RU177584U1 - GAS PUMPING UNIT - Google Patents

Abstract

A gas pumping unit (GPU) relates to mechanical engineering, in particular to a gas pumping unit with a gas turbine drive, and is designed to compress gas. GPU contains technological blocks having technological pipelines with detachable connection for external connection of technological blocks between themselves and GPU equipment. At the same time, the technological units contain means for inter-unit connection and positioning of the group of pipelines for external connection of the technological unit. The tool is made in the form of a plate rigidly connected to a structural element of the technological unit, in which technological pipelines are provided with a detachable connection. The plate may be made of metal, detachable in the plane of the technological pipelines, may have the same size of the holes for fixing technological pipelines in it. The holes can be equipped with an insert with an inner diameter corresponding to the diameter of the process pipe. The insert can be solid or detachable and fastened in the hole with a thread. The connection of pipelines can be threaded nipple-fitting. On the outer side of the plate near the pipelines, durable inscriptions can be applied to the designation of the pipelines. The technological unit is a compressor unit, a gas turbine engine block, a gas turbine installation block, a gas turbine engine oil supply block, a compressor oil system block, a gas turbine air-channel flushing unit, a fuel gas preparation unit, a buffer gas preparation unit, a separation gas preparation unit, an exhaust gas heat recovery unit , de-icing system unit, gas line monitoring system unit, gas air-cooling apparatus unit, gas separator unit . Improved operational characteristics are provided by increasing the unification of technological units, reducing the time for installation and reconstruction of gas compressor units.

Description

The utility model relates to mechanical engineering, in particular to gas pumping units with a gas turbine drive and is intended for compression of gas.

Known gas pumping units (GPU) with a gas turbine drive according to STO Gazprom 2-3,5-138-2007, approved by the Order of Gazprom dated 06.06.2007 No. 151, in which the main and auxiliary equipment are made in the form of pre-assembled and tied technological communications blocks of maximum factory readiness. From OST 26.260.18-2004 “Technological blocks for the gas and oil industry. General technical conditions ”technological units are known - structurally completed and spatially formed assembly units of a technological installation of a given level of factory readiness, designed to carry out basic and technological processes. GPU, including technological units, can have a block-modular design. In such gas compressor units, technological blocks (modules) can be placed in block containers (block boxes) or openly. Or GPU may include an easy-to-assemble hangar-type shelter, in which case the technological units are connected under a common hangar roof. The gas compressor unit includes the following elements of block production: a centrifugal compressor with auxiliary equipment, a gas turbine engine with auxiliary equipment, a control system, an oil supply system with a cooling unit and auxiliary devices for the oil system, a fuel gas preparation system, auxiliary systems and equipment for starting up and operating the gas compressor unit various modes, the aggregate block of gas air-cooling apparatuses and other elements. GPU technological units contain load-bearing structures, apparatus, equipment (pumps, electric motors, etc.), process pipelines with shut-off, safety, and control valves, measuring, control, and automation equipment. Technological blocks are carried out on their own common frame or in a common building, including in container blocks (block boxes), and contain detachable connections for external (inter-block) connection of the block. In this process pipelines for external connection of the block contain flange or threaded plug-in connections. This technical solution is taken as the closest analogue of the claimed utility model. The disadvantage of such blocks is the lack of unification of technological blocks. GPU technological units, as a rule, are manufactured according to different technical specifications (requirements) and different manufacturers and are characterized by a wide variety of designs and layouts. Moreover, in technological units containing pipelines, each pipeline or bundle of pipelines has a separate external connection to other technological units and other equipment, detachable pipe connections for external connection of technological units are spatially distributed, their axes may not coincide. When assembling blocks of new gas compressor units, when reconstructing old gas compressor units, it is necessary to use special adapter frames, docking units, and special mounting devices. The existing approach to the external connection of technological units requires a lot of time to design their external strapping, the same problem applies to larger devices, for example, the compressor station as a whole. Until each system is designed, the coordinates of external connections will not be set. In addition, during the construction of a gas compressor unit (hereinafter, construction is also understood to mean installation - assembly of a gas compressor unit into a single device), the mutual arrangement of technological units and their arrangement can change. This significantly increases the installation time of the gas compressor unit, complicates the construction and reconstruction of the gas compressor unit, and increases the material consumption due to the need to use special docking units and mounting devices. As an example of such a gas compressor unit, we can cite a gas pumping unit according to the patent for utility model RU No. 115843 (published on 05/10/2012). As an example of GPA technological units, one can cite the oil supply unit of a gas turbine installation according to the patent for utility model RU No. 167152 (publ. 12/27/2016), the aggregate fuel gas preparation unit according to the patent for utility model RU No. 95934 (publ. 10.04.2010), installation for the preparation and supply of buffer gas according to the patent for utility model RU No. 95762 (publ. 07/10/2010).

