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Air-cooled high-temperature alloy carbon black reaction furnace and carbon black preparation method

A high-temperature alloy and air-cooled technology, which is applied in the field of air-cooled superalloy carbon black reactor and carbon black preparation, can solve the problems of affecting the quality of carbon black production and insufficient cooling methods of carbon black reactor, so as to reduce manpower and material resources Cost, air film integrity, reduced maintenance effect

Pending Publication Date: 2021-01-15
成都轩鼎能源科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The invention provides an air-cooled superalloy carbon black reaction furnace and a carbon black preparation method to solve the problems in the prior art that the cooling method of the carbon black reaction furnace is insufficient and affects the quality of carbon black generation, and realizes reducing the impact of gas erosion and improving carbon black production. The purpose of black production quality

Method used

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  • Air-cooled high-temperature alloy carbon black reaction furnace and carbon black preparation method
  • Air-cooled high-temperature alloy carbon black reaction furnace and carbon black preparation method
  • Air-cooled high-temperature alloy carbon black reaction furnace and carbon black preparation method

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Embodiment 1

[0042]Such asfigure 1 versusfigure 2 The air-cooled superalloy carbon black reactor shown includes a casing 10, an air intake assembly 1 located on the casing 10, a gas fuel intake assembly 2, and a combustion chamber arranged in the casing 10, The combustion chamber has a throat section 12 on which a feed oil nozzle 11 is arranged. The combustion chamber includes a flame tube 9 on which a number of cooling holes 13 are arranged. The axis of the cooling hole 13 is determined by Inclined from outside to inside to the downstream direction. Wherein, the gas fuel intake assembly 2 is connected to the first gas collection cavity 14, and the air intake assembly 1 is connected to the second gas collection cavity 15; the gas fuel enters the flame tube 9 through the first gas collection cavity 14, and the air It enters the flame tube 9 through the cooling hole 13 and the second gas collecting cavity 15. In this embodiment, the flame tube 9 is made of high-temperature alloy material.

[0043]Pre...

Embodiment 2

[0047]An air-cooled superalloy carbon black reactor, based on Example 1, asFigure 1 to Figure 5As shown, the flame tube 9 is connected to the inside of the receiver 10 through the receiver flange 16, and air can enter the second air collecting cavity 15 through the receiver flange 16; the second air collecting cavity 15 is located between the flame tube 9 and Between the first gas collection cavity 14. The head of the flame tube 9 is connected to the adapter plate 7, and the side of the adapter plate 7 away from the flame tube 9 is the second gas collecting cavity 15; the adapter plate 7 is provided with a number of through holes, and each through hole is The swirler 6 is installed correspondingly, each swirler 6 is inserted with a gas fuel nozzle 5; the inlet end of the swirler 6 is located in the second gas collecting cavity 15, and the inlet end of the gas fuel nozzle 5 is located in the first A collection cavity 14 in. Three circles of through hole groups are distributed on the ...

Embodiment 3

[0059]An air-cooled superalloy carbon black reactor. On the basis of Example 2, the cyclone in this example is asFigure 4 As shown, it includes a straight section 601, a reduced-diameter section 602, and an enlarged-diameter section 603 which are successively connected; the straight section 601 is provided with a swirling vane 604, and the swirling vane 604 is provided with a nozzle mounting hole 605, and the gas The fuel nozzle 5 passes through the nozzle installation hole 605.

[0060]The gas fuel nozzle 5 is in clearance fit with the nozzle mounting hole 605. The inlet end of the gas fuel nozzle 5 is in communication with the inlet end of the gas fuel. Such asFigure 5 As shown, the outlet end of the gas fuel nozzle 5 is located in the reduced diameter section 602.

[0061]A more preferred embodiment is that the cyclone 6 is welded or bolted to the adapter plate 7 and corresponds to the through holes 4 one-to-one; the adapter plate 7 is made of a high-temperature alloy material or a cer...

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Abstract

The invention discloses an air-cooled high-temperature alloy carbon black reaction furnace and a carbon black preparation method. The air-cooled high-temperature alloy carbon black reaction furnace comprises a casing, an air inlet assembly and a gas fuel inlet assembly which are positioned on the casing, and a combustion chamber arranged in the casing, the combustion chamber is provided with a throat pipe section, a raw material oil nozzle is arranged on the throat pipe section, and the combustion chamber comprises a flame tube; and a plurality of cooling holes are formed in the flame tube, and the axes of the cooling holes incline in the downstream direction from outside to inside. The invention provides the air-cooled high-temperature alloy carbon black reaction furnace and the carbon black preparation method, the problems in the prior art that the cooling mode of a carbon black reaction furnace is insufficient and the generation quality of carbon black is influenced are solved, andthe purposes of reducing the gas scouring influence and improving the generation quality of carbon black are achieved.

Description

Technical field[0001]The invention relates to the field of carbon black production, in particular to an air-cooled high-temperature alloy carbon black reaction furnace and a carbon black preparation method.Background technique[0002]Carbon black is a product obtained by incomplete combustion or thermal decomposition of carbonaceous substances (coal, natural gas, heavy oil, fuel oil, etc.) under conditions of insufficient air. It can be used as a black dye and a reinforcing agent for rubber. The carbon black reactor is a high-temperature device for the production of carbon black. The combustion chamber is the core equipment for carbon black production. The combustion chamber of the traditional carbon black reactor is a steel furnace shell with refractory bricks stacked to achieve a resistance of 2000 The effect of high temperature gas above ℃. The combustion chamber of the carbon black reactor needs to be mixed and combusted with gaseous fuel and air first, and then enter the throat s...

Claims

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Application Information

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IPC IPC(8): F23D14/02F23D14/64F27D7/02F27D9/00C09C1/50
CPCC09C1/50F23D14/02F23D14/64F27D7/02F27D9/00
Inventor 不公告发明人
Owner 成都轩鼎能源科技有限公司
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