CN103816737A - Phosphorus steam dust-moving device - Google Patents

Phosphorus steam dust-moving device Download PDF

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Publication number
CN103816737A
CN103816737A CN201410042895.5A CN201410042895A CN103816737A CN 103816737 A CN103816737 A CN 103816737A CN 201410042895 A CN201410042895 A CN 201410042895A CN 103816737 A CN103816737 A CN 103816737A
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China
Prior art keywords
filter screen
dust
drum type
type brake
valve
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Pending
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CN201410042895.5A
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Chinese (zh)
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邹岳明
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Individual
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Individual
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Priority to CN201410042895.5A priority Critical patent/CN103816737A/en
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Abstract

The invention relates to a phosphorus steam dust-moving device and a working method thereof. The dust-moving device comprises a cylindrical barrel, a first flange connecting opening, a second flange connecting opening, a cylindrical filter screen, a driving mechanism, a gas ejector pipe, a wool yarn plate, a conical barrel, a blanking seal valve, a storage cavity, a discharging seal valve, a heater, a nitrogen inlet pipe, an air exhaust pipe, a nitrogen inlet valve and an air exhaust valve, wherein the first flange connecting opening is formed in the top end of the cylindrical barrel and used for inputting phosphorus steam, the second flange connecting opening is formed in the side wall of the cylindrical barrel and used for outputting phosphorus steam, the cylindrical filter screen is arranged in the cylindrical barrel, the cylindrical filter screen is driven by the driving mechanism to rotate, the gas ejector pipe is used for blowing nitrogen to the inner wall of the cylindrical filter screen so as to remove dust, dust on the cylindrical filter screen is brushed off by the wool yarn plate, the inverted cone-shaped barrel is connected to the lower end of the cylindrical barrel, the blanking seal valve is arranged at the lower end of the conical barrel, the storage cavity is arranged at the bottom of the first blanking seal valve, the discharging seal valve is arranged at the bottom of the storage cavity, the heater is arranged in the storage cavity, the nitrogen inlet pipe and the air exhaust pipe are respectively arranged on the storage cavity, and the nitrogen inlet valve and the air exhaust valve which can be simultaneously opened and closed are respectively arranged on the nitrogen inlet pipe and the air exhaust pipe.

