阅读说明：本技术 一种顶装焦炉装煤烟尘处理系统及工艺 (Coal-charging smoke dust treatment system and process for top-loading coke oven ) 是由 王满 李旭东 杨忠义 王明登 于 2019-12-02 设计创作，主要内容包括：本发明涉及一种顶装焦炉装煤烟尘处理系统及工艺,桥管上设煤气切断阀；上升管的顶部与导烟三通A的接口一相连,导烟三通A的接口二上设水封阀,接口三通过连接管道一与导烟三通B的接口一相连,连接管道一上设烟气切断阀；导烟三通B的接口二、接口三分别与对应侧炭化室的导烟三通B的对应接口通过连接管道二相连,多个连接管道二依次串联后形成了炉顶装煤烟尘管道；炉顶装煤烟尘管道通过烟尘输送管道依次连接干式除尘装置、风机及煤气掺混装置；所述炉顶装煤密封装置为套筒式炉顶装煤密封装置。能够有效避免顶装焦炉装煤过程中产生的烟尘导入煤气系统而出现的煤气净化系统和设备顺行不利、焦油产品质量降低等问题,促进煤调湿工艺的应用。(The invention relates to a top-loading coke oven coal-charging smoke treatment system and a process thereof.A bridge pipe is provided with a coal gas cut-off valve; the top of the ascending pipe is connected with a first connector of a smoke guide tee joint A, a second connector of the smoke guide tee joint A is provided with a water seal valve, a third connector is connected with a first connector of a smoke guide tee joint B through a first connecting pipeline, and the first connecting pipeline is provided with a smoke stop valve; the second and third interfaces of the smoke guide tee joint B are respectively connected with the corresponding interfaces of the smoke guide tee joint B of the carbonization chamber at the corresponding side through second connecting pipelines, and a plurality of second connecting pipelines are sequentially connected in series to form a coal charging smoke dust pipeline at the top of the furnace; the furnace top coal charging smoke pipeline is sequentially connected with the dry type dust removal device, the fan and the coal gas mixing device through a smoke conveying pipeline; the furnace top coal charging sealing device is a sleeve type furnace top coal charging sealing device. The problems of unfavorable smooth operation of a gas purification system and equipment, reduced quality of tar products and the like caused by the fact that smoke dust generated in the coal charging process of the top-loading coke oven is introduced into a gas system can be effectively avoided, and the application of a coal moisture control process is promoted.)

1. A top-loading coke oven coal-loading smoke dust treatment system is characterized by comprising a top-loading coal sealing device, a gas cut-off valve, a smoke guide tee joint A, a smoke cut-off valve, a smoke guide tee joint B, a dry type dust removal device, a fan and a gas mixing device; the top of a carbonization chamber of the top-mounted coke oven is provided with an ascending pipe, the middle part of the ascending pipe is connected with a gas collecting pipe through a bridge pipe, and the bridge pipe is provided with a gas cut-off valve; the top of the ascending pipe is connected with a first connector of a smoke guide tee joint A, a second connector of the smoke guide tee joint A is arranged opposite to the first connector, and a water seal valve is arranged on the second connector; a third connector of the smoke guide tee joint A is connected with a first connector of the smoke guide tee joint B through a first connecting pipeline, and a smoke stop valve is arranged on the first connecting pipeline; the second and third interfaces of the smoke guide tee joint B are respectively connected with the corresponding interfaces of the smoke guide tee joint B of the carbonization chamber at the corresponding side through second connecting pipelines, and a plurality of second connecting pipelines are sequentially connected in series to form a coal charging smoke dust pipeline at the top of the furnace; the furnace top coal charging smoke pipeline is sequentially connected with the dry type dust removal device, the fan and the coal gas mixing device through a smoke conveying pipeline; the furnace top coal charging sealing device is arranged on the furnace top coal charging vehicle and is a sleeve type furnace top coal charging sealing device.

2. The coal charging smoke treatment system of the top-loading coke oven of claim 1, wherein the first connecting pipeline and the smoke conveying pipeline are both arranged obliquely.

