CN210522234U - Installation structure of adsorption device of desulfurizing tank - Google Patents

Abstract

The utility model discloses a digester adsorption equipment mounting structure, which comprises a tank body and adsorption equipment, adsorption equipment installs internally at the jar, be equipped with at least two sets of annular supports on the inner wall of the jar body, all annular supports from the top down level in proper order and fixes the inner wall at the jar body, the internal diameter from the top down of all annular supports dwindles in proper order, adsorption equipment is two at least, adsorption equipment is the cake form, adsorption equipment supports the one-to-one with the annular, all adsorption equipment from the top down sets gradually on the annular of correspondence supports, all adsorption equipment's radius from the top down dwindles in proper order, adsorption equipment is located directly over the annular of correspondence supports, adsorption equipment's lower surface falls on the upper surface that the annular of correspondence supported. Adopt the utility model discloses a digester adsorption equipment mounting structure has improved the corrosion resistance of retort in the material, ensures that gas is at the in-process that rises, and the process adsorption equipment that can be at utmost has avoided gaseous effusion, has improved adsorption effect.

Description

Installation structure of adsorption device of desulfurizing tank

Technical Field

The utility model relates to an adsorption equipment's installation, concretely relates to digester adsorption equipment's mounting structure.

Background

The active carbon adsorption desulfurization is a relatively mature flue gas desulfurization method at present, sulfur in tail gas can be adsorbed by active carbon, and the sulfur adsorbed by the active carbon is washed out by a spraying mode to generate diluted dilute acid, so that the emission of the tail gas is controlled, and the dilute acid can be returned to a sulfur acid production workshop for reuse. In the existing tail gas desulfurization device, a tank body is formed by pouring cement, an acid-proof brick is used for being internally pasted with corrosion resistance, the processes of epoxy resin, carbon film and the like are used for anti-leakage treatment, and a cover body and a pipeline are of metal structures. However, dilute acid has strong corrosivity to pipelines of metal substances and cement structures of calcium salt, and can corrode the pipelines and form leakage, so that the inspection and maintenance workload and difficulty are increased, and the problems of gas leakage at the joint of the tank cover and the like are caused. Meanwhile, in the process of ascending of the tail gas in the desulfurization tank, the tail gas can escape from the edge of the activated carbon adsorption layer/packing layer and the tank wall, and certain influence is caused on adsorption and removal of the tail gas.

SUMMERY OF THE UTILITY MODEL

For the technical problem who solves above tail gas effusion, the utility model provides an ability is to adsorption equipment mounting structure, it has simple structure, advantage that the adsorption efficiency is high.

The technical scheme is as follows:

the utility model provides a digester adsorption equipment mounting structure which the key lies in: the tank body is a cylinder with an opening at the upper end, the tank body is vertically arranged, and the adsorption device is arranged in the tank body;

be equipped with at least two sets of annular supports on the inner wall of the jar body, all the annular supports from the top down level in proper order is fixed the inner wall of the jar body, all the internal diameter from the top down of annular support reduces in proper order, adsorption equipment is at least two, adsorption equipment is the cake form, adsorption equipment with the annular supports one-to-one, all adsorption equipment from the top down sets gradually and is corresponding on the annular supports, all adsorption equipment's radius from the top down reduces in proper order, adsorption equipment is located the correspondence directly over the annular supports, adsorption equipment's lower surface falls corresponding the upper surface that the annular supported.

The technical scheme has the remarkable effects that: through the adsorption equipment setting that reduces the radius in proper order constantly dwindles at the internal diameter that corresponds on the annular supports, ensure that gas is at the in-process that rises, can be furthest through adsorption equipment, improved adsorption effect.

The adsorption device comprises an adsorption bottom plate and adsorption modules, the adsorption bottom plate is disc-shaped, the adsorption bottom plate is horizontally arranged on the corresponding annular support, and the lower surface of the adsorption bottom plate falls on the upper surface of the corresponding annular support;

the adsorption module is located the upper surface of adsorption bottom plate, the adsorption bottom plate outward flange is still vertical to be equipped with the surrounding edge, the surrounding edge is located the adsorption bottom plate upper surface, the adsorption module is located in the surrounding edge, it has a plurality of water holes of crossing to run through on the adsorption bottom plate, all it is in to cross water hole evenly distributed on the adsorption bottom plate.

