RU2460595C1 - Installation and device for cleaning furnace tubes of different diameter from coke deposits - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention can be used in oil industry. Installation is designed for furnace with tubes of convective and radiation coil consisting of heating part and soaking section and includes loading, starting and discharging device for scraper, separator-catcher for scraper and carrier flow supply system for scraper that is connected to oil product refining installation. All said devices have inner diameter of pipes equal to soaking section tubes diameter. Starting device is equipped with conical adapter-reducer from starting device tube to heating part of furnace radiation coil. The scraper for cleaning furnace tubes includes head and tail part with scrapers connected between themselves by connecting element. There are at least two umbrella-shaped modules in head part that are formed by flexible framework and dome, the diameter of first module matches the diameter of heating part of furnace radiation coil, and the diameter of the second module matches the diameter of soaking section coil.

EFFECT: due to changeable diameter of umbrella-shaped module invention allows performing joint cleaning of furnace coil tubes of different diameter and thus increasing the efficiency of furnace tubes cleaning process.

13 cl, 7 dwg, 1 tbl

Description

The invention relates to installations and devices for cleaning coils of chimneys from coke deposits and can be used in the oil refining industry.

A known installation for the mechanical cleaning of pipes of a furnace coil from coke deposits (Journal of Chemistry and Technology of Fuels and Oils No. 2, 2007, p.16-17), including a furnace, a device for feeding scrapers (starting device), a device for receiving scrapers (output device), pump installation. The scraper itself is a core of plastic material on which scrapers are placed in the form of spikes. Input and transportation of scrapers is carried out using a carrier - a stream of high pressure water. When the scraper passes through the furnace coil, coke deposits are destroyed from the inner surface of the pipe and further removed by water flows.

A disadvantage of the known installation and device is the complexity and inefficiency, the system is difficult to control, the cleaning process takes a long time, which leads to increased capital and operating costs.

The closest in essential features is the group of inventions, including a method for cleaning the furnace coil from coke deposits, a cleaning device (options) and an installation for implementing the method in which an oil product is used as a carrier stream (Pat. RF No. 2358003, IPC C10G 9/16 , published on June 10, 2009, BI No. 16).

A known installation includes a furnace with convective and radiation coil pipes, while the radiation coil consists of a heating part and a socking section (the output part of the coil with pipes of a larger diameter than the heating part), a starting device for a scraper, an output device for a scraper, a loading device for a scraper and a separator-trap for separating, cleaning and feeding the scraper to the starting device, as well as a scraper carrier flow supply system associated with an oil product processing unit.

The known scraper device (first option) is a rounded element with a head and a tail and scrapers, the rounded element being hollow and formed by a flexible shell consisting of a closed head and an open tail, and the scrapers are made in the form of pins and placed on the tail .

A disadvantage of the known installation and device is that only chimneys of the heating part of the coil having diameters close to the scraper are cleaned, and pipes of the socking section with pipes of larger diameter are not accessible to the head and tail parts of the scraper and remain coked, which leads to additional repair stops, increasing operating and capital costs.

The technical result of the invention consists in the joint cleaning of chimneys of various diameters from coke deposits.

The specified technical result is achieved by the fact that in a known installation, including a furnace with convective and radiation coil pipes, consisting of a heating part and a socking section, a loading device for a scraper, a starting device for a scraper, an output device for a scraper, a separator-trap for a scraper and a scraper carrier flow supply system associated with an oil product processing unit according to the invention, the above devices have an inner pipe diameter equal to the diameter of the socking section pipes, p In this case, the starting device is equipped with a conical adapter-confuser from the pipe of the starting device to the heating part of the radiation coil of the furnace.

It is advisable to make the confuser with an opening angle (compression) of 30 ÷ 60 ° and equip it with four internal radial ribs 2 ÷ 5 mm thick welded to the inner surface of the cone with the profile of the ribs repeating the external profile of the surface of the confuser, and a height equal to half the difference between the internal diameters pipes of the socking section and the heating part of the radiation coil of the furnace.