3. The system of claim 1, wherein the starting end of the top-loading coke oven coal-charging flue gas conduit is connected to the gas collecting pipe via a communicating pipe along the flue gas flow direction, and the communicating pipe is provided with a balance valve.

4. The coal charging smoke dust treatment system of the top-charging coke oven of claim 1, wherein the top-charging coal sealing device is composed of an inner sleeve, a sliding sleeve, a sealing connecting sleeve and an outer sleeve which are arranged in sequence from inside to outside, the inner sleeve is a coal feeding channel, and the top of the inner sleeve is connected with a coal hopper discharge port of a coal charging car; the sliding sleeve can vertically slide along the inner sleeve; the bottom end of the sealing connecting sleeve is provided with a spherical structure which is matched with the coal charging hole seat to realize the sealing of the coal charging hole; the outer sleeve is provided with a telescopic flexible connecting structure.

5. The coal charging smoke treatment system of the top-loading coke oven as claimed in claim 4, wherein the outer sleeve is further provided with a smoke outlet, the annular channel between the sliding sleeve and the sealing connecting sleeve is used as a smoke guide channel, and is connected with a smoke collecting pipeline on the coal charging car through the smoke outlet, and the smoke collecting pipeline is additionally connected with a dry dust removal device.

6. The top-loading coke oven coal-charging smoke treatment system according to claim 1, wherein the dry dust removal device is a bag type dust remover, a pre-spraying powder inlet is arranged on a smoke dust conveying pipeline at the upstream of the dry dust remover, the pre-spraying powder adopts coke powder collected from coke oven coke discharging dust removal or dry quenching dust removal, and compressed nitrogen is adopted as a power source for ash removal of the dry dust removal device and conveying of the pre-spraying powder.

7. A top-loading coke oven coal-charging flue dust treatment process based on the system of claim 1, which is characterized by comprising the following steps:

1) before the coal charging operation in the carbonization chamber is started, the ascending pipe and the gas collecting pipe of the corresponding carbonization chamber are separated by closing the gas stop valve on the bridge pipe, and the water seal valve is closed at the same time to isolate the ascending pipe from the atmosphere;

2) the coal charging car moves to the upper part of the corresponding carbonization chamber, after the coal charging hole cover is opened, the sliding sleeve and the sealing connecting sleeve fall down, and the coal charging hole is sealed by tightly contacting the spherical structure at the bottom end of the sealing connecting sleeve with the coal charging hole seat;

3) opening a smoke stop valve corresponding to the coking chamber to be charged with coal, and communicating an ascending pipe with a coal charging smoke dust pipeline at the top of the furnace;

4) a large amount of smoke dust generated during coal charging enters a dry dust removal device through an ascending pipe, a smoke guide tee joint A, a smoke stop valve, a smoke guide tee joint B and a furnace top coal charging smoke dust pipeline in sequence under the action of a fan, coke powder for pre-spraying is sent into a smoke dust conveying pipeline at the upstream of the dry dust removal device by utilizing compressed nitrogen, coal dust in the smoke dust and coke powder adsorbed with tar and other viscous components are removed by a filter bag in the dry dust removal device, and the purified smoke gas enters a coal gas mixing device under the action of the fan and then is sent into a coal gas pipeline for heating a coke oven for supplying heat to the coke oven;

5) after coal charging is finished, the sliding sleeve and the sealing connecting sleeve are lifted, the coal charging car is moved away, and the coal charging hole is sealed by a coal charging hole cover; at the moment, a gas cut-off valve on the bridge pipe is opened, and the ascending pipe corresponding to the carbonization chamber is communicated with a gas collecting pipe; and closing the previously opened flue gas cut-off valve to cut off a passage between the ascending pipe and the coal charging flue dust pipeline on the top of the furnace.