The vertical davit that is equipped with in adsorption bottom plate's upper surface center, the upper end of davit is equipped with rings, the adsorption bottom plate lower surface still be equipped with the davit lower extreme outwards disperses a plurality of stiffeners that distribute as central level, all the outer end of stiffener is located the correspondence respectively the upper surface that the annular was supported, the lower extreme of davit passes adsorption bottom plate and with all the inner fixed connection of stiffener. Technical scheme more than adopting, rings joinable hoist cable when taking out and settling the adsorption bottom plate, the operation of being convenient for alleviates the amount of labour.

The adsorption device is two, one of them is active carbon adsorption device, and another is packing adsorption device, and wherein active carbon adsorption device is located packing adsorption device top.

The jar body with the adsorption bottom plate is the plastics material.

The suspension arm and the reinforcing rod are both metal rods, and plastic anti-corrosion layers are wrapped outside the suspension arm and the reinforcing rod respectively.

The water tank is characterized in that an air inlet hole and an water outlet hole are formed in the bottom of the tank wall of the tank body in a penetrating mode, an air inlet pipe and a water outlet pipe are arranged on the outer wall of the tank body, the air inlet hole is communicated with the air inlet pipe, the water outlet hole is communicated with the water outlet pipe, an air outlet hole is formed in the upper portion of the tank wall of the tank body in a penetrating mode, an air outlet pipe is further arranged on the outer wall of the tank body, the air outlet hole is communicated with the.

The horizontal height of the air inlet pipe and the water outlet pipe is lower than that of the adsorption bottom plate, and the horizontal height of the air outlet pipe is higher than that of the adsorption device.

The horizontal height of the air inlet pipe is higher than that of the water outlet pipe.

Has the advantages that: the corrosion resistance of retort has been improved in the material, sets up the constantly reducing of internal diameter that corresponds through the adsorption equipment who reduces the radius in proper order on the annular support, ensure that gas is at the in-process that rises, can the at utmost through adsorption equipment, avoided gaseous the effusion, improved adsorption effect.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a cross-sectional view A-A of FIG. 1;

FIG. 4 is a cross-sectional view B-B of FIG. 2;

FIG. 5 is a partial enlarged view X of FIG. 4;

fig. 6 is a partially enlarged view Y of fig. 4.

Detailed Description

The present invention will be further explained with reference to the following examples and drawings.

As shown in fig. 1 to 6, a desulfurizing tank adsorption device mounting structure, including jar body 1, adsorption equipment 2, annular support 3, intake pipe 5, outlet pipe 6, outlet duct 7, absorption bottom plate 8, absorption module 9, davit 10 and stiffener 11, wherein:

the jar body 1 is upper end open-ended drum, the vertical setting of the jar body 1, adsorption equipment 2 install in the jar body 1, its characterized in that:

be equipped with at least two sets of annular supports 3 on the inner wall of jar body 1, all the annular supports 3 from the top down level in proper order and fixes the inner wall of jar body 1, all the internal diameter from the top down that the annular supported 3 reduces in proper order, adsorption equipment 2 is two at least, adsorption equipment 2 is the cake form, adsorption equipment 2 with the annular supports 3 one-to-one, all adsorption equipment 2 from the top down sets gradually and corresponds on the annular supports 3, all adsorption equipment 2's radius from the top down reduces in proper order, adsorption equipment 2 is located the correspondence directly over the annular supports 3, adsorption equipment 2's lower surface falls in the correspondence the upper surface of annular support 3.

Specifically, the method comprises the following steps:

the adsorption device 2 comprises an adsorption base plate 8 and adsorption modules 9, the adsorption base plate 8 is disc-shaped, the adsorption base plate 8 is horizontally arranged on the corresponding annular support 3, and the lower surface of the adsorption base plate 8 falls on the upper surface of the corresponding annular support 3;

adsorption module 9 is located adsorption bottom plate 8's upper surface, adsorption bottom plate 8 outward flange is the vertical surrounding edge that is equipped with still, the surrounding edge is located adsorption bottom plate 8 upper surface, adsorption module 9 is located in the surrounding edge, it has a plurality of water holes of crossing to run through on the adsorption bottom plate 8, all it is in to cross water hole evenly distributed adsorption bottom plate 8 is last.

