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Yellow phosphorus preparation method and yellow phosphorus preparation equipment

A yellow phosphorus and equipment technology, applied in the field of yellow phosphorus preparation, can solve the problems of high technical requirements for personnel, difficult to separate sludge phosphorus, high operation and maintenance costs, etc.

Active Publication Date: 2014-01-15
CHENGDU INTERMENT TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Although the production process of the above-mentioned large-scale self-baking electrode phosphorus production furnace can produce less sludge phosphorus and waste water, the construction cost of the electrostatic precipitator supporting facilities is huge, the operation and maintenance costs are high, and the technical requirements for personnel are high, and the furnace gas The dust purification treatment is not sufficient, which cannot ideally solve the problem of PM2.5 emission in the exhaust gas
However, the production process using multi-electrode phosphorus electric furnace will produce a large amount of sludge phosphorus that is difficult to separate, and the dust content in the tail gas is higher

Method used

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  • Yellow phosphorus preparation method and yellow phosphorus preparation equipment
  • Yellow phosphorus preparation method and yellow phosphorus preparation equipment

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Experimental program
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Effect test

Embodiment 1

[0070] A multi-electrode phosphorus electric furnace with a transformer capacity of 15000KVA is adopted. Add 50 tons of mixed material to the electric furnace 1 continuously for reaction. At the same time, start the gas supply device 303 and the heater 304. The high-temperature inert preheating gas passes through the second output pipe 306 and enters the filtered furnace gas inlet pipe from the filter 301. device 301, so as to preheat the sintered inorganic porous material filter element (FeAl intermetallic compound porous material filter element) in the filter 301 to 187.5° C., and then close the valve on the second output pipe 306 . Thereafter, the furnace gas discharged from the electric furnace 1 is introduced into the furnace gas dust collection system 3 through the smoke exhaust pipe 2 , and the furnace gas is heated by the heat exchange device 6 during the process. The heated furnace gas discharged from the electric furnace 1 first enters the mechanical dust collector 3...

Embodiment 2

[0072] After the end of embodiment 1, directly adopt its equipment to continue embodiment 2. The second batch of 50 tons of mixed material was continuously fed into the electric furnace 1 for reaction, and at the same time, switched to another refining pot 501 . The furnace gas discharged from the electric furnace 1 is introduced into the furnace gas dust collection system 3 through the smoke exhaust pipe 2 , and the furnace gas is heated by the heat exchange device 6 during the process. The heated furnace gas discharged from the electric furnace 1 first enters the mechanical dust collector 302 through the exhaust pipe 2 for primary dust removal and purification, and then enters the filter 301 for secondary dust removal and purification. The temperature of the furnace gas to be filtered is detected on the inlet pipe of the furnace gas to be filtered by the filter 301 and is kept at about 250° C. The filter 301 starts an online backflush every 600s. During the backflush, the i...

Embodiment 3

[0074] After the end of embodiment 2, directly adopt its equipment to continue embodiment 3. The third batch of 50 tons of mixed material was continuously fed into the electric furnace 1 for reaction, and at the same time, switched to another refining pot 501 . The furnace gas discharged from the electric furnace 1 is introduced into the furnace gas dust collection system 3 through the smoke exhaust pipe 2 , and the furnace gas is heated by the heat exchange device 6 during the process. The heated furnace gas discharged from the electric furnace 1 first enters the mechanical dust collector 302 through the exhaust pipe 2 for primary dust removal and purification, and then enters the filter 301 for secondary dust removal and purification. The temperature of the furnace gas to be filtered is detected on the inlet pipe of the furnace gas to be filtered by the filter 301 and is kept at about 300° C. The filter 301 starts an online backflush every 600s. During the backflush, the in...

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Abstract

The invention discloses a yellow phosphorus preparation method and yellow phosphorus preparation equipment, which produce no phosphorous slurry and reduce the dust content of tail gas. The yellow phosphorus preparation method comprises the technological processes of electric furnace smelting, furnace gas purifying and phosphorus collecting and refining. In the process of furnace gas purifying, the furnace gas discharged out from an electric furnace is guided into a furnace gas dust-collection system through a smoke discharge pipeline, the furnace gas dust-collection system at least comprises a filter for filtering the furnace gas, the filter is provided with a sintering inorganic porous material filter element meeting the following working conditions, and the operations executed on the filter comprise the operation executed during starting a machine, the operation executed during normal operation, the operation executed during back flowing and the operation executed during stopping the machine; in the operation executed during starting the machine, pre-heated inertia gas is injected into the filter so as to preheat the sintering inorganic porous material filter element in the filter to the temperature of more than 187.5 DEG C, and in the operation executed during the normal operation, the to-be-filtered furnace gas of which the temperature is kept at 420-590 DEG C is input into the filter and the dust content of the filtered clean furnace gas is lower than 10-20 mg / m<3>.

Description

technical field [0001] The application relates to a preparation method and equipment of yellow phosphorus. Background technique [0002] The electric furnace yellow phosphorus production process for industrial application is divided into the production process using large-scale self-baked electrode phosphorus electric furnace and the production process using multi-electrode phosphorus electric furnace. Although the two processes are different in the type and scale of the electric furnace, the requirements for the treatment of raw materials into the furnace, and the dust removal measures for the furnace gas, the main process is basically the same, that is, the mixture of phosphate rock, silica and coke in proportion. The material is fed into the electric furnace, and the mixture in the electric furnace undergoes a reduction reaction to generate furnace gas. The furnace gas escapes from the reaction melting zone, and after passing through the furnace gas filter layer formed by...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B25/027
Inventor 高麟汪涛樊彬
Owner CHENGDU INTERMENT TECH
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