CN104444376A - Double-ash-conveying-pipeline double-storehouse-pump static-pressure concentrated-phase segmented boosting type pneumatic conveying method for fine ash caused by primary dry method dusting of converter - Google Patents

Abstract

The invention discloses a double-ash-conveying-pipeline double-storehouse-pump static-pressure concentrated-phase segmented boosting type pneumatic conveying method for fine ash caused by primary dry method dusting of a converter. The pneumatic conveying method comprises the following steps that (1) a double-ash-conveying-pipeline double-storehouse-pump static-pressure concentrated-phase segmented boosting type pneumatic conveying system for the fine ash caused by primary dry method dusting of the converter is constructed; (2) feeding is performed, wherein on the basis of signals emitted by a material level gage (4) and a temperature measurer (5) arranged on a buffering hopper (6) provided with a heat tracing insulation and fluidization device, according to a pre-designed technology operation program, the fine dust is fed into a storehouse pump type sender (11) provided with a heat tracing insulation device, and a heat tracing device arranged on the buffering hopper (6) provided with the heat tracing insulation and fluidization device is turned on/off; (3) pneumatic conveying is performed, a double-ash-conveying-pipeline double-storehouse-pump static-pressure concentrated-phase segmented boosting type pneumatic conveying technology is adopted for fine ash conveying. According to the pneumatic conveying method, the number of equipment and the maintenance quantity of the equipment are reduced; the stability and the reliability for conveying the fine ash caused by primary dry method dusting of the converter can be effectively improved; meanwhile energy consumption can be effectively lowered; accordingly, the pneumatic conveying method has broad application prospects.

Description

The thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method

Technical field

The present invention relates to field of Environment Protection, more particularly, relate to the thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method.

Background technology

Along with the development of modern industry, the continuous reinforcement of social environment consciousness, increasing converter fume treatment mode adopts dry-type dust collecting process in a large number.

Mainly there are following problems in the thin grey delivery system of existing converter dry method dust:

1, ash-transmission system equipment is huge, and plant maintenance amount is large, and equipment failure rate is higher, and the defeated grey chain that all will carry out cinder conveyer is every year changed;

2, adopt thin ash to be discharged in transfer car(buggy) after humidification stirs, ash discharging system is easy to plugging fault occurs.Secondary pollution problem is easily there is when unloading ash;

3, adopt usual Pneumatic ash conveying technique to carry out thin ash conveying and also there is stable and unreliable problem scarcely.

Summary of the invention

The technical matters that the present invention mainly solves is, for the above-mentioned defect in prior art, provides the thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method.

The technical solution adopted for the present invention to solve the technical problems is: the thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, comprises the steps:

The first step: construct the thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted air-transport system, it comprises the electrostatic precipitator connected successively, with the thin grey nitrogen conveying skewed slot of tracing thermal-insulating device, pneumatic gate valve, with the buffering bucket of tracing thermal-insulating and fluidizer, two-way fluidisation device for discharging, air-actuated feeding valve, with the silo pump type transmitter of tracing thermal-insulating device, main defeated grey source of the gas valve group, stream gasifying device is pumped in storehouse, storehouse pump discharging opening boost installation, pneumatic line transfer valve, pressure sensor, with defeated grey source of the gas and the valve group of Nitrogen source gases heating arrangement, two groups of ash conveying pipes with tracing thermal-insulating device, thin ash silo and air-transport system control setup, described storehouse is pumped on stream gasifying device and is provided with blow off valve, under the described thin grey nitrogen conveying skewed slot with tracing thermal-insulating device is arranged at electrostatic precipitator, level-sensing device and thermo detector is provided with on the buffering bucket of tracing thermal-insulating and fluidizer, inside with the buffering bucket of tracing thermal-insulating and fluidizer is provided with swing crushing screening plant, and the buffering bucket bottom with tracing thermal-insulating and fluidizer is provided with two-way fluidisation device for discharging, the silo pump type transmitter of described band tracing thermal-insulating device and the ash conveying pipe with tracing thermal-insulating device two to overlap respectively totally, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system, also effectively can reduce the energy consumption of thin grey Geldart-D particle simultaneously, the described ash conveying pipe with tracing thermal-insulating device is between pressure sensor and thin ash silo, and two groups of ash conveying pipes with tracing thermal-insulating device are equipped with segmentation external booster with pressure sensor along journey, the silo pump type transmitter exit of described two cuff tracing thermal-insulating devices is provided with four pneumatic line transfer valves, two between storehouse pump discharging opening boost installation and pressure sensor, another two are positioned on two groups of ash conveying pipes with tracing thermal-insulating device, between pressure sensor and the segmentation external booster with pressure sensor,

