CN108211746A

CN108211746A - Industrially desulfurized system based on ultrasonic atomization technique

Info

Publication number: CN108211746A
Application number: CN201810240585.2A
Authority: CN
Inventors: 郭光玉; 樊孝凯; 金勇�; 金声涛; 唐才褔; 李志斌
Original assignee: Tak Nine Days (hubei) Environmental Technology Group Ltd
Current assignee: Tak Nine Days (hubei) Environmental Technology Group Ltd
Priority date: 2018-03-22
Filing date: 2018-03-22
Publication date: 2018-06-29

Abstract

The present invention provides a kind of industrially desulfurized system based on ultrasonic atomization technique, delivery pipe including desulfurizing tower and to desulfurizing tower conveying flue gas, supersonic atomizer is connected with by the first threeway in delivery pipe, supersonic atomizer includes the cylindric shell wall of closing, in shell wall be horizontally disposed with there are one or multiple atomization platforms, being horizontally disposed in shell wall has annular boss, atomization platform is fixedly mounted on the boss, and it is also associated with fixed plate between two atomization platforms, it is atomized platform and includes bottom plate and the side wall being tightly connected with bottom plate, arranged distribution has several ultrasonic ultrasonic delay line memories on bottom plate, the feed pipe for stretching out shell wall is respectively connected on the bottom plate of each atomization platform, the top of shell wall has conical cavity, and the top connection fog output tube of conical cavity.The present invention is improved by the way that lye to be atomized into the absorption efficiency of the mode sulfur dioxide of droplet, and absorbs the sulfur dioxide with aliquot, and the lye of technical solution consumption using the present invention is minimum.

Description

Industrially desulfurized system based on ultrasonic atomization technique

Technical field

The present invention relates to atomization desulphurization plant technical fields more particularly to a kind of industry based on ultrasonic atomization technique to take off Sulphur system.

Background technology

In the industrial production, it needs to purify the sulfur dioxide, the hydrogen chloride that generate in technique, to reduce various tail gas Pollution to air.

In the prior art, sulfur dioxide hydrogen chloride, processing there are many mode, but the absorption of sulfur dioxide hydrogen chloride is imitated Rate is not high.

Invention content

The deficiency that the purpose of the present invention is be directed in above-mentioned background technology provides a kind of work based on ultrasonic atomization technique Industry desulphurization system, with solve in the prior art sulfur dioxide, hydrogen chloride absorption efficiency is low the technical issues of.

To achieve the above object, present invention employs following technical solutions：

Industrially desulfurized system based on ultrasonic atomization technique, the conveying including desulfurizing tower and to desulfurizing tower conveying flue gas It manages, supersonic atomizer is connected with by the first threeway in the delivery pipe；

The supersonic atomizer includes the cylindric shell wall of closing, be horizontally disposed in the shell wall there are one or it is multiple Platform is atomized, being horizontally disposed in the shell wall has annular boss, and the atomization platform is fixedly mounted on the boss, and two Fixed plate is also associated between atomization platform, the atomization platform includes bottom plate and the side wall being tightly connected with bottom plate, the bottom Arranged distribution has several ultrasonic ultrasonic delay line memories on plate, is respectively connected on the bottom plate of each atomization platform and stretches out the shell wall Feed pipe, the feed pipe of two stretchings are converged by the second threeway and connect metering pump, and the top of the shell wall has taper sky Chamber, and the top connection fog output tube of conical cavity, the fog output tube connect with first threeway, the import of the metering pump and Alkali storage case connects.

Compared with the prior art, the present invention has the advantages that：

Industrially desulfurized system of the work provided by the invention based on ultrasonic atomization technique, employs negative-pressure adsorption principle, profit With suction-operated of the flue gas in conveyance conduit in transmission process, supersonic atomizer is connected using threeway, so as to by super The lye of atomization is transported in flue gas by sound wave atomising device orientation, fully mixes suction with sulfur dioxide, the hydrogen chloride in flue gas Receive, improve whole system in flue gas sulfur dioxide, the absorption efficiency of hydrogen chloride；

And the supersonic atomizer in the present invention uses the atomization platform of layered arrangement and on atomization platform Several ultrasonic ultrasonic delay line memories of arranged distribution realize that the lye that will be atomized on platform carries out ultrasonic atomizatio, and by the top of shell wall Fog output tube, the spray film of generation orientation is transported in environment to be clean, so as to which the sulfur dioxide in flue gas be absorbed, By the way that lye to be atomized into the mode sulfur dioxide of droplet, the absorption efficiency of hydrogen chloride improves, and absorb same decile Sulfur dioxide, the hydrogen chloride of amount, the lye consumed using the supersonic atomizer in the present invention are minimum.