8. The coal charging smoke dust treatment process of the top-charging coke oven of claim 7, wherein when the top-charging coal sealing device with the smoke dust collection pipeline is adopted, the smoke dust escaping from the coal charging hole is guided out by the smoke guide channel between the sliding sleeve and the sealing connecting sleeve during the coal charging process, and is sent into the dry dust removal device through the smoke dust collection pipeline for purification treatment.

Technical Field

The invention relates to the technical field of coal coking, in particular to a coal-charging smoke dust treatment system and process for a top-loading coke oven.

Background

In the coking production, the heat accumulating type coke oven is most widely applied, and the coal charging mode can be generally divided into a top charging coke oven and a tamping coke oven. In either top-loading or stamp-charging coke ovens, the charging of the coal for coking is basically carried out in a hot charging mode, i.e., the coal for coking is charged into the coking chamber under a high-temperature state of the coking chamber. In the coal charging process, the coal material charged into the carbonization chamber is contacted with the hot inner wall of the carbonization chamber or generates a large amount of smoke instantly under the high-temperature environment in the carbonization chamber, and the generated smoke carries a certain amount of coal material particles. In order to prevent or reduce the pollution to the surrounding environment caused by the escape of a large amount of smoke dust from the carbonization chamber in the process of charging coal into the carbonization chamber, smoke-free coal charging processes such as Proven and OPR are generally adopted for the coal charging process, or the smoke dust escaping from the furnace top and the smoke dust escaping from the furnace door at the machine side are collected by high-pressure ammonia water injection and then purified by a coal charging dust removal system.

For the smokeless coal charging process such as Proven, OPR and the like, a coal charging hole at the top of a carbonization chamber is effectively sealed by a coal charging machine, meanwhile, micro negative pressure is formed in the carbonization chamber by improving the suction force of a coke oven gas collecting pipe, and a large amount of smoke generated during coal charging is led into the gas collecting pipe through an ascending pipe and a bridge pipe communicated with the coke oven gas collecting pipe, thereby realizing smokeless coal charging operation. In the process, although the flue gas generated during coal charging is introduced into the gas system, the carried coal dust is also brought into the gas system, when the flue gas passes through the bridge pipe, most of the coal dust is washed by ammonia water used for gas cooling and enters tar along with tar ammonia water, tar slag is formed in the subsequent tar ammonia water separation process, and a part of the coal dust enters a subsequent primary cooler and an electric tar precipitator, so that the running resistance of the primary cooler can be increased, the cooling efficiency of the primary cooler is reduced, meanwhile, the quality of the tar can be reduced due to the fact that the coal dust enters the tar, and a certain amount of tar slag needing special treatment is generated.

The process for purifying the smoke dust escaping from the top of the furnace and the smoke dust escaping from the furnace door at the side of the furnace by using the high-pressure ammonia water injection and the coal charging dust removal system is adopted after the smoke dust escaping from the furnace top and the smoke dust escaping from the furnace door at the side of the furnace are collected, on one hand, the coal charging hole at the top of the carbonization chamber is effectively sealed by using a coal charging machine during the coal charging, the coal charging smoke dust escaping from the furnace is collected by using a coal charging smoke dust collection facility arranged on a coal charging car or arranged above the furnace door at the side of the furnace, and then the collected smoke dust is sent into the coal charging dust removal system through a dust removal pipeline for purification treatment, so that a corresponding coal charging dust removal ground station system or a vehicle-mounted coal charging. On the other hand, a high-pressure ammonia water injection facility needs to be arranged at the bridge pipe corresponding to the coal charging carbonization chamber or the bridge pipe corresponding to the adjacent carbonization chamber, most of smoke dust generated in the coal charging process is guided into the gas collecting pipe through the ascending pipe and the bridge pipe by utilizing the suction force formed by high-pressure ammonia water injection, so that a high-pressure ammonia water system needs to be arranged, and when the high-pressure ammonia water system consumes a certain amount of electric energy during operation, the coal dust brought into the gas system still brings the above-mentioned adverse effects to a subsequent gas purification system and reduces the quality of tar and other related problems.