Description

Phosphorus steam dust removing device
The application is divisional application, the application number of original application: 201210222666.2, and invention and created name: phosphorus steam dust removing device and method of work thereof, the applying date: on June 29th, 2012.
Technical field
The present invention relates to the technical field of cleaner, specifically a kind of phosphorus steam dust removing device and method of work thereof.
Background technology
Phosphorus production is highly energy-consuming industry, and 1 ton of yellow phosphorus of every production at least will consume 1.4 ten thousand kilowatt hour electricity and 1.6 tons of carbon, and Chinese existing annual capacity is 800,000 tons.In phosphorus production process, will produce a large amount of phosphorus steam, phosphorus furnace exhaust gas and high temperature furnace slag.Equally,, also there are a large amount of high temperature furnace slags in the industries such as steel-making, aluminium metallurgy, copper metallurgy.
The more dust that often adulterates in phosphorus steam, is unfavorable for the recovery of phosphorus.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of simple in structure, phosphorus steam dust removing device and the method for work thereof of the dust in energy filtering phosphorus steam.
For solving the problems of the technologies described above, phosphorus steam dust removing device provided by the invention, comprising: column-shaped barrel 1, be located at this column-shaped barrel 1 top for inputting the first flange-interface 14 of phosphorus steam, be located on the sidewall of this column-shaped barrel 1 for exporting the second flange-interface 15 of described phosphorus steam, be located at the drum type brake filter screen 2 in this column-shaped barrel 1, drive the driving mechanism of this drum type brake filter screen 2 around its central shaft rotation, axially be located at the air jet pipe 3 with removal dust for the inwall nitrogen-blow to this drum type brake filter screen 2 of the bottom interior wall setting of described drum type brake filter screen 2 interior and contiguous these drum type brake filter screens 2, axially be located at described drum type brake filter screen 2 outsides for brushing away the wool yarn plate 4 of the dust on described drum type brake filter screen 2, be connected in the obconic conically shaped 5 that is of described column-shaped barrel 1 lower end, be located at the blanking seal valve 6 of these conically shaped 5 lower ends, be located at the storage chamber 7 of these blanking seal valve 6 bottoms, be located at the discharging seal valve 9 of these storage chamber 7 bottoms, be located at the heater 8 in this storage chamber 7, be located at nitrogen air inlet pipe and air exhaust duct on storage chamber 7, and be located at respectively being suitable in described nitrogen air inlet pipe and air exhaust duct and open and close nitrogen intake valve 12 and air exhaust-valve 10 simultaneously.
The method of work of described phosphorus steam dust removing device, comprises the steps:
A, to being filled with nitrogen in described column-shaped barrel 1, conically shaped 5 and storage chamber 7 to discharge air; Then closed blanking seal valve 6, discharging seal valve 9, nitrogen intake valve 12 and air exhaust-valve 10;
B, phosphorus steam is sent into column-shaped barrel 1 through the first flange-interface 14, then enter drum type brake filter screen 2 downwards, then export from the second flange-interface 15;
Driving mechanism drives described drum type brake filter screen 2 around its central shaft rotation, and air jet pipe 3 sprays high pressure nitrogen, and the dust being attached on described drum type brake filter screen 2 is blown off to described conically shaped 5; The dust brush being attached on described drum type brake filter screen 2 is dropped down onto described conically shaped 5 by wool yarn plate 4;
C, when the Dust Capacity in described conically shaped 5 reach setting value open described blanking seal valve 6, dust in described conically shaped 5 is dropped down onto in storage chamber 7, then heater 8 heats the dust in storage chamber 7, make the phosphorus condensing on dust evaporate into phosphorus steam, phosphorus steam rising reenters after described drum type brake filter screen 2, exports through the second flange-interface 15; Until when the interior without phosphorus steam output of storage chamber 7, described blanking seal valve 6 closures, close heater 8;
D until storage chamber 7 cooling after, open described discharging seal valve 9, draw off described dust;
E, closed discharging seal valve 9, open nitrogen intake valve 12 and air exhaust-valve 10, and the air in storage chamber 7 is drained stand-by; Repeat above-mentioned steps C.
The present invention has positive effect with respect to prior art: phosphorus steam dust removing device of the present invention, adopt filter cylinder (being drum type brake filter screen) by after phosphorus Steam Dust, send into successively heat exchanger and scrubbing tower, the bottom discharge mouth of heat exchanger and scrubbing tower immerses downwards to be received in phosphorus groove, realizes the recovery of high-purity phosphorus.
Accompanying drawing explanation
