RU2112864C1 - Thermally-insulated pipe string - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: this can also be used in other industries for thermal insulation of pipelines. Space created between plunger and inner pipe is filled with thermal-insulating material. Rigidly secured is guiding steady rest which is movable in inner tube. After that, inner pipe together with housing-plunger is inserted into outer pipe with flange and sealing unit. Installed on upper end of inner pipe is cap-body carrying preliminarily installed and clamped down sealing device. Cap-body is secured to flange of outer pipe of first section of string. This is done after connecting final section to sinking intermediate section and lower section of thermally-insulated pipe string. This string is rigidly secured by installing it on casing pipe at well head through flange of string outer pipe. Ready thermally-insulated sections are connected together to produce string which is lowered into well in same procedure as applied to pump-and-compressor pipes. In this case, initially coupled are inner pipes of sections, and placed at joint of two sections between guiding steadyrests is thermal-insulating material. Then, after preliminarily lowering of outer pipe, it is connected by means of power-operated pressure nut with tipping coupling sleeve, with nut located on upper part of outer pipe of string, and they are tightly clamped together, so as to seal off coupling joint of string section. EFFECT: higher efficiency. 2 cl, 5 dwg

Description

 The invention relates to the oil and gas industry, in particular to the production of oil and gas using injection of coolant in the reservoir, and can be used in other sectors of the economy for thermal insulation of pipelines.

 A heat-insulated column is known, including coaxially arranged pipes, between which heat-insulating material is placed, inner pipe connection nodes, external pipe connection nodes, including male and female parts connected by a thread, a sealing element located between them and a pressure nut placed above it, and a thread nut connected to the female part compounds [1].

 The disadvantage of this thermally insulated column is that when the threaded connection is stretched from the loads caused by the weight of the column and alternating thermal stresses, the contact force of the pressed sealing elements decreases, which reduces the sealing of the connection nodes.

 Known thermally insulated column, taken by us as a prototype, including coaxially located pipes, between which heat-insulating material is placed, nodes of the connection of the inner pipes and nodes of the connection of the outer pipes, including the male and female parts connected by the thread, the sealing element located between them and the pressure nut located above it connected by a thread with the female part of the connection, and the male pipes in the connection unit of the outer pipes have located under the sealing element ntom external collar, and the threaded section of the connection node of the outer pipe is located on the latter [2].

 The disadvantage of the above thermally insulated columns is the likelihood of jamming at the junction of the sections of the outer pipes (when moving the pipes of the column when heating and cooling) at high temperatures, when the temperature elongation of the pipes compared with the insulated outer pipes becomes significant. Due to jamming inside the outer pipe, the inner pipe, being jammed from tension, curls up and bends (like a spring) and, as a result, jamming leads to destruction of the outer pipe, i.e. renders the column itself unusable.

 The guide lunettes are in contact with the outer tube almost the entire surface in diameter, i.e. at the same time, gaps (sections) remain uninsulated, which is why local thermal bridges appear in these gaps, worsening the working conditions of the casing that is cemented outside.

 The objective of the invention is to increase the reliability of sealing, improve the conditions of assembly and sliding.

 The problem is solved in that in a thermally insulated column, including coaxially located sections of the outer and inner pipes, between which the insulating material is placed, the nodes of the connection of the inner and outer pipes, the latter of which are made in the form of a folding nut-nut covering the ends of the outer pipes and connected with it a threaded pressure nut with a sealing element located between the ends of the outer pipes having outer collars and a coupling nut, located between the inner and outer pipes on branching lunettes, and the thermally insulated column consists of an upper, intermediate and lower sections, while on the inner tube of the upper section there is a plunger casing rigidly connected to it, which, in turn, is rigidly connected with a guide lumen installed with the possibility of sliding relative to the inner pipe, and in the intermediate and lower sections of the thermally insulated column, the guide lunettes are rigidly connected to the inner tube, while the guide lunettes are in the form of an equilateral triangle with three points of support on the tops of which there are made radial channels with placement in the last sliding plungers, the ends of which are spherical on the inner surface of the outer pipe, and the sliding plungers are spring loaded with elastic elements on the side of the inner pipe.

 The problem is also solved by the fact that on the upper section of the column the upper free end of the inner pipe with a casing-plunger is mounted telescopically relative to the outer pipe, rigidly connected with the casing-cap, and the outer pipe is fixedly mounted on the casing.

 The problem is also solved by the fact that the sliding plungers are made in the form of balls, while the total gap between the inner surface of the outer pipe and the ball is not more than 1/4 of the diameter of the ball.