Adsorb 8, the vertical davit 10 that is equipped with in upper surface center of bottom plate 8, the upper end of davit 10 is equipped with rings, adsorb 8 lower surfaces of bottom plate still be equipped with davit 10 lower extreme outwards disperses a plurality of stiffeners 11 that distribute as central level, all the outer end of stiffener 11 is located the correspondence respectively the annular supports 3's upper surface, the lower extreme of davit 10 passes adsorb bottom plate 8 and with all the inner fixed connection of stiffener 11.

The adsorption device 2 is two, one of which is an activated carbon adsorption device, and the other is a filler adsorption device, wherein the activated carbon adsorption device is positioned above the filler adsorption device.

The tank body 1 and the adsorption bottom plate 8 are made of plastic materials.

The suspension arm 10 and the reinforcing rod 11 are metal rods, plastic anti-corrosion layers are wrapped outside the suspension arm 10 and the reinforcing rod 11 respectively, and the metal rods are made of copper.

The bottom of the tank wall of the tank body 1 is provided with an air inlet hole and an water outlet hole in a penetrating manner, the outer wall of the tank body 1 is provided with an air inlet pipe 5 and a water outlet pipe 6, the air inlet hole is communicated with the air inlet pipe 5, the water outlet hole is communicated with the water outlet pipe 6, the upper portion of the tank wall of the tank body 1 is also provided with an air outlet hole in a penetrating manner, the outer wall of the tank body 1 is further provided with an air outlet pipe 7, the air outlet hole is communicated with the air outlet pipe 7, and the air outlet.

The horizontal heights of the air inlet pipe 5 and the water outlet pipe 6 are lower than the horizontal height of the adsorption bottom plate 8, and the horizontal height of the air outlet pipe 7 is higher than the horizontal height of the adsorption device 2.

The level of the air inlet pipe 5 is higher than that of the water outlet pipe 6.

The tank body 1 is also provided with a tank cover 12, the tank cover 12 is disc-shaped, and the tank cover 12 is horizontally buckled at an opening at the upper end of the tank body 1;

the cover 12 is hollow structure, the vertical at least one water injection pipe 13 that is equipped with of upper surface of cover 12, water injection pipe 13 with the inner chamber switch-on of cover 12, the lower surface of cover 12 is equipped with a plurality of water openings, water openings switch-on jar body 1 with the inner chamber of cover 12, all water openings evenly distributed is in the lower surface of cover 12, each water opening all is equipped with on the water opening and drenches shower nozzle 14, drench shower nozzle 14 with the inner chamber switch-on of cover 12, it is located to drench shower nozzle 14 the jar is internal, it still is equipped with the connecting pipe on the shower nozzle 14 to drench, the upper end fixed insertion of connecting pipe water opening, the lower extreme fixed insertion of connecting pipe drench shower nozzle 14, the connecting pipe with it is the plastics material to drench shower nozzle 14.

A first transition inclined plane is arranged between the upper end surface of the tank body 1 and the inner wall of the tank body 1, the annular upper edge of the first transition inclined plane is close to the outer side of the tank body 1, and the annular lower edge of the first transition inclined plane is close to the inner side of the tank body 1;

a second transition inclined plane is arranged between the outer side face of the tank cover 12 and the lower surface of the tank cover 12, the second transition inclined plane is arranged in an inclined mode, and the second transition inclined plane is attached to the first transition inclined plane.

The can lid 12 is plastic.

The plastic material is PVC.

During the use, intake pipe 5 lets in tail gas, and tail gas is when the in-process that rises passes through adsorption equipment 2, adsorption equipment 2 adsorbs the sulphur in the tail gas, then after absorption time arrives, closes intake pipe 5, makes tail gas no longer get into jar body 1, and at this moment water injection pipe 13 toward 12 inner chambers of cover water injection, utilizes the shower head 14 water spray of jar internal portion 1, reacts adsorption equipment 2 adsorbed sulphur and water, generates the diluted acid, falls jar body 1's bottom through the water hole of crossing on the adsorption bottom plate 8, and by outlet pipe 6 discharges.

Finally, it should be noted that the above description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and the scope of the present invention.