Fig. 1 is the structural representation of phosphorus steam dust removing device in embodiment 1;
Fig. 2 is the A-A cross-sectional view of Fig. 1.
The specific embodiment
Embodiment 1
See Fig. 1 to 2, the phosphorus steam dust removing device of the present embodiment comprises: column-shaped barrel 1, be located at this column-shaped barrel 1 top for inputting the first flange-interface 14 of described phosphorus steam, be located on the sidewall of this column-shaped barrel 1 for exporting the second flange-interface 15 of described phosphorus steam, be located at the drum type brake filter screen 2 in this column-shaped barrel 1, drive the driving mechanism of this drum type brake filter screen 2 around its central shaft rotation, axially be located at the air jet pipe 3 with removal dust for the inwall nitrogen-blow to this drum type brake filter screen 2 of the bottom interior wall setting of described drum type brake filter screen 2 interior and contiguous these drum type brake filter screens 2, axially be located at described drum type brake filter screen 2 outsides for brushing away the wool yarn plate 4 of the dust on described drum type brake filter screen 2, be connected in the obconic conically shaped 5 that is of described column-shaped barrel 1 lower end, be located at the blanking seal valve 6 of these conically shaped 5 lower ends, be located at the storage chamber 7 of these blanking seal valve 6 bottoms, be located at the discharging seal valve 9 of these storage chamber 7 bottoms, be located at the heater 8 in this storage chamber 7, be located at nitrogen air inlet pipe and air exhaust duct on storage chamber 7, be located at respectively being suitable in described nitrogen air inlet pipe and air exhaust duct and open and close nitrogen intake valve 12 and air exhaust-valve 10 simultaneously, the downstream pipeline of this air exhaust-valve 10 is provided with check valve 11.After blanking seal valve 6, discharging seal valve 9 closures, open nitrogen intake valve 12 and air exhaust-valve 10 simultaneously, be suitable for the air in storage chamber 7 to drain.
On air jet pipe 3, be distributed with fumarole down, for spraying nitrogen, prevent that described drum type brake filter screen 2 from stopping up.
The reduction box 13 that described driving mechanism comprises motor 16 and is in transmission connection with this motor 16, an end part seal of described drum type brake filter screen 2, the center of this end is provided with a rotating shaft, and the output shaft of this rotating shaft and described reduction box 13 is in transmission connection.
The other end of described drum type brake filter screen 2 is open type port, the second flange-interface 15 and the adjacent setting of described open type port.Preferably, the second flange-interface 15 is coaxially set with described open type port.
Preferably, described wool yarn plate 4 is located at the outside of the middle and lower part of described drum type brake filter screen 2, so that the dust that brush falls enters described conically shaped 5 fast.
While starting working, in described column-shaped barrel 1, conically shaped 5 and storage chamber 7, by being filled with the mode of nitrogen, discharge air, after phosphorus steam from mixing with air, blast preventing.Then closed blanking seal valve 6, discharging seal valve 9, nitrogen intake valve 12 and air exhaust-valve 10.
Phosphorus steam is sent into column-shaped barrel 1 through the first flange-interface 14, then enters drum type brake filter screen 2 downwards, then exports from the second flange-interface 15; Driving mechanism drives this drum type brake filter screen 2 around its central shaft rotation, and air jet pipe 3 sprays high pressure nitrogen, and the dust being attached on described drum type brake filter screen 2 is blown off to described conically shaped 5; The dust brush being attached on described drum type brake filter screen 2 is dropped down onto described conically shaped 5 by wool yarn plate 4.
Open blanking seal valve 6, dust in described conically shaped 5 is dropped down onto in storage chamber 7, and then heater 8 heats the dust in storage chamber 7, makes the phosphorus condensing on dust evaporate into phosphorus steam, phosphorus steam rising reenters after described drum type brake filter screen 2, exports through the second flange-interface 15; Until when the interior without phosphorus steam output of storage chamber 7, described blanking seal valve 6 closures, close heater 8; Until after storage chamber 7 is cooling, open described discharging seal valve 9, draw off described dust.Then closed discharging seal valve 9, opens nitrogen intake valve 12 and air exhaust-valve 10, and the air in storage chamber 7 is drained stand-by.Because the gasification temperature of phosphorus is lower, until storage chamber 7 is opened described discharging seal valve 9 after cooling again, can guarantee safety.Avoid occurring the risk of blasting after high temperature phosphorous steam mixes with air.
The present embodiment, adopts filter cylinder (being drum type brake filter screen) by after phosphorus Steam Dust, to send into successively heat exchanger and scrubbing tower, and the bottom discharge mouth of heat exchanger and scrubbing tower immerses downwards to be received in phosphorus groove, realizes the recovery of high-purity phosphorus.

