RU2386009C2 - Adiabatic column - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: adiabatic column includes co-axial located sections of pipes between which it is located heat insulator and units of connection, including clutch. Additionally in units of joints into butts of pipes there are pasted non-metallic heat-insulating bushings, outfitted by chemically thermal-resistant annulars. Additionally heat insulator corresponds to polymer with impregnated glass microspheres, filled by inert gas.

EFFECT: structure simplification and increasing of heat-insulating effect.

2 cl, 1 dwg

Description

The invention relates to the oil and gas industry, in particular to the design of thermally insulated pipes and pipe joints in a thermally insulated column.

The invention can be used in producing oil and gas wells to prevent the formation of paraffins and gas hydrates, as well as thawing wells in permafrost zones of the Far North.

A heat-insulated column is known, including coaxially arranged pipes, between which heat-insulating material and guide lunettes are located, nodes of the connection of the inner pipes and nodes of the connection of the outer pipes, the upper of which has an outer collar and is covered by the lock of the connection node with the placement in the cavity formed between the upper outer pipe and a lock connected by a thread with the latter, a pressure nut and a sealing element located between the thrust end of the pressure nut and an external collar identical to the external at the collar of the upper outer pipe, and the lock of the connection unit of the outer pipes is made in the form of a coupling nut with an inner protrusion and a bore with the possibility of placing an outer collar of the outer pipe and a sealing element located between the inner protrusion of the coupling nut and the outer collar of the lower outer pipes (RF Patent No. 2090736, ЕВВ 17/00, 1997).

A thermally insulated column is known, including coaxially arranged pipes, between which heat-insulating material is placed, rigid conductors connecting the internal pipes to the external pipes, and connection nodes including a trapezoidal thread coupling, the connection being sealed with a steel ring placed between the end surfaces of the adapters (Design of heat-insulated tubing for pumping coolant into RNTS oil reservoirs. V.V. Bobrovsky et al. Machines and oil equipment. IIOENG 1979, №6).

The disadvantage of both columns is the complexity of the design, the low reliability of the connections of the sections when the temperature rises.

The closest in technical essence is a thermally insulated column, including coaxially located inner and outer pipes, between which is placed a thermally insulating material and nodes of their connection, including a sleeve. The column at the pipe connection nodes is equipped with a steel pipe coaxially to which sections of thermally insulated pipes are installed, and the nodes additionally include a duralumin sleeve, fluoroplastic rings and a heat-insulating layer made of asbestos-fabric and aluminum tapes (RF Patent No. 2238388, ЕВВ 17/00, 2004, prototype) .

The disadvantage of the design is that the inner and outer pipes are connected by welding, which leads to the formation of a thermal bridge at the joints and dramatically reduces the thermal insulation effect of both the pipe itself and the column as a whole. Another disadvantage is the low reliability of the connection of sections of thermally insulated pipes due to the complexity of the design with significant costs for the production and maintenance of columns.

The aim of the invention is to simplify the design while increasing the insulating effect, reliability and durability of the structure, as well as reducing the cost of production and monitoring during operation of the entire column.

This result is achieved due to the fact that the thermally insulated column, including coaxially located pipe sections, between which the insulating material is located and their connection nodes, including the coupling, is equipped with non-metallic thermally insulating sleeves glued into the ends of the pipes, and the insulating material is a polymer with interspersed glass microspheres, filled with inert gas, moreover, non-metallic thermally insulating sleeves are equipped with chemically heat-resistant rings.

The drawing shows a thermally insulated column.

The thermally insulated column consists of coaxially arranged sections of the inner tubes 1 and outer tubes 2, glued non-metallic thermally insulated sleeves 3 with chemically heat-resistant rings 4. The outer tubes 2 are threaded for screwing on the coupling 5. The inner tube 1, outer tube 2 and bushings 3 form a sealed space, in which a polymer insulating material 6 is installed with interspersed glass microspheres filled with an inert gas.

The device operates as follows. The nipple part of the section of the insulated pipe 2 is screwed into the sleeve 5, connecting the sections of the insulated column. At this time, the glued non-metallic thermally insulated sleeves 3 come into contact with their surfaces and with the help of chemically heat-resistant rings 4 provide additional sealing of the connection.

The proposed thermally insulated column in comparison with the prototype allows not only to increase the heat-insulating effect, but also to compensate for the linear expansion of the outer pipe while maintaining the integrity of the structure, which reduces monitoring costs during operation. Assembly of the column does not require complicated special equipment and can be carried out both in the factory and in the field.

During the development and testing of wells No. 1, 2 of cluster No. 1 of the Russkoye field in order to block the permafrost zone in order to maintain the temperature of the oil produced, heat-insulated field pipes of the claimed design were tested. According to the characteristics of the well, the reservoir temperature was 17 ° C, the temperature at the wellhead reached 14 ° C. The temperature loss was 3 ° C, which ensured minimal heat loss during transportation of products from the bottom to the wellhead.

Claims (2)

1. A thermally insulated column, including coaxially arranged pipe sections, between which a thermally insulating material is located and nodes of their connection, including a sleeve, characterized in that the thermally insulated column at the connection nodes is provided with non-metallic thermally insulated sleeves glued into the ends of the pipes, and the thermally insulated material is a polymer with interspersed glass microspheres filled with inert gas. 2. The column according to claim 1, characterized in that the non-metallic heat insulating sleeves are equipped with chemically heat-resistant rings.

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