With the development of the coking industry and the increasing importance on energy conservation and consumption reduction, a coal moisture control technology for reducing moisture of coal as fired by means of drying, preheating and the like before the coal as fired is loaded into a carbonization chamber receives attention in the industry, people try to reduce coking energy consumption by the coal moisture control technology, but in the practice of implementing the technology, the problem that coal dust led into a coal gas system in the coal loading process is greatly increased due to the fact that the moisture of the coal material is reduced is inevitably solved, the serious influence is brought to the smooth operation and the tar quality of a subsequent coal gas purification system by the large increase of the coal dust, so that the use of the coal moisture control technology by a plurality of enterprises is forbidden, and the popularization of the coal moisture control technology is subject to larger resistance.

From the whole coking process, if the flue gas generated during coal charging is completely recycled, about 2-4% of coal gas can be recycled. The existing coal-charging smoke dust treatment process has the problems that the effective recovery of coal gas resources is realized although part or all of flue gas generated during coal charging is guided into a coal gas system, the temperature of the flue gas is low, the moisture content in the flue gas is high, the effective coal gas components are not high, and meanwhile, the content of oxygen in the flue gas can be increased due to the suction force generated by the flue gas guide-in system, so that certain threat is brought to the safe operation of a subsequent coal gas purification system.

In summary, in order to effectively avoid the above problems caused by the coal-charging smoke dust treatment in the coal charging process, improve the smoothness and tar quality of the gas purification system, and promote the popularization and implementation of energy-saving technologies such as coal moisture control, it is necessary to develop a new coal-charging smoke dust treatment process by adopting new technical routes and technical means for the smoke dust generated in the coal charging process.

Disclosure of Invention

The invention provides a coal-charging smoke treatment system and process for a top-charging coke oven, which can effectively avoid the problems of unfavorable smooth operation of a coal gas purification system and equipment, reduced quality of tar products and the like caused by the introduction of smoke generated in the coal charging process of the top-charging coke oven into a coal gas system, and promote the application of a coal moisture control process.

In order to achieve the purpose, the invention adopts the following technical scheme:

a top-loading coke oven coal-loading smoke dust treatment system comprises a top coal-loading sealing device, a gas cut-off valve, a smoke guide tee joint A, a smoke cut-off valve, a smoke guide tee joint B, a dry dust removal device, a fan and a gas mixing device; the top of a carbonization chamber of the top-mounted coke oven is provided with an ascending pipe, the middle part of the ascending pipe is connected with a gas collecting pipe through a bridge pipe, and the bridge pipe is provided with a gas cut-off valve; the top of the ascending pipe is connected with a first connector of a smoke guide tee joint A, a second connector of the smoke guide tee joint A is arranged opposite to the first connector, and a water seal valve is arranged on the second connector; a third connector of the smoke guide tee joint A is connected with a first connector of the smoke guide tee joint B through a first connecting pipeline, and a smoke stop valve is arranged on the first connecting pipeline; the second and third interfaces of the smoke guide tee joint B are respectively connected with the corresponding interfaces of the smoke guide tee joint B of the carbonization chamber at the corresponding side through second connecting pipelines, and a plurality of second connecting pipelines are sequentially connected in series to form a coal charging smoke dust pipeline at the top of the furnace; the furnace top coal charging smoke pipeline is sequentially connected with the dry type dust removal device, the fan and the coal gas mixing device through a smoke conveying pipeline; the furnace top coal charging sealing device is arranged on the furnace top coal charging vehicle and is a sleeve type furnace top coal charging sealing device.

The first connecting pipeline and the smoke conveying pipeline are obliquely arranged.

Along the flowing direction of the flue gas, the starting end of the furnace top coal-charging smoke dust pipeline is connected with a gas collecting pipe through a communicating pipe, and a balance valve is arranged on the communicating pipe.