On the other hand, there are known devices for supporting several parallel pipes at a certain distance, for example, an arm of a group of pipelines along SU No. 1203311 (publ. 07.01.86), containing the support, clamps and clamp retainer, such a device cannot be used in the GPU process unit, since it is attached to the wall and is unreliable. Or the bracket for fastening the screen of pipelines on the bottom of the vehicle is known according to the patent for utility model RU No. 49762 (publ. 10.12.2005), the holder of the patent EP 3002495 A1 (publ. 06.04.2016), these devices are made of plastic and are not reliable, therefore cannot be used in the design of gas compressor units for safety requirements. All of the above devices, in addition, cannot be used in the GPU technological units due to increased vibration loads. It is also known that the engine-generator device is a block container type with a pipe connection function according to the invention patent RU No. 2601677 (published on November 10, 2016), which contains two technological blocks made in block containers (block boxes) having a pipeline connection between themselves. The ability and accuracy of connecting technological units to each other is determined by a strictly specified arrangement of equipment inside the block containers and the strict location of the block containers themselves, which limits the use of such a device.

The authors were faced with the task of creating the design of a gas pumping unit with improved operational characteristics by increasing the unification of technological units, reducing the time for installation and reconstruction of the gas pumping unit.

To achieve the technical result, a gas pumping unit (GPU) contains technological units, including technological pipelines with a detachable connection for external connection of technological units to each other, while the technological units contain means for interconnecting and positioning a group of pipelines for external connection of the technological unit, made in the form of a plate rigidly connected to the structural element of the technological unit, in which those are rigidly fixed ologicheskie piping equipped with plug connection.

Preferably, the plate of the interconnect and positioning means is made of metal.

In the particular case of the utility model, the plate of the means for inter-unit connection and positioning can be made detachable in the plane of technological pipelines. In another particular case of the execution of the plate means interconnect and positioning can be made with the same size of the holes for fixing technological pipelines in it, in this case, the holes can be equipped with an insert with an inner diameter corresponding to the diameter of the process pipe, the insert can be solid or detachable, insert can be fastened in the hole of the plate using thread.

In the particular case of the utility model, the connection is made threaded fitting-nipple.

In the particular case of executing a utility model on the outside of the plate, the means for inter-unit connection and positioning near the pipelines can be applied in a durable way information labels about the purpose of the pipelines.

In the particular case of the utility model, but not limited to the above list, the technological unit may be a compressor unit, a gas turbine engine block, a gas turbine installation block, a gas turbine engine oil supply block, a compressor oil system block, a gas-air duct flushing block of a gas turbine installation, a fuel gas preparation block, a block buffer gas preparation, separation gas preparation (barrier) gas preparation unit, exhaust gas heat recovery unit, anti-icing system unit, gas control system unit, gas air-cooling apparatus unit, gas separator unit.

The proposed design is illustrated by drawings.

The figure 1 shows the means of interconnecting and positioning a group of pipelines for external connection of the process unit in a perspective view, using the oil supply unit of the GPA gas turbine engine as an example, figure 2 shows a vertical section of the panel of the inter-unit connection according to figure 1, figure 3 shows one example of a technological unit GPA according to the utility model - the oil supply unit of the GPA gas turbine engine - in axonometric projection, where 1 is a means of inter-unit connection and positioning group of pipelines for external connection of the technological unit, 2 - technological pipeline, 3 - detachable connection for external connection of the technological pipeline 2 (for external connection of the technological unit), 4 - frame of the technological unit, 5 - information label about the purpose of the technological pipeline 2.

