RU2067606C1 - Method for fractional of fuel oil - Google Patents

Abstract

FIELD: fractionation of fuel oil in vacuum packed column. SUBSTANCE: fuel oil is fractionated in vacuum column equipped with contact devices with withdrawal of distillate and distillation residue. Column stripping section has cross-pointed contact devices which contain vertically arranged packing unit, liquid distributors in form of perforated distributing plates with deflecting plates and overflow strips. Prevented during stripping in column stripping section is mixing of heavy bottom product coming together with feed, with liquid flow flowing off the lower contact device of rectifying section; for which purpose, heavy product and liquid from rectifying section are directed in separated parallel flows to cross-pointed contact devices of stripping section. Separate motion of flows is ensured due to separation of the devices into two parts by vertical partition impermeable for liquid, and evaporating agent is used one and the same. As a result, additional stripped flow is withdrawn from the column bottom in form of high boiling distillate. EFFECT: higher efficiency. 1 dwg, 3 tbl

Description

 The invention relates to the field of oil refining, chemical and petrochemical industries, particularly to methods for fractionating fuel oil.

A known method of fractionation of fuel oil in a complex column with the supply to the bottom of the column of water vapor [1]
The prototype of the invention is a method for fractionating fuel oil by distillation of heated raw materials in a vacuum column equipped with contact devices, using circulating irrigation and with selection of distillate fractions from the reinforcing section, as well as by supplying an evaporating agent to the bottom of the column and stripping of light components in the distant section of the column equipped cross-precision contact devices containing vertically arranged nozzle blocks, liquid distributors in the form of perforated ra distribution plates with reflective plates and drain strips, followed by the conclusion of the distillation residue [2] In this case, the selection and quality of the distillate fractions are not high enough, the high-boiling distillate fraction and heavy residue are not obtained due to the displacement of the high-boiling distillate fraction and residue.

 The aim of the invention is to increase the selection and improve the quality of the distillate fractions, obtaining a high boiling distillate fraction and a heavy residue.

 This goal is achieved by the fact that in the method of fractionating fuel oil by distillation of heated raw materials in a vacuum column equipped with contact devices, using circulating irrigation and with selection of distillate fractions from the strengthening section, as well as by supplying an evaporating agent to the bottom of the column and stripping of light components in the distant section columns equipped with cross-precision contact devices containing vertically arranged nozzle blocks, liquid distributors in the form of perforated distributors casting plates with reflective plates and drain strips, followed by the removal of the distillation residue, during stripping of light fractions in the stripping section of the column prevent the mixing of heavy bottoms coming from the feed with the flow of liquid flowing from the lower contact device of the reinforcing section, for which the heavy product and the liquid from the reinforcing section is directed by separate parallel flows to the cross-precise contact devices of the distillation section, which provide separate movement of flows due to dividing the devices into two portions impermeable to the passage of fluid by a vertical partition, and thus use the same volatile agent, and as a result outputted from the bottom of the column an additional stream stripped of high-boiling distillate fraction.

 The difference of the present invention is to prevent mixing of the heavy bottoms product supplied with the feed with the flow of fluid flowing from the lower contact device of the reinforcing section when stripping light fractions in the stripping section of the column, due to the direction of the heavy product and the liquid from the reinforcing section in separate parallel flows at the cross precise contact devices of the distant section, providing separate movement of flows due to the separation of devices into two parts impervious to passage liquid vertical partition, using the same vaporizing agent, and the output as a result from the bottom of the column additional stripped stream in the form of a high boiling distillate fraction.

 The proposed method, in contrast to those known in science and technology, provides an increase in the selection and improvement of the quality of the distillate fractions and the production of a high boiling distillate fraction and a heavy residue.

 The drawing shows a diagram illustrating the method of fractionation of fuel oil.

 The fuel oil heated in the heater 1 is introduced through line 2 into a vacuum column 3 provided with contact devices in the reinforcing and distant sections. The upper circulating irrigation is taken out of the column 3 through line 5, cooled in the refrigerator 6, and returned to the column through line 7. From the top of the column 3, along the line 8, the steam is removed, condensed in the condenser 9 and fed into the tank 10. From the top of the tank, along the line 11, non-condensable steam is removed into the vacuum-creating system, and condensate is removed from the bottom of the tank on the line 12. A side stream is withdrawn from the column 3 via line 13, part of it is cooled in the refrigerator 14 and returned to the column through the line 15 as lower circulating irrigation, and the balance excess is withdrawn via line 16 as a distillate fraction. From the bottom of the column, line 17 displays the remainder. To evaporate light fractions from the residue on the contact devices of the stripping section, an evaporating agent, for example water vapor, is introduced into the bottom of the column through line 18.

 During stripping of light fractions in the stripping section of the column, the mixing of the heavy bottoms product supplied with the feed with the flow of liquid flowing along line 19 from the lower contact device 4 of the reinforcing section is prevented, for which the heavy product and the liquid from the reinforcing section are sent in separate parallel streams to the cross precise contact devices 20 of the distant section, providing separate movement of flows due to the separation of devices into two parts of a vertical partition impermeable to liquid passage 21, and thus use the same volatile agent, and as a result on line 22 is output from the bottom of the column an additional stream stripped of high-boiling distillate fraction.