Salient features of the claimed invention in comparison with the prototype are:
the thermally insulated column consists of the upper, intermediate and lower sections, while on the inner tube of the upper section there is a plunger casing rigidly connected to it, which, in turn, is rigidly connected to a guide rest installed with the possibility of sliding relative to the inner pipe, and in the intermediate and lower sections of thermally insulated columns guide lunettes are rigidly connected with the inner pipe;
while the guide lunettes are in the form of an equilateral triangle with three points of support, on the tops of which there are radial channels with placement in the last sliding plungers, the ends of which are spherical on the inner surface of the outer pipe, and the sliding plungers are spring loaded with elastic elements on the side of the inner pipe;
on the upper section of the column, the upper free end of the inner pipe with the casing-plunger is mounted telescopically relative to the outer pipe, rigidly connected with the casing-cap, and the outer pipe is fixedly mounted on the casing;
sliding plungers are made in the form of balls, while the total gap between the inner surface of the outer pipe and the ball is not more than 1/4 of the diameter of the ball.

 The above significant distinguishing features were unknown to us from the patent and scientific and technical information and meet the criterion of "novelty", i.e. salient features are "new."

 Given that the above significant distinguishing features are not obvious to the average person skilled in the art, we believe that the invention meets the criterion of "inventive step".

 As for the "industrial applicability", the invention meets this criterion, since it has completed working drawings, all the necessary documentation and preparations are underway for the manufacture of the prototype.

 In FIG. 1 - 2 shows a thermally insulated column in the context, consisting of three different sections: the upper (figure 1), intermediate (figure 1, 2, 5) and lower (figure 2); figure 3, 4 is a section aa in figure 1, 2; figure 5 shows the intermediate section of a thermally insulated column.

 A thermally insulated column consists of three different sections.

 The upper section (Fig. 1) consists of an inner pipe 1 with a connection node, for example, a sleeve 2, a casing-plunger 3 mounted on the inner pipe 1 and rigidly connected with it at the upper end, the upper connecting ring 4, welded to the inner pipe 1 and the casing-plunger 3, the guide lunette 5 (Fig. 3, 4), rigidly connected with the casing-plunger 3 and mounted with the possibility of sliding relative to the inner tube 1. The guide lunette 5 has the shape of an equilateral triangle with three support points, on the tops of which are made radial channels with placement in the last sliding plungers 6 (6a, 6b), the ends of which are spherical on the inner surface of the outer pipe, and the sliding plungers 6 (6a) are spring-loaded by elastic elements from the inner pipe side 7. Thermal insulation material 8 is placed between the inner pipe 1, the casing-plunger 3 and the outer pipe 9. The outer pipe 9 (bottom) is joined with the connection node, for example, at the end of the pipe 9 with the outer collar 10, a pressure nut 11, threaded onto the outer pipe 9, a ring 12, a sealing e by the element 13. The outer pipe 9 at the top has an inner shoulder 14 with a groove for accommodating an oil seal 15. The upper free end of the inner pipe 1 with the casing-plunger is mounted telescopically relative to the outer pipe 9, rigidly connected with the casing cap 16. Between the inner bore of the casing - the cap 16 and the casing-plunger posted by the sealing assembly 17, which is pressed by the flange 18. The outer pipe 9 with the upper end is rigidly connected to the housing by a cap 16 by means of a flange-cup 19 and is mounted motionlessly on the casing 20. glass 19 provides a drainage hole 21.

 For the best use of the invention, it is advisable to slide the plungers 6 (Fig. 3) in the form of balls 6a, 6b (Fig. 4), while the total gap between the inner surface of the outer pipe should be no more than 1/4 of the diameter of the ball.

 The intermediate section of FIG. 1, 2, 3, 4 and 5 of a thermally insulated column consists of an inner pipe 22 with a connection unit, for example, with a coupling 2, an external pipe 23 with a connection unit, for example, at the ends with external collars 10, a hinged nut-nut 24, a pressure force nut 11, sealing elements 13, rings 12, guide lunettes 5, rigidly connected to the inner pipe 22 at certain distances from its ends, sliding plungers 6, elastic elements 7 and heat-insulating material 8.

 The lower section of FIG. 2 consists of an inner pipe 25 with a connection unit, for example, a sleeve 2, an outer pipe 26 with a connection unit, for example, at the upper end with an external collar 10, a hinged sleeve nut 24, a ring 12, a sealing element 13, a lower connecting ring 27, welded to the inner 25 and outer 26 pipes, guide rest 5, rigidly connected to the inner pipe 25, the sliding plunger 6, the elastic element 7 and the insulating material 8.

 The temperature of the injected agent inside the pipe is controlled by a thermocouple with a cable passed through a lubricator (hole 28). Thermocouples with cable are not shown in the drawing. The hole 28 is sealed with a plug 29 and gaskets 30 (Fig. 1).

 The manufacture of individual sections, the assembly of the column at the well and its work is as follows.

 Assembling sections of thermally insulated columns is carried out in the factory.

 The assembly of the upper section of FIG. one.

 The upper section is equipped with a casing-plunger 3, located in the annular space and rigidly connected with the upper (according to the scheme) end of the inner pipe 1 and free - with the lower end.