In the specific example given, the oil supply unit of the GPA gas turbine engine, practically all the pipelines of the unit, with the exception of the oil supply pipe to the oil cooler, the oil supply pipe from the oil cooler and the air discharge pipe, are connected to the inter-unit connection and positioning means, which is determined by the technological features of the unit. In the particular embodiment of the utility model shown, the detachable connection is threaded nipple-threaded and includes a lock nut, an adapter, a union nut, a thrust ring and a nipple sequentially installed at the end of the pipeline. Such a connection is preferable, because unlike a bulky flange detachable connection requiring gradual tightening of the bolts in compliance with the “crosswise” rule, the nipple-nipple connection provides a faster connection of pipelines, more compact

which also makes it possible to compactly bring pipelines to the means of inter-unit connection and positioning. The connection can be flanged, or another known connection can be used, different types of connections can be used in one process unit. In the shown example, the plate of the holding and positioning means is made of metal, and is bolted to the frame of the technological unit. The plate can be made, for example, of a composite material, or of other known materials that provide the necessary strength and rigidity and meet safety requirements. The plate can be attached in any known manner, for example, by welding, both to the frame of the process unit and to other structural elements of the process unit, for example, to the wall of the unit container, the casing of the device. The plate means interconnect and positioning can be made detachable in the plane of the technological pipelines. This facilitates the installation / dismantling of process pipelines and the repair of the process unit. One skilled in the art will recognize that the plate may comprise two or more detachable parts that can be attached to each other by any known method providing the necessary rigidity of the connection, for example using eyelets. The holes for fixing technological pipelines in a plate with the same size, and the use of inserts with an inner diameter corresponding to the diameter of the technological pipeline increases the unification of means for inter-unit connection and positioning of a group of pipelines. The insert may be integral or detachable, the integral insert may be screwed into the plate, or the insert, for example, may comprise radial protrusions for holding in the plate. More preferable

make an insert of metal, but it can be made, for example, of a composite material, or of other known materials that provide the necessary strength and rigidity and meet safety requirements. The means for inter-unit connection and positioning of a group of pipelines, if necessary, can also be mounted on a grillage or foundation of a gas compressor unit. The means of interblock connection and positioning, rigidly fixed to the structural element of the GPU technological unit, rigid fixing of the technological pipelines in it, reduces the vibration of pipelines from the unit’s operation, which also positively affects the operational characteristics of the unit and the GPU as a whole. Information labels about the purpose of the pipelines can be applied in any known manner, providing them with durability and readability.

GPA execution, with technological blocks containing interconnect connection and positioning of a group of pipelines for external connection of the technological block, made in the form of a plate, preferably metal, rigidly connected to the structural element of the technological block, in which technological pipelines are rigidly fixed, implementation in a particular case of a utility model plate means for interconnecting and positioning detachable in the plane of technological pipelines, with the same the size of the holes for fixing the technological pipelines in it, with a solid, fixed in the plate by means of a thread, or a detachable insert with an inner diameter corresponding to the diameter of the technological pipeline, the execution in the particular case of the threaded connection is nipple-threaded, the implementation in the particular case of a durable method next to pipelines of information labels on the purpose of pipelines, provides

simplification and reduction of the terms of installation and dismantling of technological units in gas-compressor units compared with the prototype, including due to the localization of external connection of pipelines on the means of inter-unit connection and positioning and information labels, reduction in the number of operations during installation of gas-turbine units due to the use of a fitting-nipple connection. The unification of GPU technological units, in particular, a compressor unit, a gas turbine engine block, a gas turbine engine block, a gas turbine engine oil supply block, a compressor oil system block, a gas-air duct flushing unit of a gas turbine installation, a fuel gas preparation block, a buffer gas preparation block, a separation gas preparation block, is increasing , exhaust heat recovery unit, de-icing system unit, gas line monitoring system unit, unit in stuffy gas cooling, gas separator unit, whereby units can readily be mounted in the construction SBS can be easily replaced for repair or reconstruction of SBS, it does not require special docking stations and other accessories. One skilled in the art will recognize that some process units may be components of other larger process units, for example, a gas turbine engine block is part of a gas turbine unit. The convenience of servicing the process units and the GPU as a whole is also increasing. Thereby improved operational characteristics of the proposed device. An additional technical result of the utility model is the simplification and reduction of time for designing the external strapping of technological units, gas compressor units and in the compressor station as a whole.

