Liquid chlorine gasifier and vaporization process applying same

文档序号:1873312 发布日期:2021-11-23 浏览:25次 中文

阅读说明:本技术 一种液氯气化器及应用该液氯气化器的汽化工艺 (Liquid chlorine gasifier and vaporization process applying same ) 是由 田丰 顾冠中 刘建平 于 2021-08-25 设计创作,主要内容包括:本申请涉及一种液氯气化器及应用该液氯气化器的汽化工艺,涉及液体汽化的领域,其包括一段气化器和二段气化器,所述一段气化器和二段气化器内设有同一个汽化管道,所述汽化管道依次穿过一段气化器和二段气化器,所述二段气化器上设有加热装置。本申请具有在保证汽化效果的同时降低了能源损耗,实现了节能环保的效果。(The application relates to a liquid chlorine gasifier and a vaporization process using the same, and relates to the field of liquid vaporization, which comprises a first section gasifier and a second section gasifier, wherein the same vaporization pipeline is arranged in the first section gasifier and the second section gasifier, the vaporization pipeline sequentially passes through the first section gasifier and the second section gasifier, and a heating device is arranged on the second section gasifier. The gasification device has the advantages that the energy consumption is reduced while the gasification effect is ensured, and the effects of energy conservation and environmental protection are realized.)

1. A liquid chlorine gasifier, characterized in that: the gasification device comprises a first section gasifier (1) and a second section gasifier (2), wherein the same gasification pipeline (11) is arranged in the first section gasifier (1) and the second section gasifier (2), the gasification pipeline (11) sequentially penetrates through the first section gasifier (1) and the second section gasifier (2), and a heating device is arranged on the second section gasifier (2).

2. A liquid chlorine gasifier as claimed in claim 1, characterized in that: the lateral wall of one section vaporizer (1) is gone up the intercommunication and is had outlet pipe (21), the one end intercommunication that one section vaporizer (1) was kept away from in outlet pipe (21) has condensing passage (22), condensing passage (22) are gone up the intercommunication and are had wet return (23), wet return (23) are kept away from condensing passage (22) one end and one section vaporizer (1) intercommunication.

3. A liquid chlorine gasifier as claimed in claim 1, characterized in that: be equipped with mixing assembly (25) on two-stage vaporizer (2), mixing assembly (25) include mixing tube (251) and locate mixing pump (252) on mixing tube (251), the both ends of mixing tube (251) all communicate with two-stage vaporizer (2).

4. A liquid chlorine gasifier as claimed in claim 1, characterized in that: all be equipped with moisturizing pipe (13) on one section vaporizer (1) and two-stage gasification ware (2), be equipped with control valve (131) on moisturizing pipe (13), all be equipped with level gauge (12) on one section vaporizer (1) and two-stage gasification ware (2), level gauge (12) are connected with control valve (131) electricity that correspond.

5. A liquid chlorine gasifier as claimed in claim 1, characterized in that: be equipped with between one section vaporizer (1) and the two-stage process vaporizer (2) heat preservation sleeve (3), the one end and the one section vaporizer (1) of heat preservation sleeve (3) are connected, and the other end is connected with two-stage process vaporizer (2), be equipped with the vacuum region in heat preservation sleeve (3), the vacuum region is located between one section vaporizer (1) and the two-stage process vaporizer (2).

6. A liquefied chlorine gas vaporizer as defined in claim 5, wherein: the side walls of the first-stage gasifier (1) and the second-stage gasifier (2) are respectively provided with a connecting ring (14), one end of the heat-insulating sleeve (3) is abutted against one connecting ring (14), the other end of the heat-insulating sleeve is abutted against the other connecting ring (14), and the heat-insulating sleeve (3) is connected with the connecting rings (14) through bolts.

7. A liquefied chlorine gas vaporizer as defined in claim 6, wherein: the both ends of heat preservation sleeve (3) all are equipped with the sealing ring, be equipped with on go-between (14) and supply sealing ring male seal groove (141), sealing ring and seal groove (141) looks adaptation, be equipped with sealing washer (142) between seal groove (141) and the sealing ring, the cross-section of sealing washer (142) is circular, sealing washer (142) are located the juncture of the lateral wall and the diapire of seal groove (141).