Second step: charging; Under converter dry method electrostatic precipitator, arrange a set of thin grey nitrogen with tracing thermal-insulating device conveying skewed slot, thin ash electrostatic precipitator collected inputs in the buffering bucket with tracing thermal-insulating and fluidizer; The level-sensing device that buffering bucket with tracing thermal-insulating and fluidizer is arranged and thermo detector detect in real time to the thin ash in the buffering bucket with tracing thermal-insulating and fluidizer, according to the signal that level-sensing device and thermo detector send, according to the process operation program designed in advance, toward with charging in the silo pump type transmitter of tracing thermal-insulating device and the opening/closing heating device with the buffering bucket of tracing thermal-insulating and fluidizer is arranged;

3rd step: Geldart-D particle; The two storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying process of two ash handing pipeline is adopted to carry out thin ash conveying; After the silo pump type transmitter charging of band tracing thermal-insulating device reaches certain material level or setting feed time reaches, close air-actuated feeding valve, then open and select pneumatic line transfer valve corresponding on ash handing pipeline used, main defeated grey source of the gas valve group and storehouse pump discharging opening booster, thin ash, through entering air-transport system with the defeated grey source of the gas of Nitrogen source gases heating arrangement and valve group, is transported to thin ash silo by the ash conveying pipe with tracing thermal-insulating device by defeated ash nitrogen.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in described second step, detect in real time to the thin grey material level of the buffering bucket with tracing thermal-insulating and fluidizer with the buffering bucket wall body temperature of tracing thermal-insulating and fluidizer, according to the start/stop of thin ash material bit data determination air-transport system with the level-sensing device that the buffering bucket of tracing thermal-insulating and fluidizer is arranged and thermo detector; According to the start/stop of the buffering bucket wall body temperature conditions determination heating device with tracing thermal-insulating and fluidizer.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in the described first step, the thin grey nitrogen conveying skewed slot arranged under electrostatic precipitator is carried thin ash, and thin ash electrostatic precipitator collected inputs in the buffering bucket with tracing thermal-insulating and fluidizer.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in the described first step, the swing crushing screening plant arranged in the buffering bucket with tracing thermal-insulating and fluidizer carries out the thin ash caking in the buffering bucket with tracing thermal-insulating and fluidizer, and filter stop foreign matter, avoid foreign matter to enter in air-transport system and cause the smooth problem of plugging and defeated ash to occur.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in the described first step, the described ash conveying pipe with tracing thermal-insulating device is between pressure sensor and thin ash silo, silo pump type transmitter with tracing thermal-insulating device and totally two covers respectively of the ash conveying pipe with tracing thermal-insulating device, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system, also effectively can reduce the energy consumption of thin grey Geldart-D particle simultaneously.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in the described first step, at the thin grey nitrogen conveying skewed slot with tracing thermal-insulating device, the buffering bucket with tracing thermal-insulating and fluidizer, be with the silo pump type transmitter of tracing thermal-insulating device and be all provided with tracing thermal-insulating device with the ash conveying pipe of tracing thermal-insulating device, avoid thin grey air-transport system condensation trouble to occur, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in the described first step, with being provided with supplying nitrogen source of the gas electro heat or steam heater in the defeated grey source of the gas of Nitrogen source gases heating arrangement and valve group, avoid thin grey air-transport system condensation trouble to occur, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, in the described first step, ash conveying pipe with tracing thermal-insulating device is equipped with segmentation external booster with pressure sensor along journey, guarantee the stable and reliable of thin grey pneumatic ash transmitting system, simultaneously also more energy-conservation.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, described conveying Nitrogen source gases pressure >=0.6MPa.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, described supplying nitrogen source of the gas operating temperature >=75 DEG C; With operating temperature >=75 DEG C of the thin grey nitrogen conveying skewed slot of tracing thermal-insulating device, buffering bucket, the silo pump type transmitter of band tracing thermal-insulating device and the ash conveying pipe with tracing thermal-insulating device with tracing thermal-insulating and fluidizer.

beneficial effect of the present invention:

1, employing of the present invention will reduce Mechanical Equipment Quantity and machinery maintenance amount (great advantage that Geldart-D particle substitutes traditional mechanical transmission device is just this);

2, employing of the present invention will make thin ash silo both can be arranged near electric dust collector, also can be arranged on distant position.

