RU2006112875A - METHOD FOR TESTING SUBMERSIBLE CENTRIFUGAL GAS SEPARATOR AND STAND FOR ITS IMPLEMENTATION - Google Patents

Claims (8)

1. A test method for a submersible centrifugal gas separator, which includes the formation of a gas-liquid mixture, its supply via the injection line to the downhole modeling unit (BMVU), separation of the gas-liquid mixture by the tested gas separator, the delivery of degassed liquid to the storage tank, and the separated gas to the annular space of the BMVU, smooth regulation of flow rates and pressures of gas and liquid, discrete change of separation modes, regulation during testing of foaming properties the circulating volume of the gas-liquid mixture by adding various surfactants and / or changing their concentration, determining the input, output and residual content of free gas, the flow rate of the liquid and gas at the entrance to the BMVU, and calculating the separation coefficient and flow rate of the liquid and gas in the corresponding output lines of the BMVU, characterized in that the separation of the gas-liquid mixture by the tested gas separator is carried out at a constant flow rate, providing a gas-liquid mixture supplied to the BMVU in an amount exceeding max flax pump flow by 10 ÷ 100%, thereby preventing the occurrence of downward liquid flow in the annulus BMVU while maintaining the permanent gas content in the gas-liquid mixture entering the gas separator and BMVU by creating upward flow of gas-liquid mixture in the annulus. 2. The method according to claim 1, characterized in that when forming a gas-liquid mixture, the pressure pulsation of the gas entering the mixing device is suppressed. 3. The method according to claim 1, characterized in that during the test process, a predetermined level of liquid temperature in the discharge lines is set and constantly maintained, for example, using a heat exchanger. 4. The method according to claim 1, characterized in that during the tests, the rotational speed of the shaft of the tested gas separator is smoothly controlled within the range of up to 1200 rpm 5. A test bench for a submersible centrifugal gas separator containing a storage tank with a gravitational gas-liquid separator connected to it, a heat exchanger, pumps for pumping a working fluid, a gas-liquid mixture preparation system with a gas source, instrumentation and regulatory bodies included in the fluid injection lines and gas and to the output lines for liquid and gas, measured capacity, block modeling downhole conditions (BMVU), which includes a model of casing for p displacements interconnected between the test gas separator, pump and electric motor to form an annulus, characterized in that a pressure sensor is installed in the annular space of the BMVU in the area of the test gas separator inlet openings, an antifoam and a foam level sensor are placed inside the measuring tank, and the antifoam is connected through a regulating an organ with a GHS discharge line from the annular space of the BMVU and consists of a cylindrical body, the side surface of which is perforated, and inside the body with By this step has its axis perpendicular to the screening elements, foam level sensor is arranged to switch into a gravitational flow GLM gas-liquid separator according to the level of foam in the measuring container, wherein a gas discharge line from the measuring container is connected a pressure gauge, a thermometer and flow meter. 6. The stand according to claim 5, characterized in that a buffer tank is installed in the gas supply line of the GHS preparation system in front of the mixing device. 7. The stand according to claim 5, characterized in that the heat exchanger is connected to the liquid supply line. 8. The stand according to claim 5, characterized in that as the electric motor of the tested gas separator, an electric motor with a frequency converter is used, which provides an increase in the shaft speed to 1200 rpm.