The furnace top coal charging sealing device consists of an inner sleeve, a sliding sleeve, a sealing connecting sleeve and an outer sleeve which are sequentially arranged from inside to outside, wherein the inner sleeve is a coal discharging channel, and the top of the inner sleeve is connected with a coal hopper discharge port of a coal charging car; the sliding sleeve can vertically slide along the inner sleeve; the bottom end of the sealing connecting sleeve is provided with a spherical structure which is matched with the coal charging hole seat to realize the sealing of the coal charging hole; the outer sleeve is provided with a telescopic flexible connecting structure.

The outer sleeve is further provided with a smoke guide outlet, an annular channel between the sliding sleeve and the sealing connecting sleeve is used as a smoke guide channel and is connected with a smoke collecting pipeline on the coal charging car through the smoke guide outlet, and the smoke collecting pipeline is additionally connected with a dry type dust removal device.

The dry dust removal device is a bag type dust remover, a pre-spraying powder inlet is arranged on a smoke dust conveying pipeline at the upstream of the dry dust remover, the pre-spraying powder adopts coke powder collected by coke oven coke discharging dust removal or dry quenching dust removal, and compressed nitrogen is adopted as a power source for ash removal of the dry dust removal device and conveying of the pre-spraying powder.

A coal-charging smoke dust treatment process for a top-loading coke oven comprises the following steps:

1) before the coal charging operation in the carbonization chamber is started, the ascending pipe and the gas collecting pipe of the corresponding carbonization chamber are separated by closing the gas stop valve on the bridge pipe, and the water seal valve is closed at the same time to isolate the ascending pipe from the atmosphere;

2) the coal charging car moves to the upper part of the corresponding carbonization chamber, after the coal charging hole cover is opened, the sliding sleeve and the sealing connecting sleeve fall down, and the coal charging hole is sealed by tightly contacting the spherical structure at the bottom end of the sealing connecting sleeve with the coal charging hole seat;

3) opening a smoke stop valve corresponding to the coking chamber to be charged with coal, and communicating an ascending pipe with a coal charging smoke dust pipeline at the top of the furnace;

4) a large amount of smoke dust generated during coal charging enters a dry dust removal device through an ascending pipe, a smoke guide tee joint A, a smoke stop valve, a smoke guide tee joint B and a furnace top coal charging smoke dust pipeline in sequence under the action of a fan, coke powder for pre-spraying is sent into a smoke dust conveying pipeline at the upstream of the dry dust removal device by utilizing compressed nitrogen, coal dust in the smoke dust and coke powder adsorbed with tar and other viscous components are removed by a filter bag in the dry dust removal device, and the purified smoke gas enters a coal gas mixing device under the action of the fan and then is sent into a coal gas pipeline for heating a coke oven for supplying heat to the coke oven;

5) after coal charging is finished, the sliding sleeve and the sealing connecting sleeve are lifted, the coal charging car is moved away, and the coal charging hole is sealed by a coal charging hole cover; at the moment, a gas cut-off valve on the bridge pipe is opened, and the ascending pipe corresponding to the carbonization chamber is communicated with a gas collecting pipe; and closing the previously opened flue gas cut-off valve to cut off a passage between the ascending pipe and the coal charging flue dust pipeline on the top of the furnace.

When the furnace top coal charging sealing device with the smoke dust collecting pipeline is adopted, in the coal charging process, smoke dust escaping from the coal charging hole is guided out by the smoke guide channel between the sliding sleeve and the sealing connecting sleeve and is sent into the dry type dust removal device through the smoke dust collecting pipeline for purification treatment.

Compared with the prior art, the invention has the beneficial effects that:

1) the smooth capability of the gas purification system is improved, and the quality of the gas and the tar is improved;

the flue gas with a large amount of coal dust generated in the coal charging process of the coke oven is separately collected and treated, so that the flue gas with a large amount of coal dust is prevented from entering a gas purification system, factors of resistance increase and cooling capacity reduction of a gas primary cooling device caused by the coal dust carried in the flue gas are eliminated, the smooth capacity of the gas purification system is improved, the quality of the gas and the quality of the collected tar are improved, and the generation of tar residues is reduced.

