Your search keyword '"Stereo piv"' showing total 210 results

1. Strömungscharakterisierung im Arbeitsspalt beim magnetfeldüberlagerten elektrochemischen Abtragen.

Author

Luther, Fabian, Schaarschmidt, Ingo, Schubert, Andreas, and Richter, Markus

Subjects

ELECTROCHEMICAL cutting, MANUFACTURING processes, ELECTROMAGNETIC fields, LORENTZ force, FLOW velocity, MAGNETOHYDRODYNAMICS

Abstract

Copyright of Technisches Messen is the property of De Gruyter and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

2. A Study of spatiotemporal features of sweeping jets acting on afterbody vortices using low-operation-rate stereo PIV.

Author

Chen, Xiaodong, Zhong, Shan, Ozer, Ozgun, Kennaugh, Andrew, Liu, Tanghong, and Gao, Guangjun

Subjects

*KELVIN-Helmholtz instability, *FIELD programmable gate arrays, *PARTICLE image velocimetry, *JETS (Fluid dynamics), *SPATIOTEMPORAL processes

Abstract

• A phase-locked measurement method for sweeping jets is established based on low-rate PIV devices. • Unsteady features of sweeping jets and secondary flows in a quiescent condition are visualized. • The effects and mechanism of sweeping jet acting on afterbody vortices are well detected. Although low-operation-rate particle image velocimetry (PIV) provides a good spatial accuracy in measurements at relatively affordable costs, it faces some challenges in capturing unsteady features of oscillatory flow. In this paper, a single sweeping jet actuated to control afterbody vortices from a 30◦ slanted-base cylinder is investigated at a Reynolds number of 87,000. Phase-locked stereo PIV measurements combining triggering reference obtaining and real-time processing via field programmable gate array (FPGA) are leveraged to reveal the unsteady characteristics of the sweeping jet. The examined cases show that the phase-locked method can well identify jet's spatiotemporal development process in each oscillation cycle. A sinusoidal-like interaction along phases between the jet and the afterbody vortex can be reasonably detected. At each moment, coherent small vortical structures form at the upper and bottom jet/ambient interfaces, which are caused by Kelvin-Helmholtz instability. Since the induced vortex has the same rotation direction as the afterbody vortex on each side, they merge with each other as the jet approaches the vortex, causing an increase in vorticity. Meanwhile, the sweeping jet's intrusion into the vortex region induces a rise in turbulent kinetic energy in that area, causing turbulence ingestion of the vortex which weakens the velocity gradient. The sweeping behavior of the jet dominates the afterbody vortex to meander as the jet pushes its way underneath the vortex. The findings of this study provide encouraging evidence for future applications of sweeping jets in control of afterbody vortices. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comparison of Two Unstable Flow States in Turbulent Mixed Convection

Author

Niehaus, Konstantin A., Mommert, Michael, Schiepel, Daniel, Schmeling, Daniel, Wagner, Claus, Hirschel, Ernst Heinrich, Founding Editor, Schröder, Wolfgang, Series Editor, Boersma, Bendiks Jan, Series Editor, Fujii, Kozo, Series Editor, Haase, Werner, Series Editor, Leschziner, Michael A., Series Editor, Periaux, Jacques, Series Editor, Pirozzoli, Sergio, Series Editor, Rizzi, Arthur, Series Editor, Roux, Bernard, Series Editor, Shokin, Yurii I., Series Editor, Dillmann, Andreas, editor, Heller, Gerd, editor, Krämer, Ewald, editor, Wagner, Claus, editor, Tropea, Cameron, editor, and Jakirlić, Suad, editor

Published

2020

4. Experimental Investigation of the In-Cylinder Tumble Motion inside GDI Cylinder at Different Planes under Steady-State Condition using Stereoscopic-PIV

Author

Mohammed El Adawy, M. R. Heikal, and A. Rashid A. Aziz

Subjects

Tumble motion, Stereo PIV, Flow bench, Tumble ratio, GDI engine., Mechanical engineering and machinery, TJ1-1570

Abstract

This paper describes an experimental study aimed at the characterization of the steady-state tumble motion in the cylinder of an engine using stereoscopic particle image velocimetry (Stereo-PIV). More specifically, a pent-roof four valves gasoline direct injection (GDI) engine head was mounted on a modified FEV steady-state flow rig for applying Stereo-PIV at different measurement vertical tumble planes at mid cylinder, mid injector and mid valve. The flow field was described by the distribution of the ensemble average flow patterns for 1000 pairs of images for every case, vorticity contours, turbulent kinetic energy and tumble ratio. The results revealed that the higher velocities acquired at the mid valve plane improved the turbulent kinetic energy and tumble ratio compared to the other planes. There was a good level of agreement between direct and indirect methods used for calculating the tumble ratio.

