CN205199015U - Energy -efficient bubble column - Google Patents

Abstract

The utility model discloses an energy -efficient bubble column, it contains the graphite tower body, the graphite plates and bubble caps, a plurality of blocks of graphite column plates from top to bottom set up in the graphite tower body, a plurality of bubble caps distribute at graphite column plate upside, a plurality of bubble caps are covered with monoblock graphite column plate, every bubble cap contains vertical pipeline and cylindric housing, the vertical setting of vertical pipeline is and the vertical pipeline lower extreme passes the graphite column plate and the graphite column plate is fixed on the graphite column plate, there are a plurality of through -holes along equidistant division of vertical pipeline circumference on the lateral wall of vertical pipeline upper end, cylindric housing back -off is in the vertical pipeline upper end and fixed with vertical pipeline, cylindric housing downside edge is provided with vertical tooth's socket along cylindric housing circumference is equidistant. The utility model provides the high effective area of graphite column plate to gas -liquid mass transfer effect is more outstanding, thus the energy saving.

Description

A kind of energy-efficient bubble column

Technical field

The utility model relates to a kind of bubble column, particularly relates to a kind of energy-efficient bubble column.

Background technology

Bubble column is commonly used to make steam or gas and liquid close contact with the effect of mass transmitting promoting it mutual.In bubble column graphite tower body, Multi-layer graphite column plate is housed from top to bottom, column plate is evenly distributed with multiple bubble-cap, bubble-cap bottom margin has slot or sulculus, such liquid enters from bubble column upper end, gas upwards carries out mutual mass transfer by the liquid comes into contact bubble-cap and graphite column plate from bubble column lower end, conventional blister tower is the mode that the liquid realizing upper strata graphite column plate leads to employing to lower floor's Graphite Tower plate current is generally arrange overflow pipe in graphite column plate both sides, by overflow pipe, liquid drain is controlled liquid level height to lower floor.Such structure, the overflow pipe of both sides needs to take the larger area in graphite column plate both sides, make position, both sides bubble-cap can not be set again, the effective area of gas and liquid mass transfer on graphite column plate is made to be less than the real area about 30% of graphite column plate, cause the waste of the area of graphite column plate, and reduce gas and liquid comes into contact effect, make when onesize graphite column plate, gas and liquid mass transfer deleterious, waste energy.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of energy-efficient bubble column, it eliminate the need overflow pipe, increases the effective area of the gas-liquid mass transfer of graphite column plate, improves mass-transfer efficiency, has saved energy.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is:

A kind of energy-efficient bubble column, comprise graphite tower body, graphite plates and bubble caps, some blocks of graphite column plates are arranged in graphite tower body from top to bottom, multiple bubble-cap is distributed on the upside of graphite column plate, multiple bubble-cap is covered with monoblock graphite column plate, each blister pack is containing vertical pipeline and cylindrical casing, described vertical pipeline is vertically arranged on graphite column plate and vertical pipeline lower end and fixes through graphite column plate and graphite column plate, described vertical pipeline upper end sidewall equidistantly has some through holes along vertical pipeline circumference, described cylindrical casing tips upside down on vertical pipeline upper end and fixes with vertical pipeline, described cylindrical casing lower edge has vertical teeth groove along cylindrical casing circumference spaced set.

Further, the through hole on the sidewall of described vertical pipeline upper end is the mounting hole vertically arranged.

Further, described vertical teeth groove is the vertical channel vertically offered, and vertical channel upper end is the circular arc upwards arched upward.

Further, described cylindrical casing lower edge is equal with bubble column liquid level with graphite column plate upper side vertical spacing.

The utility model compared with prior art, have the following advantages and effect: the overflow pipe of conventional blister tower removes by energy-efficient bubble column, thus make bubble-cap intactly can be covered with monoblock graphite column plate, therefore under the graphite column plate of formed objects specification, energy-efficient bubble column of the present utility model substantially increases the effective area of gas-liquid mass transfer on graphite column plate, make gas-liquid mass transfer better effects if, save the energy of mass transfer.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of a kind of energy-efficient bubble column of the present utility model.

Fig. 2 is the schematic diagram of bubble-cap in Fig. 1.

Detailed description of the invention

The utility model is made further explanation by embodiment below in conjunction with accompanying drawing, but the utility model is not limited to following examples.

