Theoretical study and experimental measurement of the gas liquid two-phase flow through a vertical Venturi meter

Abstract: An accurate two-phase flow rate measurement is essential in many applications and industries such as; oil/gas, chemical, pipeline transportation and nuclear industry. This paper presents the findings obtained from two-phase flow rate measurements using Venturi meters coupled with conductance probe sensors. The measurement system and presented methodology can be used to directly and continuously measure the mass flow rate of gas-liquid flows without any need for using a separator. Most of the available data in … Show more

“…Differential pressure usually changes more dramatically in gas-liquid flows than single-phase flows. A recent study presents a comprehensive appraisal of relationships between the measured differential pressure and flowrate for gas-liquid slug flow through Venturi tubes [15]; another study examines the performance of Venturi tube in measuring the flowrate of a wide range of gas-liquid flows [16]. Nevertheless, it is noteworthy that the 'over reading' phenomenon occurs when utilizing the Venturi tube to measure multiphase flowrates.…”

Multiphase Flowrate Measurement With Multimodal Sensors and Temporal Convolutional Network

“…Differential pressure usually changes more dramatically in gas-liquid flows than single-phase flows. A recent study presents a comprehensive appraisal of relationships between the measured differential pressure and flowrate for gas-liquid slug flow through Venturi tubes [15]; another study examines the performance of Venturi tube in measuring the flowrate of a wide range of gas-liquid flows [16]. Nevertheless, it is noteworthy that the 'over reading' phenomenon occurs when utilizing the Venturi tube to measure multiphase flowrates.…”

Multiphase Flowrate Measurement With Multimodal Sensors and Temporal Convolutional Network

Theoretical and experimental investigation for developing a gas-liquid two-phase flow meter

Study on double differential pressure measurement method of gas-liquid two-phase flow in high gas content wells