2) The coal charging smoke dust treatment investment and the operation cost are reduced;

the smoke with a large amount of coal dust generated during the coal charging of the coke oven is separately collected and treated, smokeless coal charging systems such as high-pressure ammonia water, Proven and OPR are omitted, a dry dust removal device is utilized, and the application of a pre-spraying process is combined, so that the smoke can be effectively purified, the secondary pollution of water caused by wet dust removal is avoided, and the investment of project construction and the energy consumption of long-term operation of the system can be remarkably reduced.

3) The coal gas resource is fully utilized, and the consumption of high-quality coal gas is reduced;

the flue gas with a large amount of coal dust generated during the coal charging of the coke oven is separately collected and processed and then supplied to the coke oven heating system, so that the effective utilization of low-quality coal gas resources is realized, the consumption of high-quality coke oven gas is reduced, and certain economic benefits are achieved.

4) The running safety of the gas purification system is improved;

compared with the prior art that the suction force generated by spraying high-pressure ammonia water or the suction force in the gas collecting pipe is improved to guide the smoke generated during coal charging into the gas purification system, the smoke with a large amount of coal dust generated during coal charging of the coke oven is independently collected and treated by the fan, the problem that the safety of the gas purification system is seriously threatened due to the fact that the oxygen content in the gas purification system exceeds the standard caused by the overlarge suction force of the smoke collection system is not considered, the generated smoke is effectively collected in the coal charging process, and meanwhile, the operation safety of the gas purification system is improved.

5) The application and popularization of the coal moisture control process are facilitated;

the flue gas with a large amount of coal dust generated in the coal charging process of the coke oven is independently collected, so that the influence of a large amount of coal dust in the flue gas generated in the coal charging process on a coal gas purification system due to the implementation of a coal moisture control technology is eliminated, the restriction of side effects generated in the implementation of the coal moisture control technology on the application of the coal moisture control technology is relieved, and the application and the popularization of the coal moisture control technology are facilitated.

Drawings

FIG. 1 is a schematic structural diagram of a coal-charging smoke dust treatment system of a top-loading coke oven.

FIG. 2 is a schematic view of the connection structure of the ascending pipe, the gas collecting pipe and the coal-charging flue dust pipeline on the top of the furnace.

Fig. 3 is a schematic view (before coal charging) of the working state of the furnace top coal charging sealing device.

Fig. 4 is a schematic view of the working state of the furnace top coal charging sealing device (in coal charging).

Fig. 5 is a schematic view showing the working state of the furnace top coal charging sealing device (before coal charging).

Fig. 6 is a schematic view showing the working state of the furnace top coal charging sealing device of the invention in a fourth state (in coal charging).

In the figure: 1. top-mounted coke oven 2, top-mounted coal-charging sealing device 21, coal hopper 22, inner sleeve 23, sliding sleeve 24, sealing connecting sleeve 25, outer sleeve 26, telescopic flexible connecting structure 27, spherical structure 28, smoke dust collecting pipeline 3, ascending pipe 4, gas stop valve 5, smoke guide tee A6, smoke stop valve 7, smoke guide tee B8, dry dust removing device 9, fan 10, gas blending device 11, balance valve 12, smoke dust conveying pipeline 13, coal as fired 14, gas collecting pipe 15, water seal valve 16 and coal charging hole

Detailed Description

The following further describes embodiments of the present invention with reference to the accompanying drawings:

[ example 1 ]