3, the present invention adopts two ash conveying pipe (the using and the reserved), two storehouses pump (can be used alternatingly by Double pump circulation, also can the using and the reserved mode use) and the measures such as segmentation external booster are set, effectively can improve thin grey air-transport system reliability of operation and stability, also effectively can reduce energy consumption adopts common bulk cement truck to transport ash simultaneously, greatly lower investment, save the grey cost of fortune.

4, the present invention adopts the heating of supplying nitrogen source of the gas, major equipment device tracing thermal-insulating, effectively can prevent thin grey air-transport system condensation trouble from occurring, effectively improve thin grey air-transport system reliability of operation and stability.

Accompanying drawing explanation

Fig. 1 is the thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method schematic diagram.

Fig. 2 is the thin ash of a kind of converter dry method dust two-tube pair of thin grey delivery technology diagram of circuit of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method in the present invention.

In figure: 1, electrostatic precipitator 2, with the thin grey nitrogen conveying skewed slot 3 of tracing thermal-insulating device, pneumatic gate valve 4, level-sensing device 5, thermo detector 6, with the buffering bucket 7 of tracing thermal-insulating and fluidizer, swing crushing screening plant 8, two-way fluidisation device for discharging 9, air-actuated feeding valve 10, blow off valve 11, with the silo pump type transmitter 12 of tracing thermal-insulating device, stream gasifying device 13 is pumped in storehouse, storehouse pump discharging opening boost installation 14, pneumatic line transfer valve 15, pressure sensor 16, with the segmentation external booster 17 of pressure sensor, with the ash conveying pipe 18 of tracing thermal-insulating device, main defeated grey source of the gas valve group 19, with defeated grey source of the gas and the valve group 20 of Nitrogen source gases heating arrangement, air-transport system control setup 21, thin ash silo.

Detailed description of the invention

Clearly understanding to have technical characteristic of the present invention, object and effect, now contrasting accompanying drawing and describing the specific embodiment of the present invention in detail.

The thin ash of a kind of converter of the present invention dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, comprises three steps, specific as follows:

The first step: construct the thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted air-transport system, as shown in Figure 1, it comprises the electrostatic precipitator 1 connected successively, with the thin grey nitrogen conveying skewed slot 2 of tracing thermal-insulating device, pneumatic gate valve 3, with the buffering bucket 6 of tracing thermal-insulating and fluidizer, two-way fluidisation device for discharging 8, air-actuated feeding valve 9, with the silo pump type transmitter 11 of tracing thermal-insulating device, main defeated grey source of the gas valve group 18, stream gasifying device 12 is pumped in storehouse, storehouse pump discharging opening boost installation 13, pneumatic line transfer valve 14, pressure sensor 15, with defeated grey source of the gas and the valve group 19 of Nitrogen source gases heating arrangement, two groups of ash conveying pipes 17 with tracing thermal-insulating device, thin ash silo 21 and air-transport system control setup 20, described storehouse is pumped on stream gasifying device 12 and is provided with blow off valve 10, the described thin grey nitrogen conveying skewed slot 2 with tracing thermal-insulating device is arranged at electrostatic precipitator 1 time, level-sensing device 4 and thermo detector 5 is provided with on the buffering bucket 6 of tracing thermal-insulating and fluidizer, inside with the buffering bucket 6 of tracing thermal-insulating and fluidizer is provided with swing crushing screening plant 7, and buffering bucket 6 bottom with tracing thermal-insulating and fluidizer is provided with two-way fluidisation device for discharging 8, the silo pump type transmitter 11 of described band tracing thermal-insulating device and the ash conveying pipe 17 with tracing thermal-insulating device two to overlap respectively totally, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system, also effectively can reduce the energy consumption of thin grey Geldart-D particle simultaneously, the described ash conveying pipe 17 with tracing thermal-insulating device is between pressure sensor 15 and thin ash silo 21, and two groups of ash conveying pipes 17 with tracing thermal-insulating device are equipped with segmentation external booster 16 with pressure sensor along journey, silo pump type transmitter 11 exit of described two cuff tracing thermal-insulating devices is provided with four pneumatic line transfer valves 14, two between storehouse pump discharging opening boost installation 13 and pressure sensor 15, another two are positioned at two groups with on the ash conveying pipe 17 of tracing thermal-insulating device, between pressure sensor 15 and the segmentation external booster 16 with pressure sensor,

