SU1176132A1 - Stabilizer of pulsation pressure - Google Patents

Abstract

PULSATION STABILIZER. PRESSURE, containing pipeline and communicated with it through radial outgoing waveguides, resonant and damping chambers, separated by a partition with bellows elastic elements, characterized in that, with an increase in efficiency and simplification of the design, the pipeline is equipped with an enclosed cylindrical body covering it and the chamber , the partition separating the chamber is made in the form of a cylindrical spacer, and each breeder - in the form of a horn extending from the pipeline, having the shape of a body scheni, wherein the body and spacer are mounted coaxially Pipelines water and bellows elastic member k coaxial waveguide. Od & 0 to

Description

The invention relates to mechanical engineering, in particular to means for damping pressure pulsations, and can be used in the petrochemical industry, heat and gas supply.

The aim of the invention is to increase the efficiency and simplify the design of the device.

On Fig, 1 shows a device, 10 a longitudinal section; in FIG. 2 same cross section.

The stabilizer contains a central pipeline 1, communicated through radial waveguides 2 with resonant f5 3 and damping 4 chambers, which are separated by a cylindrical spacer 5 with bellows elastic elements 6. Pipeline 1 and chambers 3 and 4 are placed in a cylindrical tight housing 7, and the housing 7 and the spacer 5 are installed coaxially to the pipeline 1.

The waveguides 2 are made in the form of horns, which expand from the pipe 25 of the wire 1 and have the shape of a body of revolution (for example, conical, with a generator in the form of an exponent, etc.). The waveguides 2 and the bellows elastic elements 6 are mounted coaxially. A fitting 8 for supplying boost gas is installed on the housing.

The pressure pulsation stabilizer operates as follows.

In the initial state, the working fluid (or gas) flows through the central pipe 1 and fills the resonance chambers 3 through the waveguides 2. The charge gas is supplied to the chambers 4 of the housing 1 through the nozzle 8. ’The elastic elements 6 are stationary.

When pressure pulsations occur in the working fluid, they propagate through the pipeline 1 and through the waveguides 2 enter the resonant chambers 3, where they are damped due to the occurrence of resonance phenomena in the chambers 3 during vibrations of the elastic elements 6. The concentration of pressure waves on the bellows elastic elements is ensured by the shape of the horns, which selected depending on the parameters of the working fluid (gas) and the level of pressure pulsations. The chambers 4 are filled, if necessary, with boost gas through the nozzle 8, which makes it possible to use the device at various pressures of the working fluid (gas).

Claims (1)

PRESSURE PULSATION STABILIZER containing a pipeline and resonant and damping chambers communicated with it through radial outgoing waveguides separated by a baffle with bellows elastic elements, characterized in that, in order to increase efficiency and simplify the design, the pipeline is equipped with a sealed cylindrical body enclosing it and the chambers, the partition separating the chambers is made in the form of a cylindrical spacer, and each waveguide - in the form of a mouth expanding from the pipeline, having the shape of a rotary body the case and the spacer are installed coaxially with the pipeline, and the bellows elastic element is coaxial with the waveguide. ZZ'2 7_Z27 2 Z72 2 2 2 2 2 2 TJ / J 7 2 2 2 2 J ^{6 7} Fig 1 1 1176132