CN201105172Y - Deflection of jet type gas-liquid cross flow type ultra-gravitational field swinging bed device - Google Patents

Abstract

The utility model relates to a baffled gas-liquid cross-flow type overweight field rotating bed device, comprising a casing, a rotating shaft and a rotor, which is characterized in that: the casing is separated into an upper chamber and an lower chamber by separating plate; a sealing device is arranged between the separating plate and the top plate; the air outlet and the liquid inlet are communicated with the upper chamber respectively; the air inlet and the liquid outlet are communicated with the lower chamber respectively; the rotating shaft penetrates the casing; the rotor comprises a top plate, a bottom plate, a plurality of upper homocentric rings, a plurality of lower homocentric rings and a liquid distributor; wherein the top plate is fixedly connected with the rotating shaft; the upper homocentric rings and the lower homocentric rings are staggered with each other in the rotor and form into a flexuous S-shaped channel for air flowing; a small hole is opened on the axial direction of the upper homocentric rings and the lower homocentric rings at the relative position of the liquid tap hole of the liquid distributor and the small hole is used as the channel of the liquid flowing in radial direction; the air inlet and the liquid outlet are communicated with the S-shaped channel of the rotor; one end of the liquid delivery tube is communicated with the upper end of the liquid distributor and the other end is communicated with the liquid inlet. The baffled gas-liquid cross-flow type overweight field rotating bed device has the good effect of high mass transfer ability and low rotational energy consumption and pressure decline.

Description

Flow turning-back gas liquid cross-flow super-gravitational field revolving bed device

Technical field

The utility model relates to a kind of gas-liquid contact mass transfer equipment, refer in particular to a kind of flow turning-back gas liquid cross-flow super-gravitational field revolving bed device, can be widely used in the occasions such as absorption, rectifying, heat transfer, chemical reaction and nano material preparation of industries such as chemical industry, pharmacy, metallurgy, light industry, owing to the path that has prolonged gas phase is particularly useful for gas absorption process.

Background technology

After being born eighties of last century seventies, high-gravity technology enjoys favor owing to the volume of reduction equipment greatly.Granted patent about high-gravity technology is the patent EP0002568 of Ramshaw professor in Europe the earliest, patent name is Mass transfer apparatus and itsuse, a kind of material filling type hypergravity field swinging bed (rotary packed bed) is disclosed, the patent such as the ZL97212054.8 of a lot of thereafter high-gravity technologies, CN95214611.8 etc. belong to this typical structure, the kind of different just fillers and the mode of gas-liquid turnover.Rotary packed bed commercial the earliest the application is absorption process (the Smelser et al.Selective acid gas removal using the HIGEE absorber.AIChE Spring Meeting that is used for sour gas in the report, Orlando, Florida.1990,18), still the rotary packed bed absorption process that is applied to has the defective of himself.Because the rotation of the high speed of rotor, gas-liquid two-phase is very short time of contact in bed, though therefore gas-liquid mass transfer efficient is very high, the mass transfer ability of single rotor is relatively still limited, and this is disadvantageous for the GAS ABSORPTION of intermediate concentration.Because the mass transfer of single rotor is limited in one's ability, therefore the higher occasion of mass transfer Capability Requirement is just needed a plurality of rotors, but do not see the report of a plurality of filler rotors of series connection in the single housing in the disclosed so far patent as yet on the other hand at some.

Patent ZL01134321.4 and ZL200510049145.1 disclose a kind of deflection of jet type revolving bed equipment in hyper gravity field of a plurality of rotors of can connecting in single housing, owing to adopted the structure of sound parts combinations, make it can realize the series connection of multi-layer rotor simply, make the mass transfer ability of single device improve exponentially.Though this revolving bed has higher mass transfer ability, also exist the weakness of self, because rotor has adopted the structure of sound parts combinations, liquid has experienced static-accelerator repeatedly in rotor, so the energy consumption of rotor rotation is higher; On the other hand, be non-mass transfer zone because internal rotor has a half space, so gas is little in the circulation area of internal rotor, the resistance of gas in rotor is bigger, so this equipment gas pressure drop is bigger.In addition, the internal rotor of rotating zigzag high-gravity bed exists mass transfer and non-mass transfer zone, so the space in the rotor fails effectively to utilize, thereby its gas-liquid flow is less relatively under the identical device volume conditions.