Also, the specified technical result is achieved by a known scraper containing the head and tail parts with scrapers, interconnected by a connecting element, in which, according to the invention, at least two umbrella-shaped modules are formed in the head part, formed by a flexible frame and a dome, the diameter of the first of which corresponds to the diameter of the heating part of the radiation coil of the furnace, and the diameter of the second to the diameter of the coil of the socking section, while the aforementioned frame consists of radial spokes, fastened x from one end of the head and from the other end by a flexible annular hoop, the head comprising a collar with a collar and a disk element that are fastened with knitting needles and a dome, and at least one umbrella-like module formed by a flexible frame is placed in the rear part, moreover, the frame of the umbrella-shaped module of the tail part consists of radial spokes fastened at only one end by a head, and tips with scrapers are placed on the other end of the radial spokes, while the head contains a sleeve with a collar and a disk element, which bonded with knitting needles, and the connecting element is equipped with dividing links.

Three umbrella-shaped modules can be installed in the head and tail of the scraper.

It is advisable to place the dome-shaped module dome inside the frame.

In the frame of the umbrella-shaped module of the head part there can be eight spokes, and in the frame of the tail part - twenty four.

The spokes of umbrella-shaped modules can be made by stamping from sheet elastic steel or from a wire with a thickness of 1.5 ÷ 2.0 mm and a length of 1.7 ÷ 1.8 of the radius of the pipe, respectively, of the heating part of the radiation coil and the socking section.

The dome of the umbrella module of the head can be made of woven steel or carbon fiber.

A flexible ring hoop can be made in the form of a zigzag spring.

The connecting element between the head and tail parts can be made in the form of a steel cable.

The dividing links can be made in the form of springs or ball or elliptical washers placed between umbrella-shaped modules and compressed by a nut and a pin mounted on the end of a steel cable.

The tips with scrapers of the umbrella-shaped module of the tail can have a spherical or oval shape with a transverse diameter of 5–7 mm, the surface of which is covered with a notched type notch or equipped with known standard scrapers.

The head sleeve of the head of the umbrella-shaped module can be installed in such a way that the edge is placed outside the head of the frame, and the sleeve of the head of the tail portion can be installed in such a way that the edge is placed inside the head of the frame.

The implementation of scrapers in the form of umbrella-shaped modules allows you to change the size and shape of the head and tail parts depending on the diameter of the pipe in which they are located, thereby providing traction, erosion properties of the scraper and free passage of the scraper through the curved sections of the furnace coil.

In figure 1, 2 shows a conical adapter-confuser with an opening angle (compression) of 60 °, a longitudinal and cross section, where 1 is a narrow pipe of the heating part of the radiation coil of the furnace, 2 is a confuser, 3 are radial ribs 2 mm thick and height, equal to half the difference between the inner diameters of the pipes of the socking section and the heating part of the furnace coil, 4 - a wide pipe having a pipe diameter equal to the diameter of the socking section and the distance (diameter) between opposite ribs equal to the inner diameter of the pipe of the heating part of the snake vetch furnace.

Figure 3 shows a general view of the scraper, where 5 is the first umbrella-shaped module of the head of the scraper, 6 is the second umbrella-shaped module of the head of the scraper, 7 is the connecting element is a steel cable with a diameter of 7 mm, 8 is the umbrella-shaped module of the tail of the scraper, 9 is the dividing link section of the spring, 10 - screw pin with washer and nut, 11 - volumetric spherical washer, 12 - frame head.

Figure 4 shows a section along BB-3 of figure 3, where 13 is the dome of the umbrella-shaped module of the head part, 14 are spokes, and figure 5 is a section along BB-4 of figure 4, which shows the frame with the spokes 14, flexible an annular hoop 15 in the form of a flat zigzag spring and a head containing a sleeve 16 with a flange 17 in the form of a disk washer welded to the sleeve 16 and placed outside the head of the frame, and a disk element 18 inside the frame. The disk element 18 is fastened to the dome 13, with the spokes 14 of the frame and the flange 17 of the sleeve 16 with rivets (or bolts) 20. The spokes 14 are made by stamping from sheet elastic steel or wire 1.5 mm thick and a length of 1.7 of the radius of the heating coil coil pipe furnaces and socking sections. Holes 19 are made at the ends of the spokes 14 for fastening them to the annular hoop 15. FIG. 6 shows a section along D-D of FIG. 3, and FIG. 7 shows a section along DD of FIG. 6, where 21 are elastic spokes with a diameter 1.5 mm, length 1.7 of the radius of the pipe of the socking section, included in the design of the frame of the umbrella-shaped module 8 of the tail, 22 - the tips of the spokes 21 with a diameter of 5 mm with a notch on the surface of the drach type or typical scrapers, 23 - a sleeve with a flange 24 in in the form of a disk washer welded to the sleeve 23 and located inside the head of the frame, 25 is a disk element outside the frame (washer-disk).

