SU827989A1 - Method of vessel fluid-tightness testing - Google Patents

Description

The invention relates to methods for checking the tightness of vessels, for example heat pipes.

There is a method of checking the tightness of vessels by creating a pressure difference 5 between the medium in the vessel and the environment and recording acoustic vibrations in the leak [1] However, in this method, a wide range of noise is observed during evaporation and boiling in a liquid coolant vessel.

The purpose of the invention is to increase the reliability of the method.

This goal is achieved by the fact that 15, when checking the tightness of heat pipes filled at the initial moment with a coolant in the form of vapor and liquid phases, a pressure drop is created by heating the coolant until the liquid phase 20 completely evaporates or by cooling the coolant until it solidifies.

The transfer of the coolant to the single-phase state excludes acoustic noise of a wide frequency spectrum that occurs in the liquid phase upon evaporation and upon boiling of the coolant. This increases the reliability and sensitivity of the indication of the acoustic signal in places where the coolant leaks.

The drawing schematically shows a device that implements the proposed method.

The heat pipe 1 is heated by means of a heat exchanger 2 until the coolant completely transitions to a single-phase, for example, vapor state and at the same time creates an excess pressure of the coolant relative to the environment. With the help of microphones 3, acoustic vibrations of the medium are received in the area of the coolant leak through the pores (cracks) in the pipe body 1. Most often these are the sections on which welding was carried out. An amplifier 4 is supplied with a signal, cutting off extraneous noise using a filter 5, and then a leak is detected using a measuring device 6 or headphones 7.

As a measuring element, you can use a rod packet half-microwave vibrator.

If the transfer of the coolant to a gaseous or supercritical state is difficult due to high pressures in the pipe, for example, due to its strength, then using the heat exchanger 2, the pipe and the coolant are cooled until the coolant completely solidifies and a vacuum is created in the pipe. In this case, acoustically recorded 827989

Skye oscillations caused by leakage, for example, of ambient air into a heat pipe in areas of a leak.

Thus, checking the tightness of vessels by creating a pressure differential by heating the liquid phase of the coolant to complete evaporation or by cooling to solidify allows you to reduce noise and improve the reliability of the method of checking the tightness of vessels.

Claims (1)

skyo oscillations caused by leakage of, for example, ambient air into the heat pipe in the areas of the leak. Thus, checking the tightness of the vessels by creating a pressure drop by heating the liquid phase of the heat-transfer agent to complete evaporation or cooling to solidification allows reducing noise and increasing the reliability of the method for checking the tightness of the vessels. Claims of the invention f, a means of testing the tightness of vessels by creating a pressure difference between 15 vessel medium and the environment and detecting acoustic oscillations in leak sections, characterized in that, in order to increase reliability, when checking the tightness of heat pipes filled at the initial moment the heat carrier in the form of the vapor and liquid phases, the pressure drop is created by heating the heat carrier to complete evaporation of the liquid phase or by cooling the heat carrier to its solidification. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 300812, cl. G 01N 11/08, 1969. J