8. A liquefied chlorine gas vaporizer as defined in claim 7, wherein: the vacuum tube (32) is arranged on the side wall of the heat-insulating sleeve (3), the suction fan (34) is arranged in the vacuum tube (32), and the driving device (33) used for driving the suction fan (34) to rotate is arranged in the heat-insulating sleeve (3).

9. A liquid chlorine gasifier as claimed in claim 8, characterized in that: the driving device (33) comprises a gear (331) and a rack (332) which are meshed with each other, the gear (331) is rotatably connected with the heat insulation sleeve (3) through a rotating rod (333), the rack (332) is arranged on the side wall of the two-section gasifier (2) along the axial direction of the heat insulation sleeve (3), the air suction fan (34) comprises a rotating shaft (341) and air suction blades (343) arranged on the side wall of the rotating shaft (341), the rotating shaft (341) is rotatably connected with the vacuum suction pipe (32), and the rotating rod (333) and the rotating shaft (341) realize transmission through a bevel gear (331).

10. A liquid chlorine vaporization process according to claim 2, characterized in that: the method comprises the following steps:

a preheating step, namely introducing liquid chlorine into a vaporization pipeline (11), wherein the liquid chlorine exchanges heat with water in a first section of gasifier (1) in the vaporization pipeline (11), the liquid chlorine flows out of the first section of gasifier (1) along the vaporization pipeline (11) after heat exchange, and the temperature of the water in the first section of gasifier (1) after heat exchange is 3-10 ℃;

a water return step, wherein water in the first-stage gasifier (1) is guided into a condensation channel (22) by a water outlet pipe (21) to be used for condensation in a workshop, and after the water is used in the workshop, the temperature of the water returns to 13-22 ℃ and is guided back to the first-stage gasifier (1) by a water return pipe (23);

and a gasification step, wherein a heating device heats water in the secondary gasifier (2) to ensure that the water temperature in the secondary gasifier (2) is maintained at 82 +/-7 ℃, liquid chlorine flows into the secondary gasifier (2) along a vaporization pipeline (11) to exchange heat with the water in the secondary gasifier (2) and realize vaporization, and the vaporized liquid chlorine flows out of the secondary gasifier (2) along the vaporization pipeline (11).

Technical Field

The application relates to the field of liquid vaporization, in particular to a liquid chlorine vaporizer and a vaporization process using the same.

Background

The gasification of liquefied gas is a widely used liquefied gas production process, mainly including liquefied chlorine, liquid ammonia, etc.

Generally adopt coil pipe water bath vaporizer to carry out to liquid chlorine among the correlation technique and gasify, but this mode is when using because the volume in the vaporizer is too big, and the heating device of vaporizer is generally in the upper strata of vaporizer for the temperature difference in temperature is great between the upper strata and the lower floor of vaporizer, makes heating device can consume more energy, causes the energy waste.

Disclosure of Invention

In order to solve the problem that the energy waste of a heating device of a gasifier is large, the application provides a liquid chlorine gasifier and a vaporization process using the liquid chlorine gasifier.

In a first aspect, the present application provides a liquid chlorine gasifier, which adopts the following technical scheme:

the utility model provides a liquid chlorine vaporizer, includes one section vaporizer and two-stage process vaporizer, be equipped with same vaporization pipeline in one section vaporizer and the two-stage process vaporizer, the vaporization pipeline passes one section vaporizer and two-stage process vaporizer in proper order, be equipped with heating device on the two-stage process vaporizer.

Through adopting above-mentioned technical scheme, the liquid chlorine in one section vaporizer preheats the vaporization pipeline, and heating device heats the water in the two-stage process vaporizer for the temperature of water in the two-stage process vaporizer can make the liquid chlorine vaporization, and the liquid chlorine carries out the two-stage process vaporizer along the vaporization pipeline afterwards, carries out the heat transfer with the water in the two-stage process vaporizer, and accomplishes the vaporization. After the gasifier divide into one section gasifier and two-stage process gasifier, heating device only need heat the water in the two-stage process gasifier, can the energy can be saved, and calorific loss also can be little simultaneously, and one section gasifier then can preheat liquid chlorine to guarantee the vaporization effect, reduced energy loss when guaranteeing the vaporization effect, realized energy-concerving and environment-protective.