Claims (9)

1. The utility model provides a digester adsorption equipment mounting structure, includes a jar body (1) and adsorption equipment (2), jar body (1) is upper end open-ended drum, jar body (1) vertical setting, install adsorption equipment (2) in jar body (1), its characterized in that:

be equipped with at least two sets of annular supports (3) on the inner wall of the jar body (1), all the annular supports (3) from the top down level in proper order is fixed the inner wall of the jar body (1), all the internal diameter from the top down of annular support (3) reduces in proper order, adsorption equipment (2) are at least two, adsorption equipment (2) are the cake form, adsorption equipment (2) with annular support (3) one-to-one, all adsorption equipment (2) from the top down sets gradually corresponding on annular support (3), all the radius from the top down of adsorption equipment (2) reduces in proper order, adsorption equipment (2) are located the correspondence directly over annular support (3), the lower surface of adsorption equipment (2) falls on the correspondence the upper surface of annular support (3).

2. The desulfurizing tank adsorption unit mounting structure according to claim 1, characterized in that: the adsorption device (2) comprises an adsorption bottom plate (8) and adsorption modules (9), the adsorption bottom plate (8) is disc-shaped, the adsorption bottom plate (8) is horizontally arranged on the corresponding annular support (3), and the lower surface of the adsorption bottom plate (8) falls on the upper surface of the corresponding annular support (3);

adsorption module (9) are located the upper surface of adsorption bottom plate (8), adsorption bottom plate (8) outward flange is still vertical to be equipped with the surrounding edge, the surrounding edge is located adsorption bottom plate (8) upper surface, adsorption module (9) are located in the surrounding edge, it has a plurality of water holes of crossing to run through on adsorption bottom plate (8), all it is in to cross water hole evenly distributed adsorption bottom plate (8) are last.

3. The desulfurizing tank adsorption unit mounting structure according to claim 2, characterized in that: the vertical davit (10) that is equipped with in upper surface center of adsorption bottom plate (8), the upper end of davit (10) is equipped with rings, adsorption bottom plate (8) lower surface still be equipped with a plurality of stiffeners (11) that davit (10) lower extreme distributes for central level outwards disperses, all the outer end of stiffener (11) is located the correspondence respectively the upper surface of annular support (3), the lower extreme of davit (10) passes adsorption bottom plate (8) and with all the inner fixed connection of stiffener (11).

4. The desulfurizing tank adsorption device mounting structure according to claim 2 or 3, characterized in that: the adsorption device (2) is two, one of the adsorption device is an activated carbon adsorption device, the other adsorption device is a filler adsorption device, and the activated carbon adsorption device is positioned above the filler adsorption device.

5. The desulfurizing tank adsorption unit mounting structure according to claim 2, characterized in that: the tank body (1) and the adsorption bottom plate (8) are made of plastic materials.

6. The desulfurizing tank adsorption unit mounting structure according to claim 3, characterized in that: the suspension arm (10) and the reinforcing rod (11) are both metal rods, and plastic anticorrosive layers are wrapped outside the suspension arm (10) and the reinforcing rod (11) respectively.

7. The desulfurizing tank adsorption unit mounting structure according to claim 6, wherein: the utility model discloses a jar, including jar body (1), jar wall bottom of the body run through and be equipped with inlet port and apopore, be equipped with intake pipe (5) and outlet pipe (6) on the outer wall of the jar body (1), the inlet port with intake pipe (5) switch-on, the apopore with outlet pipe (6) switch-on, the jar wall upper portion of the body (1) has still run through the venthole, still be equipped with outlet duct (7) on the outer wall of the jar body (1), the venthole with outlet duct (7) switch-on, outlet duct (7) are located directly over outlet pipe (6).

8. The desulfurizing tank adsorption unit mounting structure according to claim 7, wherein: the horizontal heights of the air inlet pipe (5) and the water outlet pipe (6) are lower than the horizontal height of the adsorption bottom plate (8), and the horizontal height of the air outlet pipe (7) is higher than the horizontal height of the adsorption device (2).

9. The desulfurizing tank adsorption unit mounting structure according to claim 8, wherein: the horizontal height of the air inlet pipe (5) is higher than that of the water outlet pipe (6).

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