As shown in fig. 1 and 2, the coal-charging smoke dust treatment system of the top-charging coke oven comprises a top-charging sealing device 2, a gas cut-off valve 4, a smoke-guiding tee A5, a smoke cut-off valve 6, a smoke-guiding tee B7, a dry dust removal device 8, a fan 9 and a gas blending device 10; the top of a carbonization chamber of a top-mounted coke oven 1 is provided with a rising pipe 3, the middle part of the rising pipe 3 is connected with a gas collecting pipe 14 through a bridge pipe, and the bridge pipe is provided with a gas cut-off valve 4; the top of the ascending pipe 3 is connected with a first connector of a smoke guide tee joint A5, a second connector of the smoke guide tee joint A5 is arranged opposite to the first connector, and a water seal valve 15 is arranged on the second connector; a third connector of the smoke guide tee joint A5 is connected with a first connector of the smoke guide tee joint B7 through a first connecting pipeline, and a smoke stop valve 6 is arranged on the first connecting pipeline; the second and third interfaces of the smoke guide tee joint B7 are respectively connected with the corresponding interfaces of the smoke guide tee joint B7 of the carbonization chamber at the corresponding side through second connecting pipelines, and a plurality of second connecting pipelines are sequentially connected in series to form a coal charging smoke dust pipeline at the top of the furnace; the furnace top coal charging smoke dust pipeline is sequentially connected with a dry type dust removal device 8, a fan 9 and a coal gas mixing device 10 through a smoke dust conveying pipeline 12; the furnace top coal charging sealing device 2 is arranged on the furnace top coal charging vehicle and is a sleeve type furnace top coal charging sealing device.

The gas shut-off valve 4 can be a water-sealed valve in the prior art, or can be any device capable of realizing the functions of conducting and shutting off the gas channel between the ascending pipe 3 and the gas collecting pipe 14 by opening and closing. The water seal valve 15 adopts the existing conventional riser water seal valve.

The first connecting pipeline and the smoke conveying pipeline 12 are obliquely arranged, so that the blockage of a smoke channel due to the deposition of coal dust in coal-charging smoke in the smoke channel can be avoided.

Along the flowing direction of the flue gas, the starting end of the furnace top coal charging flue dust pipeline is connected with a gas collecting pipe 14 through a communicating pipe, and a balance valve 11 is arranged on the communicating pipe. By arranging the balance valve 11, the possible surge problem of the fan 9 during operation is eliminated, and the safe and stable operation of the fan 9 is ensured.

As shown in fig. 3 and 4, the furnace top coal charging sealing device 2 is composed of an inner sleeve 22, a sliding sleeve 23, a sealing connecting sleeve 24 and an outer sleeve 25 which are arranged from inside to outside in sequence, wherein the inner sleeve 22 is a coal feeding channel, and the top of the inner sleeve is connected with a discharge hole of a coal hopper 21 of a coal charging car; the sliding sleeve 23 is able to slide vertically along the inner sleeve 22; the sealing connecting sleeve 24 is connected with the coal hopper 21 through an outer sleeve 25, and a spherical structure 27 is arranged at the bottom end of the sealing connecting sleeve 24 and matched with the coal charging hole seat to realize sealing of the coal charging hole 16; the outer sleeve 25 is provided with a flexible telescopic connection 26.

During coal charging, smoke generated in the carbonization chamber cannot escape from the coal charging hole 16 under the action of spherical seal between the bottom end of the sealing connecting sleeve 24 and the coal charging hole seat and negative pressure caused by the fan 9, so that smokeless coal charging in the coal charging process is realized. Different from the prior furnace top coal charging sealing device, the invention adopts the form that the sealing connecting sleeve 24 is matched and sealed with the spherical surface of the coal charging hole seat, can effectively avoid the suction of the ambient air in the coal charging smoke dust trapping process while preventing the coal charging smoke dust from escaping outwards, and improves the safety of the coal charging smoke dust trapping and processing system.

The dry dust collector 8 is a bag type dust collector, a pre-spraying powder inlet is arranged on a smoke dust conveying pipeline 12 at the upstream of the dry dust collector 8, the pre-spraying powder adopts coke powder collected by coke discharging dust removal or dry quenching dust removal of a coke oven, and dust removal and pre-spraying powder conveying of the dry dust collector 8 both adopt compressed nitrogen as a power source so as to avoid explosion danger of the system due to the increase of oxygen content in smoke dust caused by the adoption of compressed air.