Optionally, the lateral wall of one section of vaporizer is communicated with a water outlet pipe, the end of the water outlet pipe, which is far away from one section of vaporizer, is communicated with a condensation channel, the condensation channel is communicated with a water return pipe, and the end of the water return pipe, which is far away from the condensation channel, is communicated with one section of vaporizer.

Through adopting above-mentioned technical scheme, behind water and the heat transfer of liquid chlorine in the one section vaporizer, it is leading-in to condensation duct with water through the outlet pipe, be used for the workshop condensation, the temperature risees once more after the workshop condensation is used, lead back one section vaporizer with water through the wet return at this moment, be used for once more with the heat transfer of liquid chlorine, carry out the comprehensive utilization to the cold volume of the water in one section vaporizer, reduce the waste of the energy, separately set up with one section vaporizer and two-stage process vaporizer simultaneously and cooperate, energy-concerving and environment-protective has further been realized.

Optionally, be equipped with mixing assembly on the two-stage gasification ware, mixing assembly includes the hybrid tube and locates the mixing pump on the hybrid tube, the both ends of hybrid tube all communicate with the two-stage gasification ware.

By adopting the technical scheme, the mixing pump pumps water at one position of the second-stage gasifier to the other position of the second-stage gasifier through the mixing pipe, so that the water in the second-stage gasifier is mixed conveniently, and the temperature difference of the water in the second-stage gasifier is reduced.

Optionally, all be equipped with the moisturizing pipe on one section vaporizer and the two-stage process vaporizer, be equipped with the control valve on the moisturizing pipe, all be equipped with the level gauge on one section vaporizer and the two-stage process vaporizer, the level gauge is connected with the control valve electricity that corresponds.

Through adopting above-mentioned technical scheme, the level gauge monitors the water level in one section vaporizer or the two-stage process vaporizer, if the water level is less than the liquid level value then the signal that generates electricity for the control valve is opened, gives one section vaporizer or two-stage process vaporizer moisturizing, reduces because of the water level crosses the possibility that influences the material heat transfer effect excessively.

Optionally, be equipped with the heat preservation sleeve between one section vaporizer and the second section vaporizer, the one end and the one section vaporizer of heat preservation sleeve are connected, and the other end is connected with the second section vaporizer, be equipped with the vacuum region in the heat preservation sleeve, the vacuum region is located between one section vaporizer and the second section vaporizer.

By adopting the technical scheme, the heat-insulating sleeve is convenient for forming a vacuum area between the first-stage gasifier and the second-stage gasifier, the vacuum area is convenient for reducing the possibility of heat or cold loss of the first-stage gasifier and the second-stage gasifier, and meanwhile, the possibility of heat exchange between water in the first-stage gasifier and water in the second-stage gasifier can be reduced.

Optionally, the side walls of the first-stage gasifier and the second-stage gasifier are both provided with connecting rings, one end of the heat-insulating sleeve is abutted against one connecting ring, the other end of the heat-insulating sleeve is abutted against the other connecting ring, and the heat-insulating sleeve is connected with the connecting rings through bolts.

Through adopting above-mentioned technical scheme, pass through bolted connection between go-between and the heat preservation sleeve, be convenient for change when damage appears in first section vaporizer or second-stage vaporizer.

Optionally, the both ends of heat preservation sleeve all are equipped with the sealing ring, be equipped with on the go-between and supply sealing ring male seal groove, sealing ring and seal groove looks adaptation, be equipped with the sealing washer between seal groove and the sealing ring, the cross-section of sealing washer is circular, the sealing washer is located the juncture of the lateral wall of seal groove and diapire.

Through adopting above-mentioned technical scheme, the setting of sealing ring and seal groove increases the path length through required process between air self preservation temperature sleeve and the go-between, and then promotes the leakproofness. And a sealing ring is added between the sealing groove and the sealing ring, so that the sealing property between the heat-insulating sleeve and the connecting ring is further improved, and the vacuum degree of a vacuum area is kept. The cross-section of sealing washer is circular, and the sealing washer is located the lateral wall of seal groove and the articulated department of diapire, when the heat insulating block is inserted in the heat insulating groove, the side and the sealing washer butt of heat insulating block and extrusion sealing washer, the sealing washer warp, when making the lateral wall and the diapire butt of sealing washer and heat insulating groove, still with the lateral wall and the outer wall butt of heat insulating block, further increase the path length that the circulation of air needs to pass through between heat insulating sleeve and go-between, and then promote the leakproofness between heat insulating sleeve and the go-between.

