Your search keyword '"gas liquid two-phase flow"' showing total 3 results

1. A New Method for Ultrasound Detection of Interfacial Position in Gas-Liquid Two-Phase Flow

Author

Fábio Rizental Coutinho, César Yutaka Ofuchi, Lúcia Valéria Ramos de Arruda, Flávio Neves Jr., and Rigoberto E. M. Morales

Subjects

ultrasound, Doppler method, multiphase flow, gas liquid two-phase flow, Chemical technology, TP1-1185

Abstract

Ultrasonic measurement techniques for velocity estimation are currently widely used in fluid flow studies and applications. An accurate determination of interfacial position in gas-liquid two-phase flows is still an open problem. The quality of this information directly reflects on the accuracy of void fraction measurement, and it provides a means of discriminating velocity information of both phases. The algorithm known as Velocity Matched Spectrum (VM Spectrum) is a velocity estimator that stands out from other methods by returning a spectrum of velocities for each interrogated volume sample. Interface detection of free-rising bubbles in quiescent liquid presents some difficulties for interface detection due to abrupt changes in interface inclination. In this work a method based on velocity spectrum curve shape is used to generate a spatial-temporal mapping, which, after spatial filtering, yields an accurate contour of the air-water interface. It is shown that the proposed technique yields a RMS error between 1.71 and 3.39 and a probability of detection failure and false detection between 0.89% and 11.9% in determining the spatial-temporal gas-liquid interface position in the flow of free rising bubbles in stagnant liquid. This result is valid for both free path and with transducer emitting through a metallic plate or a Plexiglas pipe.

Published

2014

2. A New Method for Ultrasound Detection of Interfacial Position in Gas-Liquid Two-Phase Flow.

Author

Coutinho, Fábio Rizental, Ofuchi, César Yutaka, de Arruda, Lú cia Valé ria Ramos, Neves Jr., Flávio, and Morales, Rigoberto E. M.

Subjects

*IMAGE processing, *PIPE flow, *FLUID mechanics, *GAS-liquid interfaces, *BUBBLES

Abstract

Ultrasonic measurement techniques for velocity estimation are currently widely used in fluid flow studies and applications. An accurate determination of interfacial position in gas-liquid two-phase flows is still an open problem. The quality of this information directly reflects on the accuracy of void fraction measurement, and it provides a means of discriminating velocity information of both phases. The algorithm known as Velocity Matched Spectrum (VM Spectrum) is a velocity estimator that stands out from other methods by returning a spectrum of velocities for each interrogated volume sample. Interface detection of free-rising bubbles in quiescent liquid presents some difficulties for interface detection due to abrupt changes in interface inclination. In this work a method based on velocity spectrum curve shape is used to generate a spatial-temporal mapping, which, after spatial filtering, yields an accurate contour of the air-water interface. It is shown that the proposed technique yields a RMS error between 1.71 and 3.39 and a probability of detection failure and false detection between 0.89% and 11.9% in determining the spatial-temporal gas-liquid interface position in the flow of free rising bubbles in stagnant liquid. This result is valid for both free path and with transducer emitting through a metallic plate or a Plexiglas pipe. [ABSTRACT FROM AUTHOR]

Published

2014

3. A New Method for Ultrasound Detection of Interfacial Position in Gas-Liquid Two-Phase Flow

Author

Flávio Neves, Lúcia Valéria Ramos de Arruda, Rigoberto E. M. Morales, Cé sar Yutaka Ofuchi, and Fabio Rizental Coutinho

Subjects

Materials science, Acoustics, multiphase flow, gas liquid two-phase flow, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Physics::Fluid Dynamics, Optics, Position (vector), Fluid dynamics, lcsh:TP1-1185, Electrical and Electronic Engineering, Doppler method, Instrumentation, Spatial filter, business.industry, ultrasound, Multiphase flow, Atomic and Molecular Physics, and Optics, Interface position, Transducer, Ultrasonic sensor, Two-phase flow, business

Abstract

Ultrasonic measurement techniques for velocity estimation are currently widely used in fluid flow studies and applications. An accurate determination of interfacial position in gas-liquid two-phase flows is still an open problem. The quality of this information directly reflects on the accuracy of void fraction measurement, and it provides a means of discriminating velocity information of both phases. The algorithm known as Velocity Matched Spectrum (VM Spectrum) is a velocity estimator that stands out from other methods by returning a spectrum of velocities for each interrogated volume sample. Interface detection of free-rising bubbles in quiescent liquid presents some difficulties for interface detection due to abrupt changes in interface inclination. In this work a method based on velocity spectrum curve shape is used to generate a spatial-temporal mapping, which, after spatial filtering, yields an accurate contour of the air-water interface. It is shown that the proposed technique yields a RMS error between 1.71 and 3.39 and a probability of detection failure and false detection between 0.89% and 11.9% in determining the spatial-temporal gas-liquid interface position in the flow of free rising bubbles in stagnant liquid. This result is valid for both free path and with transducer emitting through a metallic plate or a Plexiglas pipe.

Published

2014