RU150308U1 - BUFFER CAPACITY - Google Patents

Abstract

A buffer tank containing a cylindrical shell with end caps and internal partitions dividing the tank into at least two separate chambers, one of which has a pipe nozzle, and the other / others have compressor cylinder pipes, characterized in that it contains pipelines passing through the partitions and connecting the chamber / chambers having nozzles of the cylinders of the compressor with the chamber having a branch pipe, while the pipelines are attached to the cylindrical shell of the tank and are made with round nnym end at the entrance and with an internal chamfer at the exit.

Description

The utility model relates to devices for damping pulsations and can be used, in particular, to reduce vibration of pipelines caused by pulsations of gas pressure in reciprocating gas compressors used in gas and oil industry facilities.

The prior art buffer tank according to GOST R 53737-2009, located between the compressor and the suction or discharge pipe, containing a cylindrical shell with end caps and internal partitions separating the tank into separate chambers, compressor cylinder nozzles into the chambers, a suction or discharge pipe . The internal partitions have one or more openings for the passage of gas from one chamber to another. The efficiency of damping pulsations in such a tank is insufficient, in addition, in such a buffer tank there is a loss of gas pressure. Installed on the compressor discharge side, the gases, passing through the cylinder nozzles, expand throughout the chamber volume and through the openings in the partition enter the adjacent chambers, obstructing the free flow of gas from neighboring chambers to the pipeline nozzle, thereby reducing the compressor operation efficiency. This technical solution is selected for the closest analogue of the claimed utility model.

The authors were faced with the task of creating a design of a buffer tank devoid of these drawbacks, namely, a design that ensures the free flow of gases in the buffer tank, increasing the efficiency of damping pulsations without losing gas pressure.

To achieve the technical result, a buffer tank containing a cylindrical shell with end caps and internal partitions dividing the tank into at least two separate chambers, one of which has a pipe branch pipe, and the other / others have compressor cylinder pipes, contains pipelines passing through the partitions and connecting chambers of the cylinder branch pipes to the chamber of the pipe branch pipe. The number of chambers with compressor cylinder nozzles depends on the number of compressor cylinders and may be more than one. To exclude natural oscillations from the compressor, the mentioned pipelines are attached to the cylindrical shell of the tank and are made with a rounded end at the inlet and with an internal chamfer at the outlet.

The implementation of the buffer tank containing pipelines through partitions connecting the chamber / chambers of the compressor cylinder nozzles to the chamber of the pipe nozzle allows for a free gas flow through adjacent chambers into the chamber of the discharge pipe, thereby reducing pressure losses during gas passage through the tank and increasing the efficiency of damping pulsations. The described design of the buffer tank is also applicable on the suction side of the compressor, providing a uniform gas supply to the compressor cylinders and preventing the transmission of gas pulsations to the suction pipe. The implementation of pipelines with a rounded end at the inlet and with an internal chamfer at the outlet eliminates undesirable turbulence of the gas flow and pressure loss at the inlet and outlet of the pipeline, attaching the pipelines to the cylindrical shell allows them to be excluded from compressor operation.

Distinctive features of the proposed device from the above known, closest to it, is that the buffer tank contains pipelines through partitions connecting the chamber / chambers of the compressor cylinder tubes to the chamber of the pipe nozzle, while the pipelines are attached to the cylindrical shell of the tank and are made with a rounded end at the entrance and with an internal chamfer at the exit.

The combination of all the essential features allows you to create a buffer tank design that provides free flow of gases in the buffer tank, reduces the negative effect of gas pulsations caused by the compressor without loss of gas pressure, thereby increasing the efficiency of the gas system.

The proposed design is illustrated in the drawing.

The figure 1 shows a General view of the buffer tank in axonometric projection, figure 2 buffer tank, where 1 is a cylindrical shell, 2 is the internal partition, 3 is the pipe of the compressor cylinder, 4 is the pipe pipe, 5 - pipe.

When the compressor is operating, on the discharge side of the compressor, gas flows through the pipe of the compressor cylinder 3 into the chamber, where it expands, and then through pipeline 5, bypassing the adjacent chamber, enters the pipe pipe chamber 4.

The claimed technical solution of the buffer capacity can be implemented in industrial production using standard equipment and technology. In the manufacture of the buffer tank, standard rolled metal and metal structures are used.

The authors developed a buffer tank, which was successfully implemented in the design of a reciprocating compressor unit type PKU012 of the developing company.

Claims (1)

A buffer tank containing a cylindrical shell with end caps and internal partitions dividing the tank into at least two separate chambers, one of which has a pipe nozzle, and the other / others have compressor cylinder pipes, characterized in that it contains pipelines passing through the partitions and connecting the chamber / chambers having nozzles of the cylinders of the compressor with the chamber having a branch pipe, while the pipelines are attached to the cylindrical shell of the tank and are made with round nnym end at the entrance and with an internal chamfer at the exit.

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