Optionally, a vacuum tube is arranged on the side wall of the heat-insulating sleeve, an exhaust fan is arranged in the vacuum tube, and a driving device for driving the exhaust fan to rotate is arranged in the heat-insulating sleeve.

Through adopting above-mentioned technical scheme, drive arrangement drive exhaust fan rotates, takes out the air in the heat preservation sleeve and leaves, and the later stage of being convenient for forms the vacuum area.

Optionally, the driving device comprises a gear and a rack which are meshed with each other, the gear is rotatably connected with the heat insulation sleeve through a rotating rod, the rack is arranged on the side wall of the two-stage gasifier along the axial direction of the heat insulation sleeve, the air exhaust fan comprises a rotating shaft and air exhaust blades arranged on the side wall of the rotating shaft, the rotating shaft is rotatably connected with the vacuum exhaust pipe, and the rotating rod and the rotating shaft realize transmission through a bevel gear.

Through adopting above-mentioned technical scheme, when inserting the two-stage process gasifier in the heat preservation sleeve, the rack is followed and is removed to drive gear revolve, the gear drives the pivot rotation again, and then drives the blade rotation of bleeding, takes out from the air in the heat preservation sleeve, when installation two-stage process gasifier and heat preservation sleeve, takes out from the air in the vacuum sleeve, the follow-up formation vacuum region of being convenient for.

In a second aspect, the present application provides a liquid chlorine vaporization process, which adopts the following technical scheme:

the method comprises the following steps:

and a preheating step, namely introducing liquid chlorine into the vaporization pipeline, exchanging heat between the liquid chlorine and water in the first-section gasifier in the vaporization pipeline, and flowing out of the first-section gasifier along the vaporization pipeline after heat exchange, wherein the temperature of the water in the first-section gasifier after heat exchange is 3-10 ℃.

And a water return step, wherein water in the first-stage gasifier is guided into a condensation channel by a water outlet pipe for condensation in a workshop, and after the water is used in the workshop, the temperature of the water returns to 13-22 ℃, and the water is guided back to the first-stage gasifier through a water return pipe.

And a gasification step, wherein the water in the secondary gasifier is heated by a heating device, so that the water temperature in the secondary gasifier is maintained at 82 +/-7 ℃, liquid chlorine flows into the secondary gasifier along a vaporization pipeline, exchanges heat with the water in the secondary gasifier, the vaporization is realized, and the vaporized liquid chlorine flows out of the secondary gasifier along the vaporization pipeline.

Through adopting above-mentioned technical scheme, liquid chlorine gets into one section vaporizer along the vaporization pipeline earlier, carries out the heat transfer in order to realize preheating with the water in the one section vaporizer, wears out one section vaporizer and gets into the second section vaporizer afterwards, carries out the heat transfer in order to realize the vaporization with the water in the second section vaporizer. Meanwhile, the water which is subjected to heat exchange in the first-stage gasifier is guided into the condensation channel by the water outlet pipe and is used for condensation in a workshop, and after the water is used in the workshop, the water returns to the first-stage gasifier through the water return pipe and continues to exchange heat with the liquid chlorine in the vaporization pipeline. The first-stage gasifier and the second-stage gasifier are separately arranged, energy consumed by the heating device is reduced, the first-stage gasifier can preheat liquid chlorine to ensure a vaporization effect, and water subjected to heat exchange can be recycled through the water outlet pipe and the water return pipe, so that energy loss is further reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

through the arrangement of the first-stage gasifier and the second-stage gasifier, the vaporization effect is ensured, the energy consumption is reduced, and the energy conservation and environmental protection are realized;

through the setting of one section vaporizer, two-stage process vaporizer, outlet pipe and wet return, one section vaporizer separately sets up with the two-stage process vaporizer, reduces the energy that heating device required consumed, and one section vaporizer both can preheat liquid chlorine in order to guarantee the vaporization effect, still can carry out reuse, the further loss of energy that reduces to water through the heat transfer through outlet pipe and wet return.

Drawings

Fig. 1 is a schematic structural view of the whole of embodiment 1 of the present application.

Fig. 2 is a schematic structural view of the whole body in embodiment 2 of the present application.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a partially enlarged view of a portion B in fig. 2.

