TH2437A - Processes and Reactors for Carbon Black Production And carbon black - Google Patents

Abstract

Has revealed a new type of reactor for the production of carbon black. A new method for producing carbon black And a new type of carbon black, carbon black shows you Characterized by the ideal surface area of 70 to 150 m2 / g and "G" values less than 1.20 or greater than 1.85 corresponding to a very narrow or very wide grain size distribution, respectively. Ideally, the reactor is used for the axial flow of combustion gases and is characterized by measurement in series. The field that converges into a cone cut off the neck of the field that immediately converges. And the cylindrical pyrovice region. In some aspects of this invention Combustion gas is produced by combustion of fuel with low BTU. And pass these gases through the neck at a speed close to 1 mac in a method of carbon black production. Brought raw materials into the converged region On the other hand, raw materials were imported as aerosols in other ways. Raw materials are brought in with counter-current or current-speed elements.

Claims (9)

1. Carbon black reactor consists of fireproof side walls. It defines the longitudinal axis of the reaction flow path and also consists of (a) the combustion zone, typically cylindrical, (b) mixing zone with the conical lateral wall converging from the lateral wall. The combustion zone, generally cylindrical, to the neck of the reactor (c) pyrolysis region, which is generally cylindrical. Is defined by the side wall, typically a cylinder, connected to the neck of the reactor by the end wall, which is generally ring-shaped, and (d) a number of injection molding machines, which are placed perpendicular to the axis. Long through the fireproof side of the mixing zone And placed at the distance of the starting material to the neck of the reactor should be at least equal to the diameter of the Reactor neck Each of these injection molding machines is designed to emit material droplets in a cone shape that flares at an angle ranging from approximately 30 ° C to approximately 120 ° C. 2. Carbon black reactor according to claim 1, where the raw material injector is designed to emit aerosol flared at an angle from approximately 45 ° C to approximately 90 ° C, which should be used at The angle is about 60 degrees. 3. Carbon black reactor according to claim 2, which defines the Additional components are The raw material source has a pressure range of 10.54 kg / cm2 to 45.69 kg / cm2, is connected to an oil nozzle. And should have a temperature in the range 177 degrees C to 399 degrees C. 4.Processes for producing carbon black It consists of passing through a stream of hot combustion gas that is high enough to decompose carbonized raw materials and form carbon black. By entering the field that converges, the neck and the field that immediately flared, respectively Transverse transmission of carbon-containing raw materials into a stream of hot combustion gas From the periphery of the stream for decomposition to form carbon black and Transmission of carbonized materials, conical flared aerosols This flares out at an angle ranging from about 30 ° C to 120 ° C into the converged zone where the distance of the starting material to the reactor neck should be at least equal to the diameter of the neck. Of the reactor 5. Process according to claim 4, in which a stream of hot combustion gas flows along the axial and a certain amount of material mist is fed into the hot combustion gas stream in a direction generally perpendicular to the axis. 6. Process according to claim 4 or 5. Additional components are: The carbon-containing material is fed to the feed nozzle at a temperature of 121 ° C to 399 ° C, which should be 177 ° C to 371 ° C and at a pressure in the range of 10.54 kg / sq m. Cm. To 45.69 kg / sq. Cm. Which should be 14.06 kg / sq cm to 28.12 kg / sq cm 7. Process according to any Clause 4 to 6 where the aerosol of carbonized raw material flares at an angle ranging from approximately 45 degrees C to approximately 90 degrees C, which should be 60 degrees C. . 8. Carbon black has a CTAB surface area in the range of 60-140 sq m / g, and the DBP structure value is at least approximately 1.4 times the CTAB value. 9.Carbon black according to claim 8, additional characteristics by carbon Black from the kiln has a CTAB surface area in the range of 75-130 sq m / g, which should be 80 to about 125 sq m / g and the DBP structure value is at least approximately 1.5 times. This should be 1.5 to 1.7 times the CTAB value of 1. 0. Carbon black has a CTAB surface area in the range of 60-140 sq m / g and the DBP structure value is between about 65 and 180 m3 / 100 g and the structure value of 24M4 -DBP is located. Between 80 percent and 100 percent of the DBP structure.