RU2782920C1 - Supporting device for fastening the reactors of delayed coking units - Google Patents

Abstract

FIELD: oil refining and petrochemical industries.

SUBSTANCE: invention relates to the oil refining and petrochemical industries and can be used for the installation of vertical devices, such as reactors for delayed coking units (DCU). The substance of the invention lies in the support device for fastening the reactors of delayed coking units. The device contains paws for mounting the reactor on a pedestal. Each leg consists of a base plate with stiffeners attached to a curved plate connected to the reactor vessel and repeating its shape. The base plate of the paw has the ability to move in the radial direction, and the vertical movement and turning of the device is limited by fasteners. The supporting surface of the pedestal is curved in the radial direction, and its height changes in such a way that it is the largest in the center above the pedestal, and the smallest at the beginning and at the end.

EFFECT: increasing the reliability of fastening of vertical devices.

3 cl, 3 dwg

Description

The invention relates to the oil refining and petrochemical industries and can be used for the installation of vertical apparatus, such as reactors for delayed coking units (DCU).

In the body of devices operating in the cyclic mode "heating-cooling", for example, such as ultrasonic reactors, alternating thermal stresses arise, reaching significant values in the places where the body is attached to the support. Fatigue cracks form in the welded joint of the body with the support [Pokhodenko N.T., Brondz B.I. Operation and ways to improve the reliability of the reactors of delayed coking units. - M., 1980. - 56 p. Ser. Operation, modernization and repair of equipment in the oil refining and petrochemical industries: Thematic review / TsNIITEneftekhim]. The magnitude of stresses and the rate of formation of thermal fatigue cracks in the weld are determined both by technological factors (high rates of heating and cooling of the reactor pressure vessel) and by the support design (increased support rigidity).

Various options for support devices were proposed to improve the reliability of fastening of the ultrasonic reactors.

In the patent [RU 2410595, MKI F16M 11/00, C10B 1/04, Support for fastening vertical apparatuses, 03/19/2009], a support for fastening vertical apparatuses is proposed, which improves the reliability of their fastening by reducing the impact of dynamic wind and/or seismic loads.

This is achieved by the fact that in the support containing the support paws, each of which is a support plate with a stiffening rib, to which a curved plate is attached with the possibility of mating with the lower part of the apparatus, repeating the shape of the lower bottom of the apparatus, the upper part of the stiffening rib is provided with an elastic means for pinching the apparatus, installed with the possibility of interfacing with the apparatus.

The disadvantages of this technical solution are manifested in the following:

- due to the significant weight of the apparatus, its sliding on the curved plates, which follow the shape of the lower bottom of the apparatus, is practically impossible. The apparatus will be motionless, and the loads arising from its expansion will act on the curved plate. In this case, the friction force between the body of the apparatus and the curved plates will increase significantly, which will further complicate its movement. Due to the high rigidity of the ribs, the force will be transmitted through them to the base plate. And since it is rigidly clamped by anchor bolts and its movement in the radial direction is not provided, it is the anchor bolts that will be subjected to the greatest breaking loads;

- vertical ribs will provide high rigidity of the support, as a result of which the welds connecting the rib to the curved plate and to the base plate will be subjected to high loads, as a result of which they will be damaged, moreover, since the ribs in their lower zone adjacent to the apparatus body create favorable conditions for creating high temperature gradients, cracking in these welds will sharply increase;

- the springs are in the zone of high temperatures, which will significantly affect the strength characteristics of the material from which they are made;

- the presence of additional structural elements that have thermal contact with the body of the apparatus will contribute to significant heat losses, to reduce which it will be necessary to complicate the design of thermal insulation.

Known support structure for the reactor ultrasonic proposed in the patent [US 8221591, MKI S10B 7/14, Coking drum support system, 06/17/2012], which provides retention of the coking reactor with a lower bottom of a conical shape on the base. It contains a cylindrical skirt with a conical support shell welded to it, which mates with the conical bottom of the reactor. The connection between the skirt and the conical shell is reinforced with radial stiffening ribs.

The invention is intended to improve the reliability of the structure due to the possibility of free movement of the body relative to the annular support to reduce loads in welds.

The main disadvantage of this design is that, due to the significant weight of the reactor, the radial force acting on the weld connecting the cylindrical skirt to the conical shell, as well as the skirt itself, will be subjected to significant loads, which can lead to damage during operation. In addition, axial deformations of the reactor vessel (curvature along the axis) will create additional loads on the support and stiffeners, which will also contribute to the occurrence of damage.