Fig. 5 is a partially enlarged view of a portion C in fig. 2.

Description of reference numerals: 1. a primary gasifier; 11. a vaporization conduit; 12. a liquid level meter; 13. a water replenishing pipe; 131. a control valve; 14. a connecting ring; 141. a sealing groove; 142. a seal ring; 2. a second stage gasifier; 21. a water outlet pipe; 22. a condensing channel; 23. a water return pipe; 24. a water pump; 25. a mixing assembly; 251. a mixing tube; 252. a mixing pump; 3. a heat-insulating sleeve; 31. a sealing block; 32. vacuumizing a tube; 321. a one-way valve; 33. a drive device; 331. a gear; 332. a rack; 333. a rotating rod; 34. an air extracting fan; 341. a rotating shaft; 342. a rotating ring; 3421. fixing the rod; 343. an air extraction blade; 35. a drive assembly; 36. a stirrer; 361. a stirring shaft; 3611. a spline; 3612. a keyway; 362. a stirring blade.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

In a first aspect, the present application discloses a liquid chlorine gasifier.

Example 1:

referring to fig. 1, a liquid chlorine gasifier comprises a first-stage gasifier 1 and a second-stage gasifier 2 which are arranged from bottom to top in sequence, wherein the first-stage gasifier 1 is arranged on the ground, and the first-stage gasifier 1 is connected with the second-stage gasifier 2 through a heat-insulating sleeve 3. The same vaporization pipeline 11 is arranged in the first-stage gasifier 1 and the second-stage gasifier 2 in a penetrating way and used for supplying liquid chlorine to pass through, and the second-stage gasifier 2 is provided with a heating device which is used for heating water in the second-stage gasifier 2. The liquid chlorine firstly enters the first-stage gasifier 1 along the vaporization pipeline 11, exchanges heat with water in the first-stage gasifier 1 to realize preheating, then passes out of the first-stage gasifier 1 and enters the second-stage gasifier 2, and exchanges heat with water in the second-stage gasifier 2 to realize vaporization.

The part of the gasification pipe 11 in the first-stage gasifier 1 and the second-stage gasifier 2 is arranged in a disc-shaped surrounding manner. The lateral wall of one section vaporizer 1 is communicated with a water outlet pipe 21, one end of the water outlet pipe 21, which is far away from the one section vaporizer 1, is communicated with a condensation channel 22, a water pump 24 is fixedly connected to the water outlet pipe 21, and the water pump 24 is installed on the ground and used for leading water in the one section vaporizer 1 into the condensation channel 22 for condensation in a workshop. The end of the condensation channel 22 far away from the water outlet pipe 21 is communicated with a water return pipe 23, the end of the water return pipe 23 far away from the condensation channel 22 is communicated with the first-stage gasifier 1, and water flows back to the first-stage gasifier 1 through the water return pipe 23 for reutilization after being used in a workshop.

The liquid level meters 12 are fixedly connected in the first-stage gasifier 1 and the second-stage gasifier 2 and used for measuring the liquid level height in the first-stage gasifier 1 or the second-stage gasifier 2 and supplementing water to the first-stage gasifier 1 or the second-stage gasifier 2; when level gauge 12 is a top-mounted flap level gauge 12, it may be used. The top walls of the first-stage gasifier 1 and the second-stage gasifier 2 are both communicated with a water replenishing pipe 13, and a control valve 131 is fixed on the water replenishing pipe 13. The liquid level meter 12 is electrically connected with the control valve 131, and when the liquid level meter 12 detects that the liquid level in the first-stage gasifier 1 or the second-stage gasifier 2 is too low, an electric signal is sent out, so that the corresponding control valve 131 is opened to supplement water; when the liquid level in the first-stage gasifier 1 or the second-stage gasifier 2 reaches the standard height, the liquid level meter 12 sends out an electric signal again, the control valve 131 is closed, and water supplement is stopped.

