RU2690999C2 - Gas-transfer unit of block-container execution - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to a compressor unit. Gas-compressor unit of block-container version comprises drive motor, compressor, equipment for ensuring operability of a gas pumping unit and consisting of containers mounted on a skeleton framework, which are located on the foundation with formation of a box between them, which is covered with a roof common with containers. At that, drive motor and compressor are installed in box, similar containers are installed on containers with the second tier, and the equipment for ensuring the gas-transfer unit working capacity is divided into groups according to their functional purpose and is installed in the corresponding container group.EFFECT: invention ensures maximum factory readiness of gas compressor unit and allows to reduce volume of erection works due to increase of accessible working space and efficient arrangement of drive motor, compressor and equipment for ensuring efficiency of gas compressor unit.1 cl, 1 dwg

Description

The invention relates to compressor technology and can be used in the design of gas pumping units; in block container execution.

When designing a gas pumping unit, one of the most important customer requirements is to ensure maximum factory readiness of the equipment supplied. This reduces the amount of installation and commissioning at the installation site of the gas pumping unit (HPA). This is especially true for the installation of gas compressor units in the northern regions of Russia in the absence of developed logistics and harsh climatic conditions.

Known invention "Compressor unit block-container execution" (RF patent №2399798), containing a container that includes an elongated support frame on which the shell is mounted, including the power frame and skin and having longitudinal and transverse walls installed along the perimeter of the support frame, covered with a roof and fastened among themselves and with a basic frame. A drive motor, a multiplier and a compressor are installed in the container, while the support frame is provided with a second similarly made container in which gas communication equipment with shut-off, control valves and filters is installed. Each container is made without plating on one of its longitudinal walls with the ability to connect containers with each other when they are installed on the foundation with the formation of a common space and with the possibility of overlapping a common roof and connecting the common roof with the roofs and transverse walls of the containers.

In the first embodiment, when mounted on a foundation, the containers are connected to each other directly by their transverse walls.

In the second embodiment of the installation, the gas cooler is additionally installed, and when installed on the foundation, the containers can be connected to each other via an intermediate frame connected to the container supporting frames and intermediate walls connected to the transverse walls of the containers to form a common space (box ). In this case, the intermediate frame has a floor forming the service platform:

The device proposed in the patent of the Russian Federation No. 2399798, has several disadvantages, such as:

1. The impossibility of placing in one container the transport size of some types of drive engines and compressors, for example, gas turbine units (GTU) with a large-sized snail part.

2. Insufficiency of space in containers for placement of equipment for HPU operability (such as the drive engine oil supply system, GTU gas-air washing system, fire extinguishing cylinder modules, fuel gas preparation system, compressor oil supply system, barrier air preparation system, buffer gas preparation system, system transmission cooling, intake and exhaust ventilation system), which will lead to the installation of an additional one hundred near the main shelter boiling containers. This will not adversely affect the total cost of the unit and will lead to an increase in the scope of work during installation.

The technical problem is to ensure maximum factory readiness of HPU and to reduce the amount of work during the installation of gas pumping units containing large drive motors and compressors, as well as equipment ensuring the operation of the gas pumping unit.

The technical result is that the block-container scheme of HPU is used, which allows to place large-sized engines, compressors and equipment to ensure the operability of the gas-pumping unit in the intercontainer space (box) of the HPA, while maintaining the maximum factory availability of the unit.

The technical result is achieved by the fact that the gas-pumping unit of block-container design contains a driving engine, a compressor, equipment to ensure the operability of the gas-pumping unit and consisting of plating mounted on the frame, containers located on the foundation with the formation of a box between them, covered with a common roof with containers. At the same time, the drive engine and compressor are installed in the box, similar containers are installed on the second tier containers, and the equipment for ensuring the gas pumping unit operability is divided into groups according to its functional purpose and installed in the corresponding container group.

Distinctive features are significant because:

- the location of the drive engine and compressor in the box provides the possibility of using in a gas pumping unit a block-container performance of large-sized compressors and drive engines of any type, thereby increasing factory readiness;

- installation on containers by the second tier of similar containers increases the height of the box, thereby allowing the installation of large-sized equipment (engine, compressor);

- the release of one of the containers from the drive engine and compressor, as well as the organization of containers of the second tier allows to place the equipment for ensuring the HPA operability in one shelter, which increases the factory readiness of the HPA and reduces the amount of installation work, due to the effective (ergonomic) arrangement of the equipment for the HPA operability, taking into account their functionality and installation in groups in containers.

The drawing shows a section view from the side of the block-container HPA.

The gas-pumping unit of block-container design contains a drive engine (not shown, as it is located behind the compressor), compressor 1, equipment 2 for ensuring the operability of the gas-pumping unit and consisting of 4 sheathing 4 mounted on the frame 3, located on the foundation 6 to form a box between them 7, covered by a common roof with containers 8, the drive engine and compressor 1 are installed in box 7, on containers 5 with the second tier are installed similar containers 9, while the equipment e 2 ensuring the operability of the gas pumping unit is divided into groups according to its functional purpose and installed in the appropriate container group.

The installation of a block-container gas pumping unit is carried out as follows:

At the factory, equipment 2 is divided into groups according to their functional purpose and mounted in containers 5 and 9, consisting of plating 4 mounted on frame 3. Then, two containers 5 are installed on the site of installation of HPA, on each side of foundation 6, on second tier additionally two similar containers 9 are installed. The upper plane of containers 9 of the second tier is covered with a common roof 8, and the end sides of containers 5, 9 are interconnected by intermediate walls (not shown). Due to this, between the containers 5, 9 creates an overlapped space (box) 7. Next, install the engine (not shown, as it is behind the compressor) and the compressor 1 in box 7.

Thus, the invention provides the maximum factory readiness of HPU and allows to reduce the amount of installation work by increasing the available working space and effective (ergonomic) location of the drive engine, compressor and equipment ensuring the operability of the gas pumping unit.

Claims (1)

Gas-pumping unit of block-container design, containing a drive engine, compressor, equipment for ensuring the operability of the gas pumping unit and consisting of frame-mounted sheathing containers located on the foundation to form a box between them, covered by a common roof with containers, characterized in that the drive engine and compressor installed in the box, the containers with the second tier are equipped with similar containers, and the equipment to ensure the performance of hectares The pumping unit is divided into groups according to its functional purpose and installed in the corresponding group container.

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