Description of the drawings

Fig. 1 is the system structure diagram of the present invention；

Fig. 2 is the structure diagram of supersonic atomizer in the present invention；

Fig. 3 is A portions enlarged drawing in Fig. 1；

Fig. 4 is the structure diagram of ultrasonic ultrasonic delay line memory of the prior art that the present invention uses；

Fig. 5 is the structure diagram of supersonic atomizer that the preferred embodiment of the present invention uses；

Fig. 6 is the structure diagram of the first threeway that the preferred embodiment of the present invention uses.

Specific embodiment

The technical solution in the present invention is further illustrated with reference to the accompanying drawings and embodiments.

As shown in Figure 1-Figure 3, as a preferred embodiment of the present invention, the present invention proposes a kind of based on ultrasonic fog The industrially desulfurized system of change technology conveys the delivery pipe 80 of flue gas, the delivery pipe 80 including desulfurizing tower 90 and to desulfurizing tower 90 Upper to be connected with supersonic atomizer 10 by the first threeway 70, the supersonic atomizer 10 includes the cylindrical shell of closing Wall 19 is horizontally disposed in the shell wall 19 there are two atomization platform 11, and being horizontally disposed in the shell wall 19 has annular boss 12, institute Atomization platform 11 is stated to be fixedly mounted on the boss 12, and fixed plate 13 is also associated between two atomization platforms 11, it is described It is atomized platform 11 and includes bottom plate 111 and the side wall 112 being tightly connected with bottom plate, arranged distribution has several on the bottom plate 111 Ultrasonic ultrasonic delay line memory 113, such as Fig. 4, ultrasonic ultrasonic delay line memory uses ten ultrasonic ultrasonic delay line memories of JUWU-5 types purchased in market, each mist Change and the feed pipe 114 for stretching out the shell wall 19 is respectively connected on the bottom plate 111 of platform 11, the feed pipe 114 of two stretchings passes through Second threeway 115 converges and connects metering pump 60, and the top of the shell wall 19 has conical cavity 14, and the top of conical cavity 14 Portion connects fog output tube 15, and the fog output tube 15 is connect with first threeway 70, the import of the metering pump 60 and alkali storage Case 50 connects, and the lowermost end of the shell wall 19 is provided with evacuated tube 16, and valve 17 is equipped in the evacuated tube 16.

In said program, two layers of atomization platform 11 is specially provided in shell wall 19, and on each atomization platform 11 Multiple ultrasonic ultrasonic delay line memories 113 are set, since the atomization platform 11 in the present invention includes bottom plate 111 and side wall 112, and each The feed pipe 114 for stretching out the shell wall 19 is connected on bottom plate 111, so when in use, lye is conveyed by feed pipe 114 After on to atomization platform, lye floods ultrasonic ultrasonic delay line memory 113, turns lye after working so as to ultrasonic ultrasonic delay line memory 113 Change alkaline fog into, and the fog output tube 15 from 19 top of shell wall is discharged, and can be further by tuber drainage to needing absorption two The place of sulfur oxide fully absorbs so as to fulfill to sulfur dioxide, hydrogen chloride, it makes use of acid-base neutralization principle of absorption, and Using the atomizing of ultrasonic ultrasonic delay line memory, by improving the internal structure of entire atomising device, the continuous atomization of lye is realized, And realize atomization and absorb the function of separating, it ensure that the continuity of atomization and the continuity absorbed, industrially have preferable Adaptability and application prospect.

As preference, the bottom of each atomization platform 11 is mounted on several ultrasonic oscillators 18, set The purpose of ultrasonic oscillator 18 is that the alkaline fog for preventing ultrasonic ultrasonic delay line memory 113 from generating crystallizes on atomization platform, leads to mist Change the decline of efficiency, so as to which in atomization mesa base setting ultrasonic oscillator 18, the fog that can reduce generation in this way is being atomized Device internal crystallization improves the utilization rate of alkaline fog to being atomized.