Second step: charging; Arrange a set of thin grey nitrogen with tracing thermal-insulating device conveying skewed slot 2 for 1 time in converter dry method electrostatic precipitator, thin ash electrostatic precipitator 1 collected inputs in the buffering bucket 6 with tracing thermal-insulating and fluidizer; The level-sensing device 4 that buffering bucket 6 with tracing thermal-insulating and fluidizer is arranged and thermo detector 5 detect in real time to the thin ash in the buffering bucket 6 with tracing thermal-insulating and fluidizer, according to the signal that level-sensing device 4 and thermo detector 5 send, according to the process operation program designed in advance, toward with charging in the silo pump type transmitter 11 of tracing thermal-insulating device and the opening/closing heating device with the buffering bucket 6 of tracing thermal-insulating and fluidizer is arranged;

3rd step: Geldart-D particle; The two storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying process of two ash handing pipeline is adopted to carry out thin ash conveying; After silo pump type transmitter 11 charging of band tracing thermal-insulating device reaches certain material level or setting feed time reaches, close air-actuated feeding valve 9, then open and select pneumatic line transfer valve 14 corresponding on ash handing pipeline used, main defeated grey source of the gas valve group 18 and storehouse pump discharging opening booster 13, thin ash, through entering air-transport system with the defeated grey source of the gas of Nitrogen source gases heating arrangement and valve group 19, is transported to thin ash silo 21 by the ash conveying pipe 17 with tracing thermal-insulating device by defeated ash nitrogen.

Further, in described second step, detect in real time to the thin grey material level of the buffering bucket 6 with tracing thermal-insulating and fluidizer with the buffering bucket 6 wall body temperature of tracing thermal-insulating and fluidizer, according to the start/stop of thin ash material bit data determination air-transport system with the level-sensing device 4 that the buffering bucket 6 of tracing thermal-insulating and fluidizer is arranged and thermo detector 5; According to the start/stop of the buffering bucket 6 wall body temperature conditions determination heating device with tracing thermal-insulating and fluidizer.

Further, in the described first step, the thin grey nitrogen conveying skewed slot 2 that electrostatic precipitator 1 time is arranged is carried thin ash, and thin ash electrostatic precipitator 1 collected inputs in the buffering bucket 6 with tracing thermal-insulating and fluidizer.

Further, in the described first step, the swing crushing screening plant 7 arranged in the buffering bucket 6 with tracing thermal-insulating and fluidizer carries out the thin ash caking in the buffering bucket 6 with tracing thermal-insulating and fluidizer, and filter stop foreign matter, avoid foreign matter to enter in air-transport system and cause the smooth problem of plugging and defeated ash to occur.

Further, in the described first step, the described ash conveying pipe 17 with tracing thermal-insulating device is between pressure sensor 15 and thin ash silo 21, silo pump type transmitter with tracing thermal-insulating device 11 and the ash conveying pipe 17 with tracing thermal-insulating device totally two covers respectively, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system, also effectively can reduce the energy consumption of thin grey Geldart-D particle simultaneously.

Further, in the described first step, at the thin grey nitrogen conveying skewed slot 2 with tracing thermal-insulating device, the buffering bucket 6 with tracing thermal-insulating and fluidizer, be with the silo pump type transmitter 11 of tracing thermal-insulating device and be all provided with tracing thermal-insulating device with the ash conveying pipe 17 of tracing thermal-insulating device, avoid thin grey air-transport system condensation trouble to occur, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system.

Further, in the described first step, with being provided with supplying nitrogen source of the gas electro heat or steam heater in the defeated grey source of the gas of Nitrogen source gases heating arrangement and valve group 19, avoid thin grey air-transport system condensation trouble to occur, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system.