The utility model content

The utility model proposes the flow turning-back gas liquid cross-flow super-gravitational field revolving bed device of a kind of comprehensive above-mentioned existing advantage, the above-mentioned existing shortcoming of solution.It is higher that this device has the mass transfer ability, rotate energy consumption and the lower characteristics of pressure drop, its gas phase is walked baffling, flow path is longer relatively, liquid phase radial flow in rotor is crossed each concentric turns, can be applicable to gas absorption process preferably, and this structure can realize the many rotor coaxial series connection in the mono-hull easily.

The technical scheme that its technical problem that solves the utility model adopts is: this flow turning-back gas liquid cross-flow super-gravitational field revolving bed device mainly comprises housing, bottom plate, concentric turns, gas feed down, goes up concentric turns, upper head plate, gas vent, catheter, liquid distribution trough, liquid-inlet, liquid outlet and rotating shaft.Housing is divided into upper cavity and lower chamber by demarcation strip, be provided with sealing device between demarcation strip and the upper head plate, housing be provided with gas feed, liquid outlet, gas vent and liquid-inlet, wherein gas vent, liquid-inlet communicate with upper cavity respectively, and gas feed, liquid outlet are connected with lower chamber respectively; Rotating shaft runs through housing, rotor is made of jointly the upper head plate of fixedlying connected with rotating shaft, bottom plate, last concentric turns, following concentric turns, liquid distribution trough, last concentric turns and following concentric turns are staggered in rotor, formed the S shape passage of the complications that supplied gas flows, last concentric turns and following concentric turns have the passage of aperture as the liquid Radial Flow at the relative position of the fluid hole of axial and liquid distribution trough; Gas feed and liquid outlet are connected with the S shape passage of rotor, and an end of catheter is connected with the liquid distribution trough upper end, and the other end is connected with liquid-inlet.This structure makes the interior gas of rotor repeatedly to carry out cross-flow with liquid and contacts.

Housing described in the utility model is divided into upper cavity, multilayer middle chamber and lower chamber by demarcation strip, and middle chamber is provided with the intermediate feed mouth, forms multilayer baffling structure, realizes a plurality of rotor coaxial series connection easily, improves the mass transfer ability of single device exponentially.

The beneficial effects of the utility model are: 1, rational in infrastructure, because there is not non-mass-transfer zone in the radial extension in the rotor, so space utilization is abundant in the rotor.2, can be provided with multi-layer rotor in the housing, the mass transfer ability of single device significantly improves.3, compare with ZL200510049145.1, under the identical prerequisite of moving-coil quantity, because the gas flow area will be twice in the rotor, air resistance is less in the rotor, so pressure drop is lower.4, because liquid only experiences the process of progressively quickening in rotor, therefore the energy consumption of rotating reduces significantly.

Description of drawings

Fig. 1 is the flow turning-back gas liquid cross-flow super-gravitational field revolving bed embodiment of individual layer 1 structural representation;

Fig. 2 is that the B-B of Fig. 1 is to structural representation

Fig. 3 is the flow turning-back gas liquid cross-flow super-gravitational field revolving bed embodiment of multilayer 2 structural representations;

Fig. 4 is flow turning-back gas liquid cross-flow super-gravitational field revolving bed embodiment 3 structural representations;

Fig. 5 is a liquid branch device structural representation;

Fig. 6 is the A-A sectional structure schematic diagram of Fig. 5;

Fig. 7 is the B-B sectional structure schematic diagram of Fig. 5.

Among the figure: 1-housing, 2-bottom plate, concentric turns under the 3-, 4-gas feed, the last concentric turns of 5-, the 6-upper head plate, 7-gas vent, 8-sealing device, 9-catheter, the 10-liquid distribution trough, 11-liquid-inlet, 12-liquid outlet, 13-rotating shaft, 14-mechanical seal, 15-intermediate feed mouth, 16-filler, 17-aperture, 18-distributor upper end cavity, the 19-distributor cuts off cavity, 20-fluid hole, 21-upper cavity, the 22-lower chamber, 23-demarcation strip, 24-middle chamber, 25-outer ring.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is described in further detail.