As preference, such as Fig. 5, negative pressure blowning installation 20 is additionally provided between described two atomization platforms 11, it is described negative Blowning installation 20 is pressed to include the gas blow pipe 21 for stretching out shell wall 19, the one end of the gas blow pipe 21 outside the shell wall 19 is connected with list To valve 22, the gas blow pipe 21 is located at one end in shell wall and is bent straight down and in end at the center of the atomization platform Connect nozzle 23.The present embodiment setting negative pressure blowning installation 20 is the negative-pressure adsorption in order to be generated in transmission process using fog Portion of air enters supersonic atomizer 10, and forms downward disturbance to the air-flow of upper strata atomization mesa base, utilizes With the pressure difference of air in fog conveyer system, acted on by this flow-disturbing of air so that the flue gas of fog and volume to be absorbed is more Add sufficient mixing, be also possible to prevent fog and crystallized in long be once atomized on platform, using the flow direction of check valve control air, prevented Flue gas flows into air and causes environmental pollution, and the example structure is ingenious, and using effect is very prominent.

As preference, such as Fig. 6, there is inner opening to be respectively facing the taper that both ends become larger for first threeway 70 Inner cavity 71, the both ends respectively constitute the first connector 72 and the second connector 73 of the first threeway 70, and connect fog output tube 15 Third connector 74 be connected to the position of the conical cavity internal diameter minimum.According to hydrodynamics bernoulli principle, for nothing Compression fluid, in same delivery pipe, section is smaller, and fluid flow rate is bigger, and the more big then Fluid pressure at this of fluid flow rate is most Small, the first threeway in the present invention is ingenious to be utilized bernoulli principle, since the third connector of connection fog output tube is connected to The position of the conical cavity internal diameter minimum, therefore the Fluid pressure at this is minimum, so that with going out mist inside the first threeway Great pressure differential is generated in pipe, i.e., the pressure in fog output tube is much larger than the pressure inside the first threeway, so that fog output tube In alkaline fog into smoke conveying duct directed flow, so as to reach siphon effect, so not only so that the confession of fog To uniformly continuous, and without other power-equipments, save equipment cost and production cost.

Finally illustrate, the above embodiments are merely illustrative of the technical solutions of the present invention and it is unrestricted, although with reference to compared with The present invention is described in detail in good embodiment, it will be understood by those of ordinary skill in the art that, it can be to the skill of the present invention Art scheme is modified or replaced equivalently, and without departing from the objective and range of technical solution of the present invention, should all be covered at this In the right of invention.

Claims

1. the industrially desulfurized system based on ultrasonic atomization technique, it is characterised in that：Cigarette is conveyed including desulfurizing tower and to desulfurizing tower The delivery pipe of gas is connected with ultrasonic continuous atomization system, the ultrasonic continuous mist in the delivery pipe by the first threeway Change system includes supersonic atomizer；

The supersonic atomizer includes the cylindric shell wall of closing, be horizontally disposed in the shell wall there are one or multiple atomizations Platform, being horizontally disposed in the shell wall has annular boss, and the atomization platform is fixedly mounted on the boss, and two atomizations It is also associated with fixed plate between platform, the atomization platform includes bottom plate and the side wall being tightly connected with bottom plate, on the bottom plate Arranged distribution has several ultrasonic ultrasonic delay line memories, and the charging for stretching out the shell wall is respectively connected on the bottom plate of each atomization platform Pipe, the feed pipe of two stretchings are converged by the second threeway and connect metering pump, and the top of the shell wall has conical cavity, and The top connection fog output tube of conical cavity, the fog output tube are connect with first threeway, the import of the metering pump and lye Storage bin connects.

2. the industrially desulfurized system according to claim 1 based on ultrasonic atomization technique, it is characterised in that：The shell The lowermost end of wall is provided with evacuated tube, and valve is equipped in the evacuated tube.

3. the industrially desulfurized system according to claim 1 based on ultrasonic atomization technique, it is characterised in that：Each institute The bottom for stating atomization platform is mounted on several ultrasonic oscillators.

4. the industrially desulfurized system based on ultrasonic atomization technique according to claim 1 or 3, it is characterised in that：Two Negative pressure blowning installation is additionally provided between atomization platform, the negative pressure blowning installation includes the gas blow pipe for stretching out shell wall, described to blow The one end of tracheae outside the shell wall is connected with check valve, and the gas blow pipe is located at one end in shell wall in the atomization platform It is bent straight down at center and connects nozzle in end.

5. the industrially desulfurized system according to claim 1 based on ultrasonic atomization technique, it is characterised in that：Described first There is inner opening to be respectively facing the conical internal cavity that both ends become larger for threeway, and the both ends respectively constitute the first of the first threeway Connector and the second connector, and the third connector for connecting fog output tube is connected to the position of the conical cavity internal diameter minimum.