The same heat-insulating sleeve 3 is welded between the first-stage gasifier 1 and the second-stage gasifier 2, a vacuum area is arranged in the heat-insulating sleeve 3 and is positioned between the first-stage gasifier 1 and the second-stage gasifier 2 and used for completely separating the first-stage gasifier 1 from the second-stage gasifier 2 so as to reduce the possibility of heat exchange between the first-stage gasifier 1 and the second-stage gasifier 2 and reduce the heat loss of the first-stage gasifier 1 or the second-stage gasifier 2. In actual installation, the vaporization pipeline 11 penetrates out of the first-stage vaporizer 1, then penetrates through the vacuum region and enters the second-stage vaporizer 2, and the portion, located in the vacuum region, of the vaporization pipeline 11 is made of corrugated pipes which have certain extensibility, so that the vaporization pipeline 11 between the first-stage vaporizer 1 and the second-stage vaporizer 2 can be connected before the heat-insulating sleeve and the second-stage vaporizer 2 are connected.

In the initial state, the temperature of the water in the first-stage gasifier 1 can be 15-20 ℃, the water temperature is reduced to 5-8 ℃ after heat exchange with the materials in the vaporization pipeline, and the water temperature of the water discharged from the water return pipe 23 is 15-20 ℃ after the water is sent to the condensation pipeline for use. The water temperature in the two-stage gasifier 2 is always kept at 80 +/-5 ℃ to ensure the vaporization effect. The temperature is more suitable for liquid chlorine, and other materials need to be adjusted according to the corresponding boiling temperature. The number of the first-stage gasifiers 1 can be multiple, so that the gradual vaporization effect is realized, and meanwhile, the water in each first-stage gasifier 1 can be reused according to actual needs. A heating device is arranged in the two-stage gasifier 2, and the heating device can be realized by adopting a steam heating mode.

In order to reduce the temperature difference of water in the secondary gasifier 2, a mixing component 25 is further arranged on the secondary gasifier 2. Mixing element 25 includes mixing tube 251 and mixing pump 252, and the one end of mixing tube 251 and the top lateral wall intercommunication of two-stage vaporizer 2, the other end then communicates with the bottom lateral wall of two-stage vaporizer 2, and mixing pump 252 is fixed in on mixing tube 251 for take out the water at two-stage vaporizer 2 top to the bottom of two-stage vaporizer 2, make the water intensive mixing of two-stage vaporizer 2 top and bottom, make holistic heat in two-stage vaporizer 2 be even.

The implementation principle of the liquid chlorine gasifier in the embodiment 1 of the application is as follows: when the device works, materials are guided into the vaporization pipeline 11, enter the first-stage gasifier 1 along the vaporization pipeline 11, exchange heat with water in the first-stage gasifier 1, then pass through a vacuum area along the vaporization pipeline 11, enter the second-stage gasifier 2, exchange heat with water in the second-stage gasifier 2, and further enable the materials to be discharged from the vaporization pipeline 11 to be gas. In the process of material vaporization, the water pump 24 guides the water in the first-stage gasifier 1 into the condensation channel 22 for condensation in the workshop, and then the water is guided back to the first-stage gasifier 1 through the water return pipe 23 after use.

Example 2:

the present application further discloses a multi-stage gasifier. The difference from the embodiment is that the connection mode of the heat-insulating sleeve 3 with the first-stage gasifier 1 and the second-stage gasifier 2 is changed. Referring to fig. 2 and 3, the side walls of the first-stage gasifier 1 and the second-stage gasifier 2 are welded with connecting rings 14, one end of the heat-insulating sleeve 3 is abutted to the connecting ring 14 on the first-stage gasifier 1, and the other end of the heat-insulating sleeve is abutted to the connecting ring 14 on the second-stage gasifier 2. The heat preservation sleeve 3 is fixedly connected with the connecting ring 14 through bolts. The heat preservation sleeve 3 has the sealing ring along the equal integrated into one piece in self axial both ends, then offers on the go-between 14 and supplies the male seal groove 141 of sealing ring, and the sealing ring is with seal groove 141 looks adaptation. Two sealing rings 142 are abutted between the sealing groove 141 and the sealing ring, and the two sealing rings 142 are located at the junction of the bottom wall and the two side walls of the sealing groove 141, and the cross section of each sealing ring 142 is circular.

During the installation, first one section vaporizer 1 is fixed in subaerially, overlaps heat preservation sleeve 3 in the top of one section vaporizer 1 afterwards to make heat preservation sleeve 3 and the go-between 14 butt on one section vaporizer 1, insert second section vaporizer 2 in heat preservation sleeve 3 afterwards, and make heat preservation sleeve 3 and the go-between 14 butt on the second section vaporizer 2, at last through the bolt with heat preservation sleeve 3 and one section vaporizer 1, heat preservation sleeve 3 and second section vaporizer 2 between fixed connection.

