A new, optimized Doppler optical probe for phase detection, bubble velocity and size measurements: investigation of a bubble column operated in the heterogeneous regime

TL;DR

This paper introduces an optimized Doppler optical probe for measuring bubble velocity and size in complex bubbly flows, demonstrating its effectiveness in a bubble column and providing detailed flow statistics.

Contribution

The paper presents a novel Doppler optical probe combining phase detection and velocity measurement, with a reliable signal processing routine, for detailed analysis of bubbly flows in a column.

Findings

The Doppler probe achieves velocity measurement uncertainty within 14%.

It provides comprehensive statistics on bubble size, velocity, and local flow variables.

In the heterogeneous regime, bubble velocity profiles are self-similar and follow a specific fit.

Abstract

A new measuring technique dedicated to bubble velocity and size measurements in complex bubbly flows such as those occurring in bubble columns is proposed. This sensor combines the phase detection capability of a conical optical fiber, with velocity measurements from the Doppler signal induced by an interface approaching the extremity of a single-mode fiber. The analysis of the probe functioning and of its response in controlled situations, have shown that the Doppler probe provides the translation velocity of bubbles projected along the probe axis. A reliable signal processing routine has been developed that exploits the Doppler signal arising at the gas-to-liquid transition: the resulting uncertainty on velocity is at most 14\%. Such a Doppler probe provides statistics on velocity and on size of gas inclusions, as well as local variables including void fraction, gas volumetric flux, number density and its flux. That sensor has been successfully exploited in an air-tap water bubble column 0.4m in diameter for global gas hold-up from 2.5 to 30\%. In the heterogeneous regime, the transverse profiles of the mean bubble velocity scaled by the value on the axis happen to be self-similar in the quasi fully developed region of the column. A fit is proposed for these profiles. In addition, on the axis, the standard deviation of bubble velocity scaled by the mean velocity increases with Vsg in the homogeneous regime, and it remains stable, close to 0.55, in the heterogeneous regime.