A coal-charging smoke dust treatment process for a top-loading coke oven comprises the following steps:

1) before the coal charging operation in the carbonization chamber is started, the ascending pipe 3 of the corresponding carbonization chamber is separated from the gas collecting pipe 14 by closing the gas stop valve 4 on the bridge pipe, and the water seal valve 15 is closed at the same time, so that the ascending pipe 3 is isolated from the atmosphere; coal-charging smoke dust generated during coal charging is prevented from entering the coal gas purification system by mistake;

2) the coal charging car moves to the upper part of the corresponding carbonization chamber, after the coal charging hole cover is opened, the sliding sleeve 23 and the sealing connecting sleeve 24 fall down, and the coal charging hole 16 is sealed by tightly contacting the spherical structure 27 at the bottom end of the sealing connecting sleeve 24 with the coal charging hole seat; the coal charging smoke dust generated in the coking chamber during coal charging is prevented from being dissipated to the periphery of the charging coke oven through the coal charging hole 16 to cause environmental pollution.

3) Opening a smoke stop valve 6 corresponding to the coking chamber to be charged with coal, and communicating an ascending pipe 3 with a coal charging smoke dust pipeline at the top of the furnace; at the moment, under the action of the fan 9, a certain negative pressure is formed in the carbonization chamber, which is beneficial to effectively catching coal-charging smoke dust generated during coal charging;

4) a large amount of smoke dust generated during coal charging enters a dry dust removal device 8 through an ascending pipe 3, a smoke guide tee joint A5, a smoke stop valve 6, a smoke guide tee joint B7 and a furnace top coal charging smoke dust pipeline in sequence under the action of a fan 9, coke powder for pre-spraying is sent into a smoke dust conveying pipeline 12 at the upstream of the dry dust removal device 8 by using compressed nitrogen, coal dust in the smoke dust and coke powder adsorbed with tar and other viscous components are removed by a filter bag in the dry dust removal device 8, the purified smoke gas enters a coal gas mixing device 10 under the action of the fan 9 and then is sent into a coal gas pipeline for heating a coke oven for supplying heat to a top charging coke oven 1; the coal gas mixing device 10 can fully mix the coal-charging flue gas without coal dust with the coal gas heated by the coke oven for combustion heat supply of the top-charging coke oven, can replace a part of purified coke oven gas, and realizes full and efficient utilization of coal gas resources.

5) After the coal charging is finished, the sliding sleeve 23 and the sealing connecting sleeve 24 are lifted, the coal charging car is moved away, and the coal charging hole 16 is sealed by a coal charging hole cover; at the moment, the gas cut-off valve 4 on the bridge pipe is opened, and the ascending pipe 3 corresponding to the carbonization chamber is communicated with the gas collecting pipe 14; and closing the previously opened flue gas stop valve 6 to cut off a passage between the ascending pipe 3 and the coal charging flue dust pipeline on the top of the furnace. At the moment, the coal material in the carbonization chamber enters a carbonization process in an oxygen-free environment, and the coal gas generated by carbonization only carries little dust in a stable state of the coal material, so that the adverse effect of the coal gas introduced into the coal gas purification system on subsequent purification treatment facilities caused by the dust is basically eliminated during non-coal charging, and the quality of tar is also certainly and greatly improved.

[ example 2 ]

In this embodiment, on the basis of the technical solution of embodiment 1, as shown in fig. 5 and 6, the outer sleeve 25 is further provided with a smoke guide outlet, the annular channel between the sliding sleeve 23 and the sealing connection sleeve 24 is used as a smoke guide channel, and is connected with a smoke collection pipeline 28 on the coal charging car through the smoke guide outlet, and the smoke collection pipeline 28 is additionally connected with the dry dust removal device 8.

When the furnace top coal charging sealing device 2 with the smoke dust collecting pipeline 28 is adopted, in the coal charging process, smoke dust escaping from the carbonization chamber at the coal charging hole 16 is guided out by the smoke guide channel between the sliding sleeve 23 and the sealing connecting sleeve 24 and is sent into the dry type dust removal device 8 through the smoke dust collecting pipeline 28 for purification treatment.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.