Further, in the described first step, the ash conveying pipe 17 with tracing thermal-insulating device is equipped with segmentation external booster 16 with pressure sensor along journey, guarantees the stable and reliable of thin grey pneumatic ash transmitting system, simultaneously also more energy-conservation.

Further, described conveying Nitrogen source gases pressure >=0.6MPa.

Further, described supplying nitrogen source of the gas operating temperature >=75 DEG C; With operating temperature >=75 DEG C of the thin grey nitrogen conveying skewed slot 2 of tracing thermal-insulating device, buffering bucket 6, the silo pump type transmitter 11 of band tracing thermal-insulating device and the ash conveying pipe 17 with tracing thermal-insulating device with tracing thermal-insulating and fluidizer.

Fig. 2 is the thin ash of a kind of converter dry method dust two-tube pair of thin grey delivery technology flow process of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method in the present invention.

Above content is in conjunction with concrete optimal technical scheme further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to protection scope of the present invention.

Claims (10)

1. the thin ash of a converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, is characterized in that, comprise the following steps:

The first step: construct the thin ash of a kind of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted air-transport system, it comprises the electrostatic precipitator (1) connected successively, with thin grey nitrogen conveying skewed slot (2) of tracing thermal-insulating device, pneumatic gate valve (3), with the buffering bucket (6) of tracing thermal-insulating and fluidizer, two-way fluidisation device for discharging (8), air-actuated feeding valve (9), with the silo pump type transmitter (11) of tracing thermal-insulating device, main defeated grey source of the gas valve group (18), stream gasifying device (12) is pumped in storehouse, storehouse pump discharging opening boost installation (13), pneumatic line transfer valve (14), pressure sensor (15), with defeated grey source of the gas and the valve group (19) of Nitrogen source gases heating arrangement, two groups of ash conveying pipes with tracing thermal-insulating device (17), thin ash silo (21) and air-transport system control setup (20), described storehouse is pumped on stream gasifying device (12) and is provided with blow off valve (10), under described thin grey nitrogen conveying skewed slot (2) with tracing thermal-insulating device is arranged at electrostatic precipitator (1), level-sensing device (4) and thermo detector (5) is provided with on the buffering bucket (6) of tracing thermal-insulating and fluidizer, inside with the buffering bucket (6) of tracing thermal-insulating and fluidizer is provided with swing crushing screening plant (7), and buffering bucket (6) bottom with tracing thermal-insulating and fluidizer is provided with two-way fluidisation device for discharging (8), the silo pump type transmitter (11) of described band tracing thermal-insulating device and the ash conveying pipe (17) with tracing thermal-insulating device two to overlap respectively totally, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system, also effectively can reduce the energy consumption of thin grey Geldart-D particle simultaneously, the described ash conveying pipe with tracing thermal-insulating device (17) is positioned between pressure sensor (15) and thin ash silo (21), and two groups of ash conveying pipes with tracing thermal-insulating device (17) are equipped with the segmentation external booster (16) with pressure sensor along journey, silo pump type transmitter (11) exit of described two cuff tracing thermal-insulating devices is provided with four pneumatic line transfer valves (14), two are positioned between storehouse pump discharging opening boost installation (13) and pressure sensor (15), another two are positioned on two groups of ash conveying pipes with tracing thermal-insulating device (17), between pressure sensor (15) and the segmentation external booster (16) with pressure sensor,

Second step: charging; Under converter dry method electrostatic precipitator (1), arrange a set of thin grey nitrogen with tracing thermal-insulating device conveying skewed slot (2), thin ash electrostatic precipitator (1) collected inputs in the buffering bucket (6) with tracing thermal-insulating and fluidizer; Detecting in real time the thin ash in the buffering bucket (6) with tracing thermal-insulating and fluidizer with the upper level-sensing device (4) that arranges of the buffering bucket (6) of tracing thermal-insulating and fluidizer and thermo detector (5), according to the signal that level-sensing device (4) and thermo detector (5) send, according to the process operation program designed in advance, go up toward with charging in the silo pump type transmitter (11) of tracing thermal-insulating device and the opening/closing buffering bucket (6) with tracing thermal-insulating and fluidizer the heating device arranged;

3rd step: Geldart-D particle; The two storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying process of two ash handing pipeline is adopted to carry out thin ash conveying; After silo pump type transmitter (11) charging of band tracing thermal-insulating device reaches certain material level or setting feed time reaches, close air-actuated feeding valve (9), then open and select pneumatic line transfer valve (14) corresponding on ash handing pipeline used, main defeated grey source of the gas valve group (18) and storehouse pump discharging opening booster (13), thin ash, through entering air-transport system with the defeated grey source of the gas of Nitrogen source gases heating arrangement and valve group (19), is transported to thin ash silo (21) by the ash conveying pipe (17) with tracing thermal-insulating device by defeated ash nitrogen.