Claims (2)

1. a phosphorus steam dust removing device, it is characterized in that comprising: column-shaped barrel (1), be located at this column-shaped barrel (1) top for inputting first flange-interface (14) of phosphorus steam, be located on the sidewall of this column-shaped barrel (1) for exporting second flange-interface (15) of described phosphorus steam, be located at the drum type brake filter screen (2) in this column-shaped barrel (1), drive the driving mechanism of this drum type brake filter screen (2) around its central shaft rotation, axially be located at the air jet pipe (3) with removal dust for the inwall nitrogen-blow to this drum type brake filter screen (2) of the bottom interior wall setting of interior and contiguous this drum type brake filter screen (2) of described drum type brake filter screen (2), axially be located at described drum type brake filter screen (2) outside for brushing away the wool yarn plate (4) of the dust on described drum type brake filter screen (2), what be connected in described column-shaped barrel (1) lower end is obconic conically shaped (5), be located at the blanking seal valve (6) of this conically shaped (5) lower end, be located at the storage chamber (7) of this blanking seal valve (6) bottom, be located at the discharging seal valve (9) of this storage chamber (7) bottom, be located at the heater (8) in this storage chamber (7), be located at nitrogen air inlet pipe and air exhaust duct on storage chamber (7), and be located at respectively being suitable in described nitrogen air inlet pipe and air exhaust duct and open and close nitrogen intake valve (12) and air exhaust-valve (10) simultaneously,
Air jet pipe is distributed with fumarole down on (3);
One end part seal of described drum type brake filter screen (2), the other end is open type port ;
Described the second flange-interface (15) is coaxially set with described open type port.
2. the method for work of phosphorus steam dust removing device according to claim 1, is characterized in that comprising the steps:
A, to being filled with nitrogen in described column-shaped barrel (1), conically shaped (5) and storage chamber (7) to discharge air; Then closed blanking seal valve (6), discharging seal valve (9), nitrogen intake valve (12) and air exhaust-valve (10);
B, phosphorus steam is sent into column-shaped barrel (1) through the first flange-interface (14), then enter drum type brake filter screen (2) downwards, then export from the second flange-interface (15);
Driving mechanism drives described drum type brake filter screen (2) around its central shaft rotation, and air jet pipe (3) ejection high pressure nitrogen, blows off the dust being attached on described drum type brake filter screen (2) to described conically shaped (5); The dust brush being attached on described drum type brake filter screen (2) is dropped down onto described conically shaped (5) by wool yarn plate (4);
C, when the Dust Capacity in described conically shaped (5) reach setting value open described blanking seal valve (6), dust in described conically shaped (5) is dropped down onto in storage chamber (7), then the dust in heater (8) heating storage chamber (7), make the phosphorus condensing on dust evaporate into phosphorus steam, phosphorus steam rising reenters after described drum type brake filter screen (2), exports through the second flange-interface (15); Until when in storage chamber (7), without phosphorus steam is exported, described blanking seal valve (6) closure, closes heater (8);
D until storage chamber (7) cooling after, open described discharging seal valve (9), draw off described dust;
E, closed discharging seal valve (9), open nitrogen intake valve (12) and air exhaust-valve (10), and the air in storage chamber (7) is drained stand-by; Repeat above-mentioned steps C.
CN201410042895.5A 2012-06-29 2012-06-29 Phosphorus steam dust-moving device Pending CN103816737A (en)

Priority Applications (1)

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CN201410042895.5A CN103816737A (en) 2012-06-29 2012-06-29 Phosphorus steam dust-moving device

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Application Number Priority Date Filing Date Title
CN201410042895.5A CN103816737A (en) 2012-06-29 2012-06-29 Phosphorus steam dust-moving device

Related Parent Applications (1)

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CN103816737A true CN103816737A (en) 2014-05-28

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1480239A (en) * 2003-08-08 2004-03-10 暴辰生 Filtration type gas separation and purification equipment with rapid moving filtering layer
US20080083333A1 (en) * 2006-10-04 2008-04-10 Anlet Co., Ltd. Dust collector
CN101829461A (en) * 2009-03-13 2010-09-15 北京柯林柯尔科技发展有限公司 Method and device for purifying furnace gas generated by producing phosphoric acid through blast furnace process

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1480239A (en) * 2003-08-08 2004-03-10 暴辰生 Filtration type gas separation and purification equipment with rapid moving filtering layer
US20080083333A1 (en) * 2006-10-04 2008-04-10 Anlet Co., Ltd. Dust collector
CN101829461A (en) * 2009-03-13 2010-09-15 北京柯林柯尔科技发展有限公司 Method and device for purifying furnace gas generated by producing phosphoric acid through blast furnace process

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
陈善继: "电除尘器在黄磷装置中的应用综述", 《硫磷设计与粉体工程》, no. 1, 31 December 2010 (2010-12-31), pages 25 - 31 *

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Application publication date: 20140528