A scraper in pipes of various diameters works as follows. In a wide pipe from the starting device to the heating part of the radiation coil of the furnace, the dynamic flow of oil oil acts on the flexible side of the dome 13 of three umbrella-shaped modules 6 of the head, to some extent increases their diameter and, providing tightness with the surface of the pipe 4, creates a force that pulls for the cable 7, the tail of the scraper, consisting of three umbrella-shaped modules 8, equipped with erosion elements-tips 22, and also pushes the elements 7, 11 umbrella-shaped module 5, which passes through the confuser 2, centering with four radial ribs 3, into the pipe 1 of the heating part of the radiation coil of the furnace and overlaps it. The oil flow similarly acts on the umbrella-shaped module 5, creates additional force, which pulls the head and tail parts of the scraper by the steel cable 7. Under the action of the total force, the scraper moves forward along the confuser 2, while the following umbrella-shaped module 6 of the head part comes into contact with the ribs 3 of the confuser 2, the dome 13 of which deforms with the formation of four longitudinal folds, reduces its perimeter and diameter and enters the pipe 1 (with a diameter dh) of the heating part of the radiation coil of the furnace. As the scraper moves along the pipe 1, the shape of the remaining modules of the head part accordingly changes. The modules 8 of the rear part of the scraper after passing through the confuser 2 and entering the pipe 1 change their shape slightly and retain their functional qualities.

A scraper moving relative to the stationary walls of the furnace coil pipe, with a drastic type notch applied to the surface of the tips 22 of the spokes 21 of the frame of the modules 8 of the tail, directed by cutting edges towards the movement, scrapes and destroys traces, islands, layers of coke deposits, transfers them in the form of powder, crumbs, pastes into the volume of the liquid phase and carries them out of the pipes of the furnace coil. When the scraper exits from the narrow pipe (dн) of the heating part of the radiation coil to the wider pipe (d _c ) of the socking section, umbrella-shaped module 6 compressed within the limits of elastic deformation (construction made of radial steel spokes together with a steel fabric dome attached peripherally to a flexible ring hoop from a flat zigzag spring) takes its original shape and restores its functional properties, providing traction and erosion properties and free passage of the scraper through curved sections furnace coil.

Joint cleaning of radiation pipes of the coil of the furnace of various diameters from coke deposition is carried out until the pressure gradient on the coil is restored to the operating norm.

The table below shows the indicators of the cleaning process of the radiation pipes of the furnace coil using the proposed and known devices. From the data given in the table, it can be seen that the proposed invention, thanks to the modernization of the known device for cleaning the furnace coils by introducing original elements of the material design of the cleaning process, allows for the joint cleaning of radiation pipes of the furnace coil of various diameters from coke deposits on the go, without stopping the process processing of oil residues.

Thus, the present invention allows for joint cleaning of the pipes of the coil of the furnace of various diameters and thereby increase the efficiency of the cleaning process of radiation pipes, reduce the cleaning time and downtime of equipment for repair and significantly reduce capital and operating costs.