Embodiment 1: single layer structure

As depicted in figs. 1 and 2, this flow turning-back gas liquid cross-flow super-gravitational field revolving bed device mainly comprises housing 1, bottom plate 2, concentric turns 3, gas feed 4 down, goes up concentric turns 5, upper head plate 6, gas vent 7, catheter 9, liquid distribution trough 10, liquid-inlet 11, liquid outlet 12 and rotating shaft 13.Housing 1 is divided into upper cavity 21 and lower chamber 22 by demarcation strip 23, housing 1 be provided with gas feed 4, liquid outlet 12, gas vent 7 and liquid-inlet 11, wherein gas vent 7, liquid-inlet 11 communicate with upper cavity 21 respectively, and gas feed 4, liquid outlet 12 are connected with lower chamber 22 respectively.Rotating shaft 13 runs through housing 1, rotor is made of jointly the upper head plate 6 of fixedlying connected with rotating shaft 13, bottom plate 2, last concentric turns 5, following concentric turns 3, liquid distribution trough 10, last concentric turns 5 and following concentric turns 3 are staggered in rotor, formed the S shape passage of the complications that supplied gas flows, last concentric turns 5 and following concentric turns 3 have the flow channel of aperture 17 as liquid at the relative position of the fluid hole 20 of axial and liquid distribution trough 10.Gas feed 4 and liquid outlet 12 are connected with the S shape passage of rotor, and an end of catheter 9 is connected with the distributor upper end, and the other end is connected with liquid-inlet 11.Between the outermost end of upper head plate 6 and bottom plate 2, be provided with outer ring 15, have slotted eye on the outer ring 15.In order to prevent that gas-liquid from walking short circuit and leakage, between demarcation strip 23 and upper head plate 6, be provided with sealing device 8, at rotating shaft 13 and the top of housing 1 and the junction of bottom mechanical seal 14 is installed all.

As Fig. 5-shown in Figure 7, described liquid distribution trough 10 cuts off cavity 19 by distributor upper end cavity 18 and 4 distributors and constitutes, catheter 9 is connected with upper end cavity 18, cut off cavity 19 with the distributor of each layer respectively by the multilayer pipeline and be connected, the chamber wall that distributor cuts off cavity 19 is provided with fluid hole 20.By catheter 9 liquid is caused in the upper end cavity 18 of distributor, the pipeline that is led to each layer by the upper end causes liquid among each layer, is that example describes with four laminars among the figure, and number of plies liquid distribution more at most is even more.

The course of work: gas tangentially enters inner chamber from gas feed 4, slotted eye from the outer ring 15 of rotor under the effect of pressure reduction enters rotor, by finally leaving rotor from upper head plate 6 central openings by last concentric turns 5 and following concentric turns 5 formed S shape passages, and through gas vent 7 these devices of discharge; After liquid enters from liquid-inlet 11, introduce the distributor 10 that is positioned at rotor center through catheter, because distributor 10 and rotor rotate simultaneously, under powerful centrifugal action, liquid leaves distributor 10 and passes through the interior concentric turns of rotor one by one, throws away rotor at last and leaves this device through liquid outlet 12.Like this, in the process of flowing, gas-liquid two-phase has been realized cross-flow contact repeatedly, finishes mass transport process in rotor.