 The cavity formed between the casing-plunger 3 and the inner pipe 1 is filled with heat-insulating material 8. Then, to the lower (according to the diagram) end of the casing-plunger 3, a guide rest 5. The total length of the casing-plunger 3 is determined in depending on the length of the extension of the inner pipe 1 when the coolant (steam or condensate) is injected into the formation: on the influence of temperature stress (on the temperature difference between the inner 1 and outer 9 wall of the pipes), the depth of the well, i.e., on the length of the thermal insulation Rowan column, the column weight and constructions Packing upper column section. Next, the inner tube 1 with the casing-plunger 3 is placed in the outer tube 9 with the flange-cup 19 and the gland 15, after which the cap body 16 is installed on the upper end (according to the diagram) of the inner tube 1 with the gland assembly 17 installed and pre-pressed, and attach the housing-cap 16 to the flange-cup 19 of the outer pipe 9 of the first section of the column. The sealing of the annular space, where the heat-insulating material 8 is located, is carried out by the stuffing box 17 and the stuffing box 15. The stuffing box 17 is located between the inner groove of the body-cap 16 and the casing-plunger 3 and between the inner groove of the inner collar 14 of the outer pipe 9 and the casing-plunger 3.

 The sealing assembly 17 is regulated externally (at the wellhead) by means of a flange 18 located in the cavity between the flange of the body-cap 16 and the flange-cup 19 of the outer pipe 9, the studs with one end screwed to the flange 18 and the other end extended outward through the mounting holes flange of the cap body 16, and nuts screwed externally to these studs. Callouts from these studs and nuts in FIG. not shown.

 The joining of the upper section to the lower thermally insulated pipe of the column is performed in the same way as the previous sections of the column.

 After joining the last (upper) section to the lower intermediate and lower sections of the thermally insulated string, the last (upper) is rigidly fixed by hanging it on the casing 20 at the wellhead with the flange of the flange-cup 19 of the outer pipe 9.

 Assembly of the intermediate section.

 To the ends of the inner tube 22 of the section (at a certain distance from the ends), guide lunettes 5 are rigidly bonded (welded) and the coupling 2 is screwed onto one end of it to the inner tube 22, between the guide lunettes 5, alternating layers of heat-insulating material 8, foil and basalt are wound canvas. The last outer layer is fixed with wire ties. Then, on the outer pipe 23, a connecting hinge nut-nut 24, an intermediate ring 12, a sealing element 13 are sequentially put on one side and a pressure nut 11, an intermediate ring 12 and a sealing element 13 are then inserted. Then, annular rings are welded at the ends of the pipe 23 collars 10. Thus prepared inner pipe 22 with thermal insulation and guide lunettes 5 are placed inside the outer pipe 23.

 To transport sections at their ends put on (screw) caps caps.

 Ready-made heat-insulating sections are connected to the column and lowered into the well as well as tubing. First, the inner pipes are connected and at the junction of the two sections, between the guide rests 5, the heat-insulating material is laid 8. Then, after lowering the outer pipe 23, they are connected using the pressure nut 11 with the hinged nut-nut 24 located on the upper part of the outer pipe 23 columns, and press them tightly, sealing the connecting junction of the column section. This is the sectional assembly of the intermediate sections of the column at the wellhead.

 The lower section and the adjacent intermediate section are connected at the wellhead as well as the intermediate sections to each other.

 The claimed invention in comparison with the prototype can significantly increase the reliability of the seal, improve the conditions of assembly and sliding.

Claims (3)

 1. A thermally insulated column, including coaxially located sections of the outer and inner pipes, between which heat-insulating material is placed, nodes for connecting the inner and outer pipes, the latter of which are made in the form of covering the ends of the outer pipes, a folding nut-nut and the associated pressure nut thread with a sealing element located between the ends of the outer pipes having outer collars and a nut coupling, lance guides located between the inner and outer pipes, characterized in that the thermally insulated column consists of the upper, intermediate and lower sections, while on the inner tube of the upper section there is a plunger casing rigidly connected to it, which, in turn, is rigidly connected to a guide rest installed with the possibility of sliding relative to the inner pipe, and in the intermediate and the lower sections of the thermally insulated column, the guide lunettes are rigidly connected to the inner pipe, while the guide lunettes are in the form of an equilateral triangle with three points of support, at the tops of which On the other hand, radial channels are made with placement in the last sliding plungers, the ends of which are spherical on the inner surface of the outer pipe, and the sliding plungers are spring loaded with elastic elements on the side of the inner pipe.  2. The thermally insulated column according to claim 1, characterized in that on the upper section of the column the upper free end of the inner pipe with a casing-plunger is mounted telescopically relative to the outer pipe, rigidly connected to the casing-cap, the outer pipe is fixedly mounted on the casing.  3. The thermally insulated column according to claim 1, characterized in that the sliding plungers are made in the form of balls, while the total gap between the inner surface of the outer pipe is not more than 1/4 of the diameter of the ball.

Images