Table. The indicators of the cleaning process of the radiation pipes of the furnace coil The name of indicators unit of measurement Ways prototype proposed Duration
cleaning ability of radiation pipes of the heating part of the furnace coil (⌀127 × 10 mm) hour 1) without stopping (“on the go”); 1) without stopping (“on the go”); 2) 3 ÷ 14 - cleaning on the hot circulation of the gas oil installation 2) 2 ÷ 12 - cleaning on the hot circulation of the gas oil installation Duration
cleaning ability of radiation pipes of the socking section of the furnace coil (⌀152 × 10 mm) hour 7 ÷ 10 operations: stop, purge, steaming, cleaning, nitrogen purge, pressure testing, start 1) without stopping (“on the go”); 2) 2 ÷ 12 - cleaning on the hot circulation of the gas oil installation Duration
idle time
socking sections
and installation hour 40 ÷ 50 1) no downtime; 2) 3 ÷ 14 - joint cleaning of pipes of various diameters in one pass

Claims (13)

1. Installation for cleaning chimneys of various diameters from coke deposits, designed for a furnace with convective and radiation coil pipes, consisting of a heating part and a socking section, containing a loading device for a scraper, a starting device for a scraper, an output device for a scraper, a separator-trap for a scraper and a scraper carrier flow supply system associated with an oil product processing unit, characterized in that the above devices have an inner pipe diameter equal to the diameter t K soaker section, wherein the triggering device is provided with a tapered adapter from the pipe confuser-start device for radiative heating portion of the furnace coil. 2. Installation according to claim 1, characterized in that the confuser is made with an opening angle (compression) of 30 ÷ 60 ° and is equipped with four internal radial ribs 2 ÷ 5 mm thick welded to the inner surface of the cone with the profile of the ribs repeating the outer profile of the surface of the confuser , and a height equal to half the difference between the inner diameters of the pipes of the socking section and the heating part of the radiation coil of the furnace. 3. A device for cleaning chimneys containing a scraper, including the head and tail parts with scrapers connected by a connecting element, characterized in that at least two umbrella-like modules formed by a flexible frame and a dome are placed in the head part, the diameter being the first of them corresponds to the diameter of the heating part of the radiation coil of the furnace, and the diameter of the second corresponds to the diameter of the coil of the socking section, while the aforementioned frame consists of radial spokes fastened at one end of the head and on the other hand, with a flexible annular hoop, the head comprising a sleeve with a collar and a disk element that are fastened with knitting needles and a dome, and at least one umbrella-like module formed by a flexible frame is placed in the tail part, and the frame of the umbrella-like tail module part consists of radial knitting needles fastened at only one end by a head, and tips with scrapers are placed on the other end of radial knitting needles, while the head contains a sleeve with a side and a disk element that are fastened with knitting needles, and with The connecting element is equipped with dividing links. 4. The device according to claim 3, characterized in that three umbrella-shaped modules are installed in the head and tail of the scraper. 5. The device according to claim 3, characterized in that the dome of the umbrella-shaped element of the head is located inside the frame. 6. The device according to claim 3, characterized in that the dome of the umbrella-shaped module of the head is made of woven steel or carbon fiber. 7. The device according to claim 3, characterized in that the frame of the umbrella-shaped module of the head includes eight spokes, and the frame of the tail of the twenty-four spokes. 8. The device according to claim 3, characterized in that the spokes of the umbrella-shaped modules are stamped from elastic steel sheet or from a wire with a thickness of 1.5 ÷ 2.0 mm and a length of 1.7 ÷ 1.8 of the radius of the pipe of the heating part of the furnace coil and socking sections. 9. The device according to claim 3, characterized in that the connecting element between the head and tail parts is made in the form of a steel cable. 10. The device according to claim 3, characterized in that the dividing links are made in the form of springs or ball or elliptical washers placed between umbrella-shaped modules and compressed by a nut and a pin mounted on the end of a steel cable. 11. The device according to claim 3, characterized in that the tips with the spokes of the umbrella-shaped module of the tail have a spherical or oval shape with a transverse diameter of 5-7 mm, the surface of which is covered with a notched type notch or equipped with scrapers. 12. The device according to claim 3, characterized in that the sleeve of the head of the head of the umbrella-shaped module is installed so that the rim is placed outside the head of the frame, and the sleeve of the head of the tail is installed so that the rim is placed inside the head of the frame. 13. The device according to claim 3, characterized in that the flexible annular hoop is made in the form of a zigzag spring.

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