Known supporting design of the apparatus, adjusting to the thermal cycle, presented in the patent [US 9643145, MKI C10B 29/04, Pressure vessel restraint for accommodating thermal cycling, 05/09/2017] consisting of a cylindrical body, and a cylindrical skirt connected to it with a lower flange, with rectangular slots. The device is fixed to the base by means of shaped elements with ribs entering these slots with a gap.

Curly elements limit within the specified limits the vertical movement of the apparatus due to the gap between them and the lower flange of the cylindrical skirt.

The device allows the device to move freely in a horizontal plane with thermal expansion (compression) of the body.

The disadvantages of this analogue are as follows:

- the design of the supporting device is quite complex, due to the complex shape of the curly elements, as well as the many holes for their fastening;

- the presence of a large number of mating surfaces in the attachment points will create problems for moving in a horizontal plane during thermal expansion (compression) of the body, due to possible distortions caused by the curvature of the apparatus axis due to a significant inhomogeneity of the temperature field inside the apparatus during coking and coke cooling operations, as well as due to possible damage to the mating surfaces of curly elements and slots in the lower flange of the cylindrical skirt;

- in addition, axial curvature of the body of the apparatus will contribute to jamming of the elements of the attachment points and their damage.

The closest in technical essence to the claimed invention is a skirt support for ultrasonic reactors proposed in the patent [US 7871500, MKI C10B 29/04, Coke drum skirt, 01/18/2011]. The invention is aimed at reducing the stresses in the reactor pressure vessel and its supporting structures that occur during technological operations, which ensures an increase in the reliability of the reactor operation.

The support for the installation contains a horizontal centering plate, along which supports connected to the reactor through a backing sheet, consisting of a horizontal support plate and 2 ribs, can move. Due to the fact that the horizontal base plate is made of a material with a low coefficient of friction, it is facilitated by its sliding on the surface of the centering plate.

To keep the apparatus from tipping over, clips are used, which are fastened with bolts and nuts to the pedestal.

The fastening elements of the clips can have slots that ensure free passage of the ribs inside them during radial movements of the supports due to thermal deformations of the reactor pressure vessel.

The disadvantages of the prototype are as follows:

- a significant number of supports will lead to the fact that during thermal deformations of the reactor vessel (axial and radial) under operating conditions, jamming in the clips will occur;

- the manufacture of support elements from anti-friction materials will not allow to provide their required strength characteristics due to the fact that welding of dissimilar materials will be required;

- in the case of the use of anti-friction coatings for structural elements, the costs for the manufacture of supports will increase significantly;

- the design of the supports creates favorable conditions for the occurrence of large temperature gradients in the welds of the connection of the reactor vessel with the backing sheet and the backing sheet with the support ribs, which will contribute to the appearance of damage in them during operation.

An analysis of the considered technical solutions allows us to conclude that in order to eliminate the conditions for the occurrence of damage in the supporting structures of the reactors of delayed coking units, it is necessary to ensure the radial movement of the structural elements of the supports and the possibility of angular rotation of the apparatus in the supporting structure.

The technical result to which the invention is directed is to increase the reliability of fixing vertical apparatuses by reducing the loads resulting from thermal expansion of the apparatus body.

The essence of the invention is as follows.

The support device for fastening the reactors of delayed coking units contains paws for mounting the reactor on a pedestal, each of which consists of a base plate with stiffeners attached to a curved plate connected to the reactor vessel and repeating its shape, and the base plate of the paw can move in the radial direction along the supporting surface of the pedestal, and the vertical movement and turning of the apparatus is limited by fasteners consisting of anchor bolts passed through coaxial holes in the base plates of the paws and the pedestal, spring washers and nuts. Unlike the prototype, the supporting surface of the pedestal is curved in the radial direction, and its height above the pedestal changes in such a way that it is the largest in the center above the pedestal, and the smallest at the beginning and end.

Installation additionally on the anchor bolt of each of the legs, fixing the washers and springs, allows you to provide a constant preload of all the connection elements during the movements of the reactor vessel during its operation.

Installing a plate of anti-friction material between the base plate of each leg and the pedestal will improve the conditions for moving the legs, due to the reduction of the friction force between the base plate and the pedestal.

Thus, the inventive support for mounting vertical devices meets the criterion of the invention "novelty" and "inventive step".

The invention is illustrated by the following figures.

Figure 1 shows a General view of the support device, combined with the section;

Figure 2 is a side view of the support device;

Figure 3 is an enlarged image of the support device.

