RU2012139177A - METHOD FOR GAS AND HYDRODYNAMIC RESEARCH AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of conducting gas-hydrodynamic studies, including measuring pressure, temperature, flow rate of a substance under steady-state operating conditions, processing measurement results, characterized in that the tests are carried out on a facility equipped with an elevator pipe string designed to fill with a working substance with a given composition, at least , one section of which is made of transparent material, after starting the installation and stabilizing the operating mode, the readings of the measuring equipment and phot registration of the flow in at least one transparent section of the pipe tubing, obtaining a panoramic image and recording the readings of the measuring equipment, processing the images obtained, identify and determine the sizes of gas-liquid and / or dry plugs, and / or the distances between them, and / or individual particles identified in the tubing string, repeat the study under modified experimental conditions. 2. The method according to claim 1, characterized in that the working substance is treated with a fluorescent material, the identification and determination of the sizes of gas-liquid and / or dry plugs and / or the distances between them, and / or individual particles detected in the pipe tubing, is carried out in intensity and color glow of the working substance. 3. The method according to claim 2, characterized in that during photographic recording of the flow of the stream passing inside the pipe tubing, at least one transparent section is irradiated with an ultraviolet source. The method according to any one of claims 1 to 3, characterized in that the processing of the obtained images is carried out using the additive color method

Claims (6)

1. A method of conducting gas-hydrodynamic studies, including measuring pressure, temperature, flow rate of a substance under steady-state operating conditions, processing measurement results, characterized in that the tests are carried out on a facility equipped with an elevator pipe string designed to fill with a working substance with a given composition, at least , one section of which is made of transparent material, after starting the installation and stabilizing the operating mode, the readings of the measuring equipment and phot registration of the flow in at least one transparent section of the pipe tubing, obtaining a panoramic image and recording the readings of the measuring equipment, processing the images obtained, identify and determine the sizes of gas-liquid and / or dry plugs, and / or the distances between them, and / or individual particles identified in the tubing string, repeat the study under modified experimental conditions. 2. The method according to claim 1, characterized in that the working substance is treated with a fluorescent material, the identification and determination of the sizes of gas-liquid and / or dry plugs and / or the distances between them, and / or individual particles detected in the pipe lift string, is carried out according to the intensity and shades of glow of the working substance. 3. The method according to claim 2, characterized in that when photorecording the flow of the stream passing inside the tubing string, at least one transparent section is irradiated with an ultraviolet source. 4. The method according to any one of claims 1 to 3, characterized in that the processing of the obtained images is carried out using the additive color model RGB. 5. Installation for implementing the method according to claim 1, comprising at least one pipe lift string, a fluid supply and control unit, a gas supply and control unit for gas, connected to the input and output devices from the column, measuring equipment, characterized in that the stand additionally contains at least one radiation source that is installed with the possibility of lighting the pipe string in the visible and / or ultraviolet spectrum, at least one portion of which is made of material with divisions on it, and at least one photorecorder intended for recording panoramic images in the memory of the information processing unit and for transmitting and displaying images obtained on the transparent section of the pipe tubing, on the monitor screen and / or luminescent screen, with measured scales applied on it, while the information processing unit is equipped with a graphical editor program and is intended to set the operating modes of the installation and information processing synchronously obtained through the interface for transmitting information by the information processing unit from measuring instruments installed in at least the upper, lower, and transparent sections of the pipe tubing and at least one photorecorder. 6. Installation according to claim 5, characterized in that it further comprises a device for discharging a gas-liquid mixture from the column, connected to a gas supply and control unit for gas flow through a separator, the liquid outlet of which is connected via a liquid supply line to the input device to the column through the gas supply and control unit fluid supply, the gas outlet of the separator through a gas supply pipe is connected to a gas supply and control unit, which is equipped with at least a compressor, one overpressure pipe gas and one gas discharge pipe, the liquid and gas inlets of the input device to the column are installed at different heights with the possibility of eliminating the flow of liquid from the liquid supply pipe to the gas supply pipe, the output of the gas supply and control unit for gas flow is connected to the gas supply pipe to the input device to the column , a drain pipe is installed at the outlet of the input device to the column.