CN204944763U - Anticorrosion and the leak detection structure in thermal-insulating type absorption tower - Google Patents

Abstract

The utility model discloses the anticorrosion and leak detection structure in a kind of thermal-insulating type absorption tower, comprise tower body, tower body upper end is provided with exhaust pass, is provided with gas approach in the middle part of tower body, is provided with heat insulation protecting layer outside tower body; Be provided with girder and secondary beam in tower body, the end of girder passes the sidewall of tower body and connected drainage pipe d, and secondary beam connects with the inwall of tower body and be connected with discharging tube e on corresponding tower body inwall; Two-layer reinforcing annular muscle is provided with outside tower body; Described reinforcing annular muscle is respectively equipped with ground floor sump pit and second layer sump pit; The flue top board of gas approach is provided with the manger board of oblique placement, the cross section triangle at a right angle that manger board and flue top board and tower body sidewall surround, the sidewall of the tower body of correspondence is provided with discharging tube c.The beneficial effects of the utility model are: originally anticorrosion and leak detection technology only needs to use a small amount of pipeline and elbow to be material, and carry out installation by perforate and welding and fix, technical scheme implements simple possible.

Description

Anticorrosion and the leak detection structure in thermal-insulating type absorption tower

Technical field

The utility model relates to detection architecture, and more specifically, it relates to the anticorrosion and leak detection structure in a kind of thermal-insulating type absorption tower.

Background technology

Wet Flue Gas Desulfurization Technique is widely used in the flue gas desulfurization field of the industry such as thermal power generation, manufacture of cement, and the nucleus equipment of this technology is desulfuration absorbing tower.Absorption tower body and inner box beam many employings carbon steel are base material, and surface adopts painting squama or line with rubber mode to carry out anticorrosion, is therefore very easily subject to H in wet flue gas when surface anticorrosion layer is impaired ₂sO ₃, H ₂sO ₄, HNO ₃and Cl in slurries ^-deng the corrosion of acidic materials, thus cause corrosion and the breakage of tower wall and girder steel.When tower wall exposed in outside time, mending-leakage can be carried out by finding the observation of tower wall surface the position of seepage, but cannot breakthrough be observed directly after absorption tower surface coverage has insulation material, the further expansion that absorption tower is corroded can be caused.When box beam generation seepage, directly cannot observe from than outside, as corrosion condition seriously will cause the damage of tower inner structural member, the overall operation of influential system, therefore needs detection means and takes precautions against this.

Prior art does not generally consider the situation of thermal-insulating type absorption tower seepage, but tower wall will soon be corroded and seepage when anticorrosive coat in tower is damaged, need the hole of tower wall erosion by the time larger, slurries and flue gas are spilt in a large number by heat-insulation layer and to be just found afterwards, be difficult to accurately locate simultaneously, need a large amount of absorption towers insulation of body to remove.Meanwhile, in absorption tower, box beam also has corrosion and the possibility of seepage occurs, and is corroded that tower inner structural member may be caused to suffer is badly damaged if fail Timeliness coverage box beam.

Utility model content

The purpose of this utility model overcomes deficiency of the prior art, provides a kind of rational in infrastructure, the anticorrosion and leak detection structure in safe and reliable thermal-insulating type absorption tower.

Anticorrosion and the leak detection structure in this thermal-insulating type absorption tower, comprise tower body, tower body upper end is provided with exhaust pass, is provided with gas approach in the middle part of tower body, is provided with heat insulation protecting layer outside tower body; Be provided with girder and secondary beam in tower body, the end of girder passes the sidewall of tower body and connected drainage pipe d, and secondary beam connects with the inwall of tower body and be connected with discharging tube e on corresponding tower body inwall; Two-layer reinforcing annular muscle is provided with outside tower body; Described reinforcing annular muscle is respectively equipped with ground floor sump pit and second layer sump pit, described ground floor sump pit is connected with uniform discharging tube a1, discharging tube a2, discharging tube a3 and discharging tube a4, and described second layer sump pit is connected with uniform discharging tube b1, discharging tube b2, discharging tube b3 and discharging tube b4; The flue top board of gas approach is provided with the manger board of oblique placement, the cross section triangle at a right angle that manger board and flue top board and tower body sidewall surround, the sidewall of the tower body of correspondence is provided with discharging tube c.

As preferably: the angle of discharging tube a1 and discharging tube b1 is 45 °.

