SU1174450A1 - Method of producing furnace black - Google Patents

Abstract

A METHOD FOR OBTAINING A KITCHEN SOUZHI, including tangential supply of an air-fuel mixture, burning it, radial injection into the resulting stream of combustion products of the carbonaceous raw material / thermal decomposition of it, subsequent cooling, the resulting soot-gas product stream, and soot from it, characterized by To increase the yield of carbon black, air is axially introduced into the flow in the amount of 0.2 to the flow of the carbon black product before cooling. 0.6 kg / kg of hydrocarbons. (L

Description

NU

4 SP 1 The invention relates to the production of carbon black, in particular, to the technology for the production of furnace soot used in the tire, rubber, paint and varnish, and printing industries. The aim of the invention is to increase the yield of furnace soot. Example. The process is carried out in a cyclone reactor containing a combustion chamber with two tangentially arranged branch pipes with burners installed in them, through which 2990 kg of air with a temperature of 345 C m 220 nm / h of natural gas are fed into the process. The resulting fuel-air mixture is burned and 800 kg / h of hydrocarbon feed, which is a mixture of 40% thermal gas oil, 40% gas catalytic cracking oil extract, is radially fed into the resulting combustion product stream of fuel having a temperature of 1505 seconds. 20% anthracene oil, with temperature. At the same time, the flow of the carbon-gas product from the pipe located coaxially to the raw nozzle is axially injected with 320 kg / h of air with temperature. In this case, the total air flow rate for the process is 3310 kg / h, and the proportion of air axially introduced into the process is 0.4 kg / kg of hydrocarbon feedstock. The carbon dioxide product is further cooled to 700 ° C by introducing into it 2520 kg / h with a temperature of 75 s and withdrawn from the reactor into the trapping system, where 381 kg of soot is extracted in cyclones, which corresponds to its yield of 47.6% in terms of raw materials. The table presents the data on the properties and yield of soot obtained with different parameters of the process.

Air consumption for: fuel combustion, 32303150 kg / h3310 800800 Raw material consumption, kg / h 800 Axially introduced air consumption, 80160 kg / h Axially injected air consumption and air, kg / kg 0.1.0.2 CFD Thermal decomposition temperature, 1430 1445 raw material, C 1420 Physical and chemical indicators of carbon black: specific geometric surface, 76 77 0702990291028302750 800800 800 800 800 240320 400 480 560 0.30.4 0.5 0.6 0.7 14701505 1520 1550 1580 79 79 78 78 78 79 specific adsorption surface, 79 adsorption of dibutylstapate, ml / 100 g 104 104 103 soot yield, wt.% 45.2 46.1 47 These data show an increase in soot yield by 2.1-2.3 wt.% Per 1 kg of carbohydrate native raw material in INSTALLS ...

Continuation of the table 80 84 84 86 88 80 104 103 102 103 104 7.4 47.6 47.4 47.6 axial intake of air into the stream of carbon black product before it is cooled.

Claims (1)

METHOD FOR PRODUCING HEAT SOOT, including tangential supply of the air-fuel mixture, burning it, radial injection into the resulting stream of combustion products of hydrocarbon raw materials, its thermal decomposition, subsequent cooling. the soot-gas product stream obtained and the separation of soot from it, characterized in that, in order to increase the soot yield, air in an amount of 0.20.6 kg / kg of hydrocarbon feedstock is axially introduced into the stream of the soot-gas product before cooling. >