spacing between deflection plate A (6) and deflection plate (15) is 80～750mm.

2. according to a kind of shell heat exchange condensers described in claim 1, it is characterised in that: the spacing between described deflection plate A (6) and deflection plate (15) is 100～650mm.

3. according to a kind of shell heat exchange condensers described in claim 1, it is characterised in that: action is housing (1) diameter the 15%～35% of described upper arcuate indentation (12).

4. according to a kind of shell heat exchange condensers described in claim 1, it is characterized in that: near the action less than the lower arcuate indentation (13) near shell stream outlet (9) of the lower arcuate indentation (13) of shell stream inlet (4), be gradually increased from the lower arcuate indentation (13) of close shell stream inlet (4) action to the lower arcuate indentation (13) near shell stream outlet (9).

5. according to a kind of shell heat exchange condensers described in claim 1, it is characterised in that: described lower arcuate indentation (13), the action difference of two adjacent lower arcuate indentation (13) is 1%～2% housing (1) diameter.

6. according to a kind of shell heat exchange condensers described in claim 1, it is characterised in that: action is housing (1) diameter the 5%～15% of described lower arcuate indentation (13).