Distinctive features of the proposed device from the above known, closest to it, is that in the GPU technological units contain means for interconnecting and positioning a group of pipelines for external connection of the technological unit, made in the form of a plate rigidly connected to the structural element of the technological unit, which detachable connections of technological pipelines are rigidly fixed, while in particular cases of performing a utility model means plate interblock connection and positioning can be made metal, detachable in the plane of technological pipelines, with the same size of holes for fixing technological pipelines in it, in this case, the holes can be equipped with an insert with an inner diameter corresponding to the diameter of the technological pipeline, the insert can be solid or detachable, the insert can be mounted in the plate by means of a thread, the threaded connection can be made nipple-nipple, in another particular case on The information on the designation of the pipelines can be applied in a durable way to the external side of the plate of the interconnect and positioning means plate next to the technological pipelines, the compressor block, the gas turbine engine block, the gas turbine installation block, the oil turbine engine oil supply block, the compressor oil system block, the gas-air duct washing unit gas turbine unit, fuel gas preparation unit, buffer gas preparation unit, preparation unit Separation gas tubes, exhaust gas heat recovery unit, de-icing system unit, gas line monitoring system unit, gas air-cooling apparatus unit, gas separator unit.

The combination of all these essential features made it possible to create a GPU design that provides improved operational characteristics by increasing the unification of its technological units, reducing the time of installation and dismantling, reconstruction compared to the closest analogue.

The claimed technical solution of the gas pumping unit can be implemented in industrial production using standard equipment and technologies. In its manufacture, standard metal products, fasteners, materials and equipment are used. The device complies with safety standards.

The authors developed a gas pumping unit, which was successfully implemented in gas pumping units GPA-1001 Irtysh and GPA-0601 Irtysh of the applicant’s enterprise.

Claims (11)

1. A gas pumping unit containing technological units having technological pipelines with a detachable connection for external connection of technological units to each other, characterized in that the technological units comprise means for interconnecting and positioning a group of pipelines for external connection of the technological unit, made in the form of a plate rigidly connected with a structural element of the technological unit, in which technological pipelines equipped with emnym connection. 2. The gas pumping unit according to claim 1, characterized in that the plate of the means for inter-unit connection and positioning of the group of pipelines is made of metal. 3. The gas pumping unit according to claim 1, characterized in that the plate of the means for inter-unit connection and positioning of the group of pipelines is made detachable in the plane of the technological pipelines. 4. The gas pumping unit according to claim 1 and 3, characterized in that the plate of the means for inter-unit connection and positioning of the group of pipelines is made with the same size of the holes for fixing technological pipelines therein. 5. The gas pumping unit according to claim 4, characterized in that the holes are provided with an insert with an inner diameter corresponding to the diameter of the process pipeline. 6. The gas pumping unit according to claim 5, characterized in that the insert is integral. 7. The gas pumping unit according to claim 6, characterized in that the insert is mounted in the hole with a thread. 8. The gas pumping unit according to claim 5, characterized in that the insert is detachable. 9. The gas pumping unit according to claim 1, characterized in that the detachable connection of the process pipelines is threaded nipple-threaded. 10. The gas pumping unit according to claim 1, characterized in that on the outer side of the plate next to the process pipelines, information signs about the purpose of the pipelines are durablely applied. 11. The gas pumping unit according to claim 1, characterized in that the processing unit is a compressor unit, a gas turbine engine unit, a gas turbine installation unit, a gas turbine engine oil supply unit, a compressor oil system unit, a gas-air duct flushing unit of a gas turbine installation, a fuel gas preparation unit, a preparation unit buffer gas, separation gas preparation unit, exhaust gas heat recovery unit, de-icing system unit, gas line monitoring system unit, unit a gas air cooling units, gas separator unit

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