The support device for fastening the reactors of delayed coking units, contains paws for installing the reactor 1 on the pedestal 2, each of which consists of a base plate 3 with stiffeners 4 attached to a curved backing sheet 5 connected to the reactor vessel 1 by known methods and repeating its shape .

The support plate 3 of the paw has the ability to move in the radial direction along the support surface of the pedestal 2.

Vertical movement is limited by fasteners, consisting of anchor bolts 6, passed through holes in the support plates 3 and pedestal 5, springs 7, washers 8 and nuts 9.

Additionally, fixing washers 10 and 11 are installed, preventing the radial displacement of the coils of the spring 7 relative to the axis of the anchor bolt 6.

The supporting surface of the pedestal is curved in the radial direction, and changes in such a way that in the center it has the greatest height above the pedestal, and the smallest at the beginning and end.

Changing the height of the supporting surface of the pedestal is provided by known methods, for example, by surfacing wear-resistant material 12.

Between the support plate 3 and the support surface of the pedestal 2 there is a plate 13 made of anti-friction material, such as bronze.

The support device is mounted on a concrete base 14 in known ways.

The work of the reference device is carried out as follows.

During heating (cooling) of the delayed coking reactor 1, its body expands (contracts). At the same time, due to the change in the dimensions of the reactor, as a result of which there is a radial movement of each of the support plates 3 along the support surface of the pedestal 2.

Due to the significant size of the delayed coking reactor and the high inhomogeneity of the temperature field during the main technological operations (coking and cooling of coke), not only does its size change radially, but the reactor vessel 1 also warps, as a result of which the support plates 3 rotate at a small angle, and this angle depends in the most random way on the parameters of the current technological mode.

Sliding of the support plate 3 along the curved surface of the pedestal 2 reduces the load both on the delayed coking reactor vessel 1 and on the connection of the support device with the vessel (the weld between the curved backing sheet 5 and the vessel 1).

The installation of a plate 13 made of anti-friction material makes it possible to improve sliding, which provides an even higher reduction in loads.

In addition, this additional plate 13 impairs heat removal from the foot to the pedestal, which reduces the temperature gradient in the zone of welded joints of the backing sheet 5 with the reactor vessel, which reduces thermal stresses caused by uneven linear expansion of the reactor vessel 1 and backing sheet 5.

Anchor bolts 6, passed through the holes in the support plates 3 and pedestal 5, and fixed with washers 8 and nuts 9 limit the vertical movement.

Additionally, fixing washers 10 and 11 are installed on each foundation bolt to prevent the radial displacement of the coils of the spring 7 relative to the axis of the anchor bolt 6, which changes its position during the operation of the reactor due to thermal deformations of the body and changes in the position of the support legs.

Since the springs 7 are placed inside the pedestal, they are not heated by radiation from the reactor vessel, as a result of which the deterioration of their technical characteristics due to high-temperature exposure does not occur.

The use of the proposed support device will allow in comparison with the prototype:

- reduce damage to delayed coking reactor vessels;

- to increase their overhaul run;

- to reduce terms of carrying out repair work;

- reduce the cost of material resources for repair work;

- increase the reliability of fastening of reactors by reducing the loads resulting from thermal deformations of their vessel.

Reducing the time for repairs of reactors makes it possible to significantly increase the productivity of delayed coker units.

The manufacture of the proposed support device is not difficult for machine-building enterprises producing equipment for oil refining.

Installation and maintenance of the proposed support device can be provided as part of the typical work performed by construction and installation organizations at oil refineries and petrochemical enterprises.

Claims (3)

1. A support device for fastening reactors of delayed coking units, containing paws for installing the reactor on a pedestal, each of which consists of a base plate with stiffeners attached to a curved plate connected to the reactor vessel and repeating its shape, and the base plate of the paw has the ability to movement in the radial direction along the supporting surface of the pedestal, and the vertical movement and turning of the apparatus is limited by fasteners, consisting of anchor bolts passed through coaxial holes in the supporting plates of the paws and the pedestal, spring washers and nuts, characterized in that the supporting surface of the pedestal is curved in radial direction, and its height above the pedestal changes in such a way that in the center above the pedestal it is the largest, and at the beginning and at the end - the smallest. 2. The support device according to claim 1, characterized in that additional fixing washers and a spring are installed on the anchor bolt of each of the paws. 3. Support according to claim 1, characterized in that a plate of anti-friction material is installed between the base plate of each paw and the pedestal.

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