As shown in Figure 1, the energy-efficient bubble column of one of the present utility model comprises graphite tower body 1, graphite column plate 2 and bubble-cap 3, and some blocks of graphite column plates 2 are arranged in graphite tower body 1 from top to bottom, and multiple bubble-cap 3 is distributed on the upside of graphite column plate.Graphite tower body 1 is formed by stacking by multistage graphite cylinder body, and graphite column plate 2 to be arranged between two sections of graphite cylinder bodies be superimposed and to block fixing by bayonet socket or held by bracket fixing.Multiple bubble-cap 3 is covered with monoblock graphite column plate 2, because a kind of energy-efficient bubble column of the present utility model eliminates the overflow pipe of conventional blister tower, like this by graphite column plate 2 by overflow pipe take about 30% area free for the more bubble-caps of distribution, thus increase the effective area of graphite column plate 2.Each bubble-cap 3 comprises vertical pipeline 4 and cylindrical casing 5, vertical pipeline 4 is vertically arranged on graphite column plate 2 and vertical pipeline 4 lower end and fixes through graphite column plate 2 and graphite column plate 2, vertical pipeline 4 upper end sidewall equidistantly has some through holes 6 along vertical pipeline 4 circumference, cylindrical casing 5 tips upside down on vertical pipeline 4 upper end and fixes with vertical pipeline 4, and cylindrical casing 5 lower edge has vertical teeth groove 7 along the circumferential spaced set of cylindrical casing 5.Graphite tower body 1 upper end has gas vent 8, and lower end has liquid outlet 9, and graphite tower body upper side has liquid-inlet 10, and lower end side has gas feed 11.By such structure, gas enters in graphite tower body 1 from gas feed 11, finally go out from graphite tower body 1 upper end gas vent 8 after some blocks of graphite column plates 2, liquid enters in graphite tower body from the liquid-inlet 10 of graphite tower body upper side, goes out after some blocks of graphite column plates 2 from lower end liquid outlet 9.In bubble-cap 3 position, gas to enter from bottom to top from vertical pipeline 4 lower end in vertical pipeline 4 and enters into gap between cylindrical casing 5 and vertical pipeline 4 outer wall from the through hole 6 of vertical pipeline 4 upper side, the last vertical teeth groove 7 from cylindrical casing 5 lower end out, meanwhile, liquid distribution is on graphite column plate 2, above graphite column plate 2, certain pressure is formed by controlling gas velocity, thus the liquid on graphite column plate 2 to be pressed down thus vertical teeth groove 7 through cylindrical casing 5 lower end enters gap between cylindrical casing 5 and vertical pipeline 4 outer wall, enter in vertical pipeline 4 through the through hole 6 of vertical pipeline 4 upper side again and flow downward to along vertical pipeline 4 inwall on lower one deck Graphite Tower plate, by the mode of such gas and liquid convection, gas and liquid is not only made to carry out mutual mass transfer on the upside of graphite column plate, in vertical pipeline 4 and between cylindrical casing 5 and vertical pipeline 4 outer wall, also mass transfer can be carried out in gap simultaneously, thus substantially increase gas-liquid mass transfer effect.

As shown in Figure 2, the through hole 6 on the sidewall of vertical pipeline 4 upper end is the mounting hole vertically arranged, and gas and liquid are in through hole 6, gas passes through on the upside of through hole 6, liquid flows in downside, by the design of mounting hole, can make the convection current of gas and liquid more smoothly.Vertical teeth groove 7 is the vertical channel vertically offered, and vertical channel upper end is the circular arc upwards arched upward, and by such design, reaches the technique effect similar with the through hole 6 of mounting hole, makes gas-liquid convection more smooth and easy.Cylindrical casing 5 lower edge is equal with the liquid level that bubble column requires with graphite column plate 2 upper side vertical spacing, because gas-liquid carries out convective exchange in vertical teeth groove 7 position of cylindrical casing 5 lower end, thus cylindrical casing 5 lower edge and graphite column plate 2 upper side vertical spacing determine the height of liquid on graphite column plate 2.

Claims (4)

1. an energy-efficient bubble column, comprise graphite tower body, graphite plates and bubble caps, some blocks of graphite column plates are arranged in graphite tower body from top to bottom, multiple bubble-cap is distributed on the upside of graphite column plate, it is characterized in that: multiple bubble-cap is covered with monoblock graphite column plate, each blister pack is containing vertical pipeline and cylindrical casing, described vertical pipeline is vertically arranged on graphite column plate and vertical pipeline lower end and fixes through graphite column plate and graphite column plate, described vertical pipeline upper end sidewall equidistantly has some through holes along vertical pipeline circumference, described cylindrical casing tips upside down on vertical pipeline upper end and fixes with vertical pipeline, described cylindrical casing lower edge has vertical teeth groove along cylindrical casing circumference spaced set.

2. according to the energy-efficient bubble column of one according to claim 1, it is characterized in that: the through hole on the sidewall of described vertical pipeline upper end is the mounting hole vertically arranged.

3. according to the energy-efficient bubble column of one according to claim 1, it is characterized in that: described vertical teeth groove is the vertical channel vertically offered, and vertical channel upper end is the circular arc upwards arched upward.

4. according to the energy-efficient bubble column of one according to claim 1, it is characterized in that: described cylindrical casing lower edge is equal with bubble column liquid level with graphite column plate upper side vertical spacing.