A PIV investigation of stratified gas–liquid flow in a horizontal pipe

• Published in: International journal of multiphase flow Vol. 61; pp. 129 - 143
• Main Authors: Ayati, A.A., Kolaas, J., Jensen, A., Johnson, G.W.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.05.2014; Elsevier
• Subjects: Droplets; Exact sciences and technology; Fluid dynamics; Fluid flow; Fundamental areas of phenomenology (including applications); Gas liquid flow; Instrumentation for fluid dynamics; Interfacial turbulence; Multiphase and particle-laden flows; Nonhomogeneous flows; Nucleation; Physics; Pipe; PIV; Stratified flow; Tracer particles; Turbulence; Turbulent flow; Gas liquid flow; Interfacial turbulence; Turbulence; PIV; Stratified flow; Gas liquid interface; Test facilities; Pipe flow; Air water interface; Experimental study; Horizontal pipe; Phase velocity; Two-phase flow; Simultaneous measurement; Particle image velocimetry
• ISSN: 0301-9322; 1879-3533
• DOI: 10.1016/j.ijmultiphaseflow.2014.01.008

•PIV measurements of stratified air/water flow were successfully performed.•In smooth flow, the axial turbulence level is higher in the wall boudary layer than in the interface boundary layer.•The wavy flows, the axial turbulence level is higher in the interface boundary layer than in the wall boundary layer.•Waves induce an enhancement of the axial turbulence level close to the interface.•A qualitative correlation between the pressure drop and the interfacial turbulence is found. Simultaneous Particle Image Velocimetry (PIV) measurements of stratified turbulent air/water flow in a horizontal pipe have been performed using small water droplets, dp‾=6μm, as tracer particles in the gas-phase. This seeding technique ensures that the surface tension of the water layer remains unaffected upon contact with the tracer particles in the gas-phase and thus allows small scale interfacial structures, such as capillary waves to occur and evolve naturally. Experiments have been conducted in a 31m long, 100mm in diameter PVC pipe using air and water at atmospheric pressure as test fluids. For the purpose of validation of the experimental set-up and the suggested seeding technique, gas single-phase measurements were performed at ReD=45,000 and compared to existing DNS results from the literature with similar Re-number, showing very good agreement. Two stratified flow cases, i.e. smooth and wavy, are extensively discussed with emphasis on the effect of the interface pattern on the gas streamwise turbulence profile ug′. A simple analysis using the ug′-profiles of 17 stratified flows suggests the presence of a correlation between the turbulence structure of the gas-phase and global flow conditions such as the pressure drop and the bulk velocity.