 The invention is illustrated by the following examples. The calculations of the vacuum column according to the proposed method and prototype. The diameter of the upper part of the columns is 2.6 m; four single-valve valve plates are located in it; the diameter of the middle part is 6.4, in which there are three double-drain valve plates, three double-drain screen plates and a flue-rectification contact device; the diameter of the lower part (stripping section) of the column is 2.6 m, in which four cross-precision nozzle devices are located. In the calculations, the mass and heat transfer efficiency of the four single-drain valve plates of the first circulating irrigation and three valve plates of the second circulating irrigation is taken equal to 0.65, which corresponds to the efficiency relative to the theoretical plate 0.50, the mass and heat transfer efficiency of three sieve plates is taken equal to 0, 40, which corresponds to the efficiency relative to the theoretical plate 0.25. The mass and heat transfer efficiency of two cross-precision nozzle blocks of the break-off-distillation contact device is taken equal to 0.85 and four blocks of the distillation section 0.75, which corresponds to the efficiency relative to the theoretical plate 0.70 and 0.60, respectively. The pressure of the top of the column is assumed to be 0.006 MPa, the pressure drop across the plates is 0.006 MPa, and the packing blocks are 0.0003 MPa.

Example 1 (by the proposed method). The fuel oil feedstock in an amount of 145 t / h is heated in a furnace and served at a temperature of 365 ^o C between the fourth and fifth contact devices (counting from the bottom) of the column. From the top of the column in the amount of 1.74 t / h with a temperature of 119 ^o With output pairs and sent to the condenser. A vapor-liquid mixture from a condenser with a temperature of 35 ^o With served in the tank. Condensate containing 1.2 t / h of water is discharged from the bottom of the tank in an amount of 1.7 t / h, and non-condensed vapors and decomposition gases are discharged from the top of the tank in an amount of 0.04 t / h to a vacuum-generating system. From the fourth plate (counting from the top) of the column, 55 t / h of the upper (first) circulating irrigation are withdrawn, cooled and fed to the top of the column with a temperature of 90 ^{° C.} From the seventh plate of the column output side shoulder strap. A part of it in the amount of 75 t / h is cooled and with a temperature of 120 ^o With served on the fifth plate of the column as the lower (second) circulation irrigation, and the balance excess is removed in the amount of 55.4 t / h as fr. 350-460 ^o C.

As an evaporating agent, 0.2 t / h of water vapor heated to 400 ^{° C.} are fed into the mixture with the raw material and 1 t / h of water vapor is introduced into the bottom of the column. From the bottom of the column withdraw the residue (tar).

During the stripping of light fractions in the stripping section of the column, the mixing of the heavy bottoms product supplied with the feed with the flow of liquid flowing from the lower contact device of the strengthening section is prevented, for which the heavy product and the liquid from the strengthening section are sent in separate parallel streams to the cross-contact contact devices of the distilling section sections providing separate movement of flows due to the separation of devices into two parts of a vertical partition impervious to liquid passage, and at the same time the same vaporizing agent is used, and as a result, an additional steamed stream in the form of a high boiling distillate fraction of 460-550 ^o C. is withdrawn from the bottom of the column in the amount of 6.18 t / h

 The main operating parameters of the column according to example 1 are shown in table 1, the fractional composition of the separation products in table 2.

 Example 2 (prototype). The process is carried out under the conditions of example 1, with the exception of preventing the mixing of the heavy bottoms product supplied with power, with the flow of liquid flowing from the lower contact device of the reinforcing section when stripping light fractions in the stripping section of the column, due to the direction of the heavy product and the liquid from the reinforcing section separately parallel flows to the cross-precise contact devices of the distant section, providing separate movement of the flows due to the separation of the devices into two parts impermeable to rohoda vertical partition liquid using the same volatile agent, and output the result to the bottom hole assembly further stripped stream in a high boiling point distillate fraction. The main operational parameters of the column according to example 2 are shown in table 1, the fractional composition of the separation products in table 3.

From the presented data it follows that example 1 in comparison with example 2 allows to increase the selection and improve the quality of the distillate fractions, to obtain a high-boiling distillate fraction and a heavy residue. The selection of distillate fractions increases from 52.36 to 62.08 t / h. The content in the condensate of the vapor fraction 350 ^o With K. to. Decreases from 4.75 to 4.25 wt.% In the fraction 350-460 ^o With fraction N. to. 350 ^o With from 21.72 to 20.58 wt.% Fractions 460 ^o With from 15.59 to 14.69 wt%. It turns out 6.18 t / h of high boiling distillate fraction 460-550 ^o With the content of the fraction N. to. 460 ^o C -12.11% of the fraction 550 ^o C 11.82% and a heavy residue. The content in it of the fraction of n.k. 460 ^o C decreases from 12.47 to 8.79 wt.%
Increasing the selection and improving the quality of the distillate fractions, obtaining a high boiling distillate fraction and a heavy residue make it appropriate to use the present invention when fractionating fuel oil.

For example, the implementation of the proposed method on a single vacuum column allows you to get an additional 25.2 thousand tons / year of the fraction 350-360 ^o C and 49.4 thousand tons / year of the fraction 460-550 ^o C and reduce the content of the fraction N. to. 460 ^o With the remainder from 12.47 to 8.79 wt.%

Claims (1)

 A method for fractionating fuel oil by distillation of heated raw materials in a vacuum column equipped with contact devices using circulating irrigation and with selection of distillate fractions from the strengthening section, as well as by feeding an evaporating agent to the bottom of the column and stripping of light components in the distant section of the column equipped with cross-flow contact devices containing vertically arranged nozzle blocks, liquid distributors in the form of perforated distribution plates with reflective plates and drain strips, followed by the conclusion of the distillation residue, characterized in that when the light fractions are stripped off in the stripping section of the column, the heavy bottoms product coming in with the mixture is not mixed with the flow of liquid draining from the lower contact device of the strengthening section, for which the heavy product and the liquid from the reinforcing section is directed by separate parallel flows to the cross-flow contact devices of the distant section, which provide separate movement of the flows due to the separation of devices into two parts of a vertical baffle impenetrable for liquid passage, and using the same vaporizing agent, as a result, an additional stripped stream is withdrawn from the bottom of the column in the form of a high-boiling distillate fraction.

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