2. the thin ash of converter according to claim 1 dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, it is characterized in that, in described second step, the level-sensing device (4) that buffering bucket (6) with tracing thermal-insulating and fluidizer is upper to be arranged and thermo detector (5) detect to the thin grey material level of the buffering bucket (6) with tracing thermal-insulating and fluidizer with buffering bucket (6) the wall body temperature of tracing thermal-insulating and fluidizer, in real time according to the start/stop of thin ash material bit data determination air-transport system; According to the start/stop of buffering bucket (6) the wall body temperature conditions determination heating device with tracing thermal-insulating and fluidizer.

3. the thin ash of converter according to claim 1 dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, it is characterized in that, in the described first step, thin grey nitrogen conveying skewed slot (2) arranged under electrostatic precipitator (1) is carried thin ash, and thin ash electrostatic precipitator (1) collected inputs in the buffering bucket (6) with tracing thermal-insulating and fluidizer.

4. the thin ash of converter according to claim 1 dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, it is characterized in that, in the described first step, the swing crushing screening plant (7) arranged in the buffering bucket (6) with tracing thermal-insulating and fluidizer carries out the thin ash caking in the buffering bucket (6) with tracing thermal-insulating and fluidizer, and filter stop foreign matter, avoid foreign matter to enter in air-transport system and cause the smooth problem of plugging and defeated ash to occur.

5. the thin ash of converter according to claim 1 dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, it is characterized in that, in the described first step, the described ash conveying pipe with tracing thermal-insulating device (17) is positioned between pressure sensor (15) and thin ash silo (21), silo pump type transmitter (11) with tracing thermal-insulating device two to overlap respectively with the ash conveying pipe (17) with tracing thermal-insulating device totally, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system, also effectively can reduce the energy consumption of thin grey Geldart-D particle simultaneously.

6. the thin ash of converter according to claim 1 dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, it is characterized in that, in the described first step, thin grey nitrogen conveying skewed slot (2) with tracing thermal-insulating device, with the buffering bucket (6) of tracing thermal-insulating and fluidizer, with the silo pump type transmitter (11) of tracing thermal-insulating device, and be all provided with tracing thermal-insulating device with the ash conveying pipe (17) of tracing thermal-insulating device, thin grey air-transport system condensation trouble is avoided to occur, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system.

7. the thin ash of converter according to claim 1 dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, it is characterized in that, in the described first step, with being provided with supplying nitrogen source of the gas electro heat or steam heater in the defeated grey source of the gas of Nitrogen source gases heating arrangement and valve group (19), avoid thin grey air-transport system condensation trouble to occur, guarantee operation stability and the reliability of thin grey pneumatic ash transmitting system.

8. the thin ash of converter dry method dust two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method according to claim 1 or 5, it is characterized in that, in the described first step, ash conveying pipe (17) with tracing thermal-insulating device is equipped with segmentation external booster (16) with pressure sensor along journey, guarantee the stable and reliable of thin grey pneumatic ash transmitting system, simultaneously also more energy-conservation.

9. the thin ash of the dry method dust of the converter according to claim 1 or 7 two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, is characterized in that, described conveying Nitrogen source gases pressure >=0.6MPa.

10. the thin ash of the dry method dust of the converter according to claim 1 or 7 two-tube pair of storehouse pump static pressure concentrated phase segmentation assisted pneumatic conveying method, is characterized in that, described supplying nitrogen source of the gas operating temperature >=75 DEG C; Operating temperature >=75 DEG C of thin grey nitrogen conveying skewed slot (2) with tracing thermal-insulating device, the buffering bucket (6) with tracing thermal-insulating and fluidizer, the silo pump type transmitter (11) of band tracing thermal-insulating device and the ash conveying pipe (17) with tracing thermal-insulating device.