As preferably: the angle of discharging tube a1 and discharging tube c is 10 °.

As preferably: described discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4, discharging tube b1, discharging tube b2, discharging tube b3, discharging tube b4 and discharging tube c are all connected to slurries ditch.

As preferably: described discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4 are parallel with the tower wall of tower body, and with ground floor sump pit junction be equipped with two 90 ° curved; Discharging tube b1, discharging tube b2, discharging tube b3 are parallel with the tower wall of tower body with discharging tube b4, and with second layer sump pit junction be equipped with two 90 ° curved.

The beneficial effects of the utility model are:

1, structure is simple, and cost is low

Originally anticorrosion and leak detection technology only needs to use a small amount of pipeline and elbow to be material, and carry out installation by perforate and welding and fix, technical scheme implements simple possible.

2, quick position breakthrough, stops corrosion to worsen

The seepage of absorbing tower wall and inner box beam can be found by this technology fast, and effectively locate.When tower wall generation seepage, slurries will flow out from tower wall, and flow in reinforcing annular muscle groove, and in groove, slurries can from the mouth of pipe nearby as a or b or c flows out.From the flow export of slurries, we can determine that leaky portion is positioned at this mouth of pipe upper area, position, the Position location accuracy of leak location can be increased by the slurry flow port increasing reinforcing annular muscle and every layer further, after finding breakthrough fast, overhaul the further deterioration that can prevent corrosion condition timely.In like manner, the drainage tube be loaded in tower in box beam can show box beam and whether there occurs seepage, and flowing in box beam when box beam seepage rear slurry and flow out from draining hole, the very first time reminds maintainer to process seepage.

Accompanying drawing explanation

Fig. 1 is the utility model one-piece construction schematic diagram;

Fig. 2 is Fig. 1 discharging tube b1 and second layer sump pit 6 junction partial enlarged drawing;

Fig. 3 is gas approach place, Fig. 1 absorption tower partial enlarged drawing;

Fig. 4 is discharging tube distribution schematic diagram;

Fig. 5 is girder and secondary beam distribution schematic diagram;

Fig. 6 is the A-A cut-open view of Fig. 5;

Fig. 7 is the B-B cut-open view of Fig. 5;

Description of reference numerals: tower body 1, gas approach 2, heat insulation protecting layer 3, rinforcement bar 4, ground floor sump pit 5, second layer sump pit 6, flue top board 7, manger board 8, girder 9, secondary beam 10, exhaust pass 11, discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4, discharging tube b1, discharging tube b2, discharging tube b3, discharging tube b4, discharging tube c, discharging tube d, discharging tube e.

Embodiment

Below in conjunction with embodiment, the utility model is described further.The explanation of following embodiment just understands the utility model for helping.Should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model principle, can also carry out some improvement and modification to the utility model, these improve and modify and also fall in the protection domain of the utility model claim.

As shown in Figures 1 to 7.Anticorrosion and the leak detection structure in this thermal-insulating type absorption tower of the present utility model, comprise tower body 1, tower body 1 upper end is provided with exhaust pass 11, is provided with gas approach 2 in the middle part of tower body 1, is provided with heat insulation protecting layer 3 outside tower body 1; Be provided with girder 9 and secondary beam 10 in tower body 1, the end of girder 9 passes the sidewall of tower body 1 and connected drainage pipe d, and secondary beam 10 connects with the inwall of tower body 1 and be connected with discharging tube e on corresponding tower body 1 inwall; Two-layer reinforcing annular muscle 4 is provided with outside tower body 1; Described reinforcing annular muscle 4 is respectively equipped with ground floor sump pit 5 and second layer sump pit 6, described ground floor sump pit 5 is connected with uniform discharging tube a1, discharging tube a2, discharging tube a3 and discharging tube a4, and described second layer sump pit 6 is connected with uniform discharging tube b1, discharging tube b2, discharging tube b3 and discharging tube b4; The flue top board 7 of gas approach 2 is provided with the manger board 8 of oblique placement, the cross section triangle at a right angle that manger board 8 and flue top board 7 and tower body 1 sidewall surround, the sidewall of the tower body 1 of correspondence is provided with discharging tube c.Described discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4 are parallel with the tower wall of tower body 1, and with ground floor sump pit 5 junction be equipped with two 90 ° curved; Discharging tube b1, discharging tube b2, discharging tube b3 are parallel with the tower wall of tower body 1 with discharging tube b4, and with second layer sump pit 6 junction be equipped with two 90 ° curved.The angle of discharging tube a1 and discharging tube b1 is 45 °.The angle of discharging tube a1 and discharging tube c is that 10 ° of described discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4, discharging tube b1, discharging tube b2, discharging tube b3, discharging tube b4 and discharging tube c are all connected to slurries ditch.

