KR890010129A - Carbon Black Manufacturing Method - Google Patents

Abstract

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Description

Carbon Black Manufacturing Method

Since this is an open matter, no full text was included.

1 is a longitudinal sectional view schematically showing a typical carbon black manufacturing drawing used in all embodiments of the present invention.

2 is a histogram showing the particle size distribution curve of the carbon black aggregates and illustrating ΔD50 of the aggregate particle size distribution of the carbon black samples.

Claims (7)

Reacting the fuel with the oxidant to provide a hot primary combustion gas stream having sufficient energy to convert the liquid hydrocarbon feedstock for carbon black production to carbon black, and the liquid hydrocarbon feedstock is subjected to a plurality of pre-atomized coherent air streams or In the form of a pre-sprayed air stream, at a time when the combustion gas stream reaches its maximum velocity, it is sprayed peripherally in the air stream of the gaseous combustion product substantially in the transverse direction to the flow direction of the combustion gas stream at a suitable pressure, The degree of penetration required for mixing is achieved, the feedstock is decomposed and converted to carbon black before the carbon black formation reaction is stopped by quenching, followed by cooling, separation and recovery of the carbon black produced. Liquid hydrocarbon feedstock in the unit furnace manufacturing method Increase in COBP of the resulting carbon black caused by spraying the feedstock into the hot combustion gas stream before the point where the combustion gas stream reaches its maximum speed and before the point where the combustion gas stream reaches its maximum speed. Improved process for producing carbon black having a wider aggregate particle size distribution by introducing into the combustion gas stream at an upstream point where is no longer observed. The method of claim 1, wherein the amount of about 20-80% of the total amount of the liquid feedstock is in the hot combustion gas stream prior to the point where the combustion gas stream reaches the maximum speed and before the point where the combustion gas stream reaches the maximum speed. Characterized by introducing into the combustion gas stream at an upstream point at which no increase in COBP of the resulting carbon black caused by spraying the feedstock is observed, and adding the remaining feedstock at the point when the combustion gas stream reaches its maximum speed. How to. The method according to claim 1, wherein the amount of about 20-75% of the total amount of the liquid feedstock is in the hot combustion gas stream before the combustion gas stream reaches the maximum speed and before the combustion gas stream reaches the maximum speed. Characterized by introducing into the combustion gas stream at an upstream point where the increase in COBP of the resulting carbon black caused by spraying the feedstock is no longer observed, and adding the remaining feedstock at the point when the combustion gas stream reaches its maximum speed. How to. 2. A method according to claim 1, wherein the feedstock injected in the hot combustion gas stream at the point where the hot combustion gas stream reaches the maximum velocity is a coherent air stream that is not presprayed. The COBP of the resulting carbon black produced by injecting a feedstock into a hot combustion gas stream prior to a point where the combustion gas stream reaches a maximum speed and before a point where the combustion gas stream reaches a maximum speed. The liquid hydrocarbon feedstock injected into the combustion gas stream at the upstream point where no increase in is no longer observed is sprayed substantially transverse to the flow direction of the hot combustion gas stream, and the feedstock is in the form of a coherent air stream that is not pre-sprayed. Characterized in that the method. 6. The COBP of the resulting carbon black produced by injecting the feedstock in a hot combustion gas stream before the time at which the combustion gas air stream reaches its maximum speed and before the time when the combustion gas air stream reaches its maximum speed. And outwardly spraying the liquid hydrocarbon feedstock injected into the combustion gas stream at an upstream point at which no increase is no longer observed. 2. The feedstock of claim 1 wherein the liquid hydrocarbon feedstock is in a non-presprayed form in the hot combustion gas stream before the point at which the combustion gas stream reaches its maximum rate and before the point at which the combustion gas stream reaches its maximum rate. During the combustion gas stream at the upstream point where the increase in COBP of the resulting carbon black caused by spraying is no longer observed, spraying outward substantially laterally from the surroundings of the combustion gas stream, and preliminarily spraying the liquid hydrocarbon feedstock. And in a substantially transversely inward direction from the outside surroundings of the hot combustion gas stream during the combustion gas stream at a time when the combustion gas stream reaches its maximum velocity. ※ Note: The disclosure is based on the initial application.