Embodiment 2: sandwich construction

As shown in Figure 3, described housing 1 is divided into upper cavity 21, two layers of middle chamber 24 and lower chamber 22 by demarcation strip 23, and middle chamber 24 is provided with intermediate feed mouth 15, forms multilayer baffling structure.Coaxial a plurality of rotors of having connected in the single housing, Liquid Flow situation in each rotor is identical with single layer structure, different is leaves the outer rim that the gas of certain layer of rotor center will enter adjacent upper strata rotor once more, then along another layer rotor that enters after zigzag path passes the upper strata rotor on it; And the liquid that leaves this layer rotor is collected after the catheter 9 of adjacent following one deck rotor enters down the distributor 10 of one deck rotor, passes under centrifugal action down and enters its another layer rotor down behind one deck rotor.Like this in the structure of multi-layer rotor, gas passes each layer rotor from bottom to top successively, and liquid passes each layer rotor from top to bottom successively, so the flow path of gas-liquid prolongs greatly, the time of contact of gas-liquid and frequency of exposure also increase greatly, thereby have very high mass transfer ability.In the equipment of sandwich construction, be provided with intermediate feed mouth 15 between each layer rotor, can use intermediate feed in raw material charging or other gas-liquid operating process of continuous rectification process.

Embodiment 3: the single or multiple lift structure

As shown in Figure 4, when being applied to the gas-liquid mass transfer occasion, filler 16 can be loaded onto in the latter end baffling zone that the gas at every layer of rotor center position experienced, and can prevent the entrainment phenomenon effectively.

In addition to the implementation, the utility model can also have other embodiments.All employings are equal to the technical scheme of replacement or equivalent transformation formation, all drop on the protection domain of the utility model requirement.

Claims (6)

1, a kind of flow turning-back gas liquid cross-flow super-gravitational field revolving bed device, mainly comprise housing (1), bottom plate (2), following concentric turns (3), gas feed (4), last concentric turns (5), upper head plate (6), gas vent (7), catheter (9), liquid distribution trough (10), liquid-inlet (11), liquid outlet (12) and rotating shaft (13), it is characterized in that: housing (1) is divided into upper cavity (21) and lower chamber (22) by demarcation strip (23), be provided with sealing device (8) between demarcation strip (23) and the upper head plate (6), housing (1) be provided with gas feed (4), liquid outlet (12), gas vent (7) and liquid-inlet (11), gas vent (7) wherein, liquid-inlet (11) communicates with upper cavity (21) respectively, gas feed (4), liquid outlet (12) is connected with lower chamber (22) respectively; Rotating shaft (13) runs through housing (1), rotor is made of jointly the upper head plate (6) of fixedlying connected with rotating shaft (13), bottom plate (2), last concentric turns (5), following concentric turns (3), liquid distribution trough (10), last concentric turns (5) and following concentric turns (3) are staggered in rotor, formed the S shape passage of the complications that supplied gas flows, last concentric turns (5) and following concentric turns (3) have an aperture (17) at the relative position of the fluid hole (20) of axial and liquid distribution trough (10); Gas feed (4) and liquid outlet (12) are connected with the S shape passage of rotor, and an end of catheter (9) is connected with liquid distribution trough (10) upper end, and the other end is connected with liquid-inlet (11).

2, flow turning-back gas liquid cross-flow super-gravitational field revolving bed device according to claim 1, it is characterized in that: described housing (1) is divided into upper cavity (21), multilayer middle chamber (24) and lower chamber (22) by demarcation strip (23), middle chamber (24) is provided with intermediate feed mouth (15), forms multilayer baffling structure.

3, flow turning-back gas liquid cross-flow super-gravitational field revolving bed device according to claim 1 is characterized in that: described rotating shaft (13) is provided with mechanical seal (14) with the junction of housing (1).

4, flow turning-back gas liquid cross-flow super-gravitational field revolving bed device according to claim 1, it is characterized in that: described liquid distribution trough (10) cuts off cavity (19) by distributor upper end cavity (18) and a plurality of distributor and constitutes, catheter (9) is connected with upper end cavity (18), cut off cavity (19) with the distributor of each layer respectively by the multilayer pipeline and be connected, the chamber wall that distributor cuts off cavity (19) is provided with fluid hole (20).

5, according to the described flow turning-back gas liquid cross-flow super-gravitational field revolving bed device of claim 1, it is characterized in that: the latter end baffling zone that gas experienced at the rotor center position is provided with filler (16).

6, according to the described flow turning-back gas liquid cross-flow super-gravitational field revolving bed device of claim 1, it is characterized in that: be provided with outer ring (15) between the outermost end of upper head plate (6) and bottom plate (2), the outer ring has slotted eye on (15).

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