In the process that heat preservation sleeve 3 and go-between 14 butt, the seal groove 141 is inserted to the sealing ring, and the sealing ring gradually with sealing washer 142 butt, is L shape by circular extrusion with the cross-section of sealing washer 142 for every sealing washer 142 all butts with two lateral walls of seal block 31 simultaneously, promotes the leakproofness between heat preservation sleeve 3 and the go-between 14.

Referring to fig. 3 and 4, an evacuation tube 32 is fixedly connected to the sidewall of the thermal insulation sleeve 3, and a check valve 321 is disposed on the evacuation tube 32 for preventing air from entering the thermal insulation sleeve 3. The heat-insulating sleeve 3 is provided with a driving device 33, a suction fan 34 is arranged in the vacuum tube 32, and the driving device 33 is used for driving the suction fan 34 to rotate so as to suck air out of the heat-insulating sleeve 3. The driving device 33 comprises a gear 331 and a rack 332 which are engaged with each other, the rack 332 is fixedly connected to the side wall of the two-stage gasifier 2 along the axial direction of the heat-insulating sleeve 3, the rack 332 is located at the bottom of the two-stage gasifier 2, and the gear 331 is rotatably connected with the inner wall of the heat-insulating sleeve 3 through a rotating rod 333. The air extracting fan 34 includes a rotating shaft 341 and air extracting blades 343, the rotating shaft 341 is coaxially and rotatably connected with a rotating ring 342, the side wall of the rotating ring 342 is fixedly connected with fixing rods 3421, one end of each fixing rod 3421 far away from the rotating ring 342 is fixedly connected with the inner wall of the air extracting pipe 32, and the fixing rods 3421 are arranged in a plurality of, three or four, circumferential arrays along the rotating ring 342. The air exhaust blades 343 are fixedly connected to the side wall of the rotating shaft 341, and there are a plurality of, three or four air exhaust blades arranged along the circumferential direction of the rotating shaft 341. The rotating rod 333 is connected with the rotating shaft 341 through a bevel gear 331, so that the rotating rod 333 rotates to drive the rotating shaft 341 to rotate, and further drive the pumping blade 343 to rotate.

Referring to fig. 2 and 5, during installation, the first-stage gasifier 1 is fixed on the ground, the heat-insulating sleeve 3 is sleeved on the first-stage gasifier 1, the second-stage gasifier 2 is inserted into the heat-insulating sleeve 3, the rack 332 is meshed with the gear 331, the rack 332 drives the gear 331 to rotate, and the gear 331 drives the air-extracting blade 343 to rotate to extract air in the heat-insulating sleeve 3 during the movement of the second-stage gasifier 2. After the first-stage gasifier 1, the heat-insulating sleeve 3 and the second-stage gasifier 2 are all fixed, the vacuumizing pipe 32 is connected with vacuumizing equipment, and the inside of the heat-insulating sleeve is vacuumized to a corresponding vacuum degree to form a vacuum area. The rotation of the air-extracting blade 343 can extract part of the air in advance, which reduces the workload of the vacuum-extracting equipment and further reduces the energy consumption of the vacuum-extracting equipment.

The top wall of the two-stage gasifier 2 is provided with a driving component 35, and the driving component 35 can be a motor. All be equipped with agitator 36 in first section gasifier 1 and the second section gasifier 2, agitator 36 includes (mixing) shaft 361 and stirring vane 362, and (mixing) shaft 361 rotates with the gasifier that corresponds to be connected, and stirring vane 362 fixed connection is on the lateral wall of (mixing) shaft 361, and has a plurality ofly along the circumference array of (mixing) shaft 361, can be three, also can be four. The output shaft of drive assembly 35 is coaxial fixed with (mixing) shaft 361 on the second-stage vaporizer 2, the top of (mixing) shaft 361 on the first-stage vaporizer 1 and the bottom of (mixing) shaft 361 on the second-stage vaporizer 2 all are located the vacuum area, the bottom fixedly connected with spline 3611 of (mixing) shaft 361 on the second-stage vaporizer 2, the male keyway 3612 of confession spline 3611 is seted up on the top of (mixing) shaft 361 on the first-stage vaporizer 1 to it rotates to be convenient for drive assembly 35 drives two (mixing) shafts 361 simultaneously. When the two-stage gasifier 2 and the heat preservation sleeve 3 are installed, the spline 3611 is just inserted into the key groove 3612. During operation, two stirring shafts 361 of the driving component 35 rotate, and the stirring shafts 361 drive the stirring blades 362 to rotate, so that water in the first-stage gasifier 1 or the second-stage gasifier 2 is uniformly stirred and matched with the mixing component 25, and the water temperature difference in the first-stage gasifier 1 or the second-stage gasifier 2 is further eliminated.

