SU1611920A1 - Method of processing oil residues - Google Patents

Abstract

The invention relates to a method of treating petroleum residues and allows an increase in the yield of middle distillate fractions and an improvement in the quality of coke. Oil residues are preheated to 460–480 ° С and fed to the upper part of the reactor; coolant is fed to the lower part of the reactor. A light gas oil coking fraction 180-250 ° C in a mixture with water vapor in the ratio of 1-1-4 with a temperature of 550-700 ° C is used as the heat carrier. 1 tab.

Description

The invention relates to a method for treating petroleum residues and can be used in the refining industry.

The aim of the invention is to increase the yield of middle distillate fractions and improve the quality of coke.

P. 1. Example 1. Tar (density of 966 kg / m capacity of 9.0%, sulfur content of 2.06%) is subjected to a revision of the proposed method. A mixture of light gas oil coking (fraction 180–250 ° C) and water vapor is used as a heat carrier in a mass ratio of 1: 3,

The tar is heated to 450 ° C, subjected to visbreaking, and the products of visbreaking are directed to the upper part of the coking chamber. In the coking chamber pressure of 0.2 MPa. In the bottom of the chamber of coking serves coolant 20% for raw materials heated to. In the coking chamber, the tar is cracked and coked. The products of visbreaking, cracking, and coking tar are directed to a fractionation column, where they are divided into fractions. Gas and gasoline fraction - I.K. 180 C. Light gas oil - 180-250, 250-350 ° С and heavy gas oil - 350 ° С to, к.

II p m i m e p 2. Same as in Example 1. The temperature of the secondary heating of tar is 460 ° C, the temperature of the coolant is 650 ° C, the amount of the heat carrier is 10% of the raw material.

II p and me 3, Same as in example 1. The preheating temperature of tar is 480 C, the heat carrier temperature is 550 C, and the heat carrier quantity is 20 / i for raw materials.

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Example4. Same as in example 1. The preheating temperature of tar, heat carrier temperature, amount of heat carrier is 20% for raw materials.

When the preheating temperature is below 460 ° C, the yield of gas oil fractions decreases, and at temperatures above 480 ° C, an intensive

coke formation and, as a result, the mileage of the installation is reduced. In this connection, preliminary heating is proposed to be carried out in the range of 460-480 ° C. The temperature of the heat carrier 550–700 ° C is determined by the flow rate and coking of the pyrolysis furnace coil, when the heat carrier heats below 550 ° C, the flow rate of the heat carrier increases, and at the heat carrier temperature above 700 ° C, the coking gas is formed by light gas oil coking

The material balance of tar processing and quality indicators of coke are given in the table.

As can be seen from the table, the yield of middle distillate fractions in the proposed method is more than 2 times higher.

than by a known method. The yield of coarse-grained coke and its mechanical strength in the proposed method are higher than in the known method. The sulfur content in the coke is primarily a function of the sulfur content in the coking feedstock and the proposed method b is aimed at coking the high-sulfur feedstock with a minimum output of coke.

Claims (1)

Invention Formula A method of treating petroleum residues, including preheating the feedstock and feeding it into the upper part of the reactor, supplying the coolant to the lower part of the reactor, heating the cf to produce coke and distillate fractions, is different because, in order to increase the yield of middle distillate fractions and to improve the quality of coke, the raw material is preheated to 460-480 Civ. As a heat carrier, light gas is used for coking the fraction 180-250 ° C mixed with water vapor in a ratio of 1- (1-4) with a temperature of 550-700 ° C. Received: Gas, wt.%. Gasoline (nk 221 C us.% Middle distillate fractions (gas oil), wt.% Coke, wt.% Coke lump (fr, +25 mm), wt. Sulfur content in coke, wt.% Mechanical strength, kg / cm , 0 11 67 15 60 ,four 95 6.6 10.5 71.8 11J 60 2.4 100 6.76.9 10.8 11.0 71.7 10.8 60 2.4 100 71.6 10.5 60 2.45 105,