Discharging tube a1, discharging tube a2, discharging tube a3 and discharging tube a4: often cover is containing 2,90 ° of DN20 elbows, DN20 straight tube 10m, totally 4 covers; Discharging tube b1, discharging tube b2, discharging tube b3 and discharging tube b4: often cover is containing 2,90 ° of DN20 elbows, DN20 straight tube 25m, totally 4 covers; Discharging tube c: often cover is containing 1,90 ° of DN20 elbows, DN20 straight tube 2m, totally 1 cover; Discharging tube d: often cover is containing 2,90 ° of DN20 elbows, DN20 straight tube 20m, totally 4 covers; Discharging tube e: often cover is containing 1,90 ° of DN20 elbows, DN20 straight tube 20m, totally 4 covers.

Material employing 316L or more high-grade alloy steel.

1) when tower wall or the box beam generation seepage of absorption tower tower body 1, reinforcing annular muscle 4 and box beam inside produce hydrops, rinforcement bar 4 and box beam install additional discharging tube and can find seepage place fast, locate in time and overhaul, prevent from corroding further expansion, avoid corrosion condition to worsen and desulphurization system operation is had an impact.

2) absorption tower reinforcing annular muscle 4 upper surface adopts full weld, and effusion and outside acid solution all derive from discharging tube, not along tower wall sagging, avoid upper strata effusion and external acid corrosion lower floor Ta Bi.

3) this technology is also applicable to the case tank of other storage slurries of wet desulphurization and the interior anticorrosion carbon steel case tank of other types storage corrosive liquid.

4) reinforcing annular muscle 4 the number of plies can according to concrete engineering need determine.

Claims (5)

1. the anticorrosion and leak detection structure in a thermal-insulating type absorption tower, it is characterized in that: comprise tower body (1), tower body (1) upper end is provided with exhaust pass (11), tower body (1) middle part is provided with gas approach (2), and tower body (1) outside is provided with heat insulation protecting layer (3); Girder (9) and secondary beam (10) is provided with in tower body (1), the end of girder (9) passes the sidewall of tower body (1) and connected drainage pipe d, and secondary beam (10) connects with the inwall of tower body (1) and be connected with discharging tube e on corresponding tower body (1) inwall; Tower body (1) outside is provided with two-layer reinforcing annular muscle (4); Described reinforcing annular muscle (4) is respectively equipped with ground floor sump pit (5) and second layer sump pit (6), described ground floor sump pit (5) is connected with uniform discharging tube a1, discharging tube a2, discharging tube a3 and discharging tube a4, and described second layer sump pit (6) is connected with uniform discharging tube b1, discharging tube b2, discharging tube b3 and discharging tube b4; The flue top board (7) of gas approach (2) is provided with the manger board (8) of oblique placement, the cross section triangle at a right angle that manger board (8) and flue top board (7) and tower body (1) sidewall surround, the sidewall of the tower body (1) of correspondence is provided with discharging tube c.

2. the anticorrosion and leak detection structure in thermal-insulating type absorption tower according to claim 1, is characterized in that: the angle of discharging tube a1 and discharging tube b1 is 45 °.

3. the anticorrosion and leak detection structure in thermal-insulating type absorption tower according to claim 1, is characterized in that: the angle of discharging tube a1 and discharging tube c is 10 °.

4. the anticorrosion and leak detection structure in thermal-insulating type absorption tower according to claim 1, is characterized in that: described discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4, discharging tube b1, discharging tube b2, discharging tube b3, discharging tube b4 and discharging tube c are all connected to slurries ditch.

5. the anticorrosion and leak detection structure in thermal-insulating type absorption tower according to claim 1, it is characterized in that: described discharging tube a1, discharging tube a2, discharging tube a3, discharging tube a4 are parallel with the tower wall of tower body (1), and with ground floor sump pit (5) junction be equipped with two 90 ° curved; Discharging tube b1, discharging tube b2, discharging tube b3 are parallel with the tower wall of tower body (1) with discharging tube b4, and with second layer sump pit (6) junction be equipped with two 90 ° curved.