The implementation principle of the liquid chlorine gasifier in the embodiment 2 of the application is as follows: during the installation, will be fixed in one section vaporizer 1 subaerially earlier, overlap heat preservation sleeve 3 in the top of one section vaporizer 1 afterwards to make heat preservation sleeve 3 and the go-between 14 butt on one section vaporizer 1, practical bolt is with the go-between 14 fixed connection on heat preservation sleeve 3 and one section vaporizer 1 this moment. And then the second-stage gasifier 2 is inserted into the heat-insulating sleeve 3, the heat-insulating sleeve 3 is abutted to the connecting ring 14 on the second-stage gasifier 2 in the inserting process, and finally the heat-insulating sleeve 3 is fixedly connected with the first-stage gasifier 1 and the heat-insulating sleeve 3 is fixedly connected with the second-stage gasifier 2 through bolts. The rack 332 is engaged with the gear 331 and drives the gear 331 to rotate, and the gear 331 drives the air-extracting blade 343 to rotate, so as to extract the air in the heat-insulating sleeve 3. Until the heat-insulating sleeve 3 is abutted against the connecting ring 14 of the secondary gasifier 2, the heat-insulating sleeve 3 is fixedly connected with the connecting ring 14 on the secondary gasifier 2 by adopting bolts. In the process of inserting the two-stage gasifier 2 into the heat insulating sleeve 3, the spline 3611 is gradually inserted into the key groove 3612, so that the two stirring shafts 361 can rotate synchronously.

In the process that heat preservation sleeve 3 and go-between 14 butt, the seal groove 141 is inserted to the sealing ring, and the sealing ring gradually with sealing washer 142 butt, is L shape by circular extrusion with the cross-section of sealing washer 142 for every sealing washer 142 all butts with two lateral walls of seal block 31 simultaneously, promotes the leakproofness between heat preservation sleeve 3 and the go-between 14.

In a second aspect, the present application also discloses a liquid chlorine vaporization process.

The method comprises the following steps:

and a preheating step, namely introducing liquid chlorine into the vaporization pipeline 11, exchanging heat between the liquid chlorine and water in the first-stage gasifier in the vaporization pipeline 11, flowing out of the first-stage gasifier 1 along the vaporization pipeline 11 after heat exchange, and controlling the temperature of the water in the first-stage gasifier to be 5-8 ℃ after heat exchange.

And a water return step, wherein water in the first-stage gasifier is guided into a condensation channel 22 by a water outlet pipe 21 for workshop condensation, and after the workshop is used, the temperature of the water is returned to 15-20 ℃, and the water is guided back to the first-stage gasifier through a water return pipe 23.

And a gasification step, wherein a heating device heats water in the secondary gasifier 2, so that the water temperature in the secondary gasifier 2 is maintained at 80 +/-5 ℃, liquid chlorine flows into the secondary gasifier 2 along the vaporization pipeline 11, exchanges heat with the water in the secondary gasifier 2, and is vaporized, and the vaporized liquid chlorine flows out of the secondary gasifier 2 along the vaporization pipeline 11.

A water replenishing step, wherein a liquid level meter 12 monitors the water level in the first-stage gasifier 11 or the second-stage gasifier 2, and when the liquid level meter 12 detects that the liquid level in the first-stage gasifier 1 or the second-stage gasifier 2 is too low, an electric signal is sent out, so that a corresponding control valve 131 is opened to replenish water; when the liquid level in the first-stage gasifier 1 or the second-stage gasifier 2 reaches the standard height, the liquid level meter 12 sends out an electric signal again, the control valve 131 is closed, and water supplement is stopped.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

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