Published

2019

5. Dizel İçten Yanmalı Motorlarda Silindir İçindeki Hava Hareketlerinin İncelenmesi ve Ölçüm Metodlarının Karşılaştırılması.

Author

Yelken, Burak, Savcı, İsmail Hakkı, and Dülger, Zafer

Subjects

*PARTICLE image velocimetry, *COMBUSTION chambers, *AIR cylinders, *AIRPORTS, *EVALUATION methodology, *INTERNAL combustion engines

Abstract

Fuel and air mixture in the combustion chamber is not the homogeneous distribution. Although various models have been developed to understand the characterization of the mixture movement inside the cylinder, it is not well understood. Air movements in the cylinder have a great effect on engine combustion performance and engine emissions. During the suction of the engine, the air can discharge with different movements through to the cylinder as swirl and tumble. In this study, swirl performance is investigated with laser and camera technologies. Within the scope of this work, a prototype part that represents the air intake port of a 9l diesel engine was manufactured with additive manufacturing method. Swirl coefficients were measured using the honeycomb torque method. The error level of the test was determined by the uncertainty analysis. Swirl measurement was performed with the particle imaging velocimetry (PIV) technique in two dimensions and three dimensions. The degree of error was determined by performing uncertainty analysis for the PIV technique as well. A comparison between the methods and evaluation of suitability was completed. [ABSTRACT FROM AUTHOR]

Published

2021

6. On Impact of Helical Structures on Stabilization of Swirling Flames with Vortex Breakdown.

Author

Dulin, V. M., Lobasov, A. S., Chikishev, L. M., Markovich, D. M., and Hanjalic, K.

Abstract

We report on a study of the impact of coherent helical vortex structures on the shape of the reaction zone and heat release in swirling methane/air flames in regimes with a vortex breakdown. Three kinds of atmospheric flames are considered, viz., fuel-lean and fuel-rich premixed flames and a partially premixed fuel-rich lifted flame. Based on the measurements of the velocity fields by a stereo PIV in combination with the OH PLIF and HCHO PLIF, the impact of the coherent flow structures on large-scale corrugations of the reaction zone is evaluated. Helical vortex structures, detected in both the non-reacting and reacting high-swirl flows by using proper orthogonal decomposition, are found to promote combustion both in the lean premixed and fuel-rich partially premixed flames. In the first case, based on the phase-averaged intensity of the HCHO×OH signal and the location of the helical vortex structure in the inner mixing layer, it is concluded that the vortex locally increases the heat release rate by enlarging the flame front and enhancing the mass exchange between the combustion products inside the recirculation zone and the fresh gases. The events of the local flame extinctions are detected in the instantaneous PLIF snapshots for the lean mixture, but they do not cause extinction of the entire flame or a blow-off. In case of the lifted flame, the outer helical vortex structure promotes combustion by locally intensifying the mass exchange between the fuel-rich jet with the surrounding air. [ABSTRACT FROM AUTHOR]

Published

2019

7. Flow and surface pressure field measurements on a circular cylinder with impingement of turbulent round jet.

Author

Kim, Mirae, Li, Yongzeng, Peng, Di, Yeom, Eunseop, and Kim, Kyung Chun

Subjects

*JET impingement, *SURFACE pressure, *PRESSURE-sensitive paint, *PRESSURE measurement, *THREE-dimensional flow, *JETS (Fluid dynamics)

Abstract

• Surface pressure distribution was measured when a circular jet impinges on a cylinder. • Effects of the impingement angle, Reynolds number, and diameter ratio were examined. • Pressure gradient in flow direction decreases when the impingement angle increases. • The three-dimensional nature of the surface pressure changes with the flow parameters. When the circular jet impinges onto a cylinder, the three-dimensional (3D) curved wall jet was attached to the wall due to the Coanda effect and the flow separation was delayed with increasing Reynolds number and impinging angle. These interesting phenomena can be studied in depth through a variety of parameters and measurement methods. Time-resolved stereo PIV measurement was conducted to investigate the 3D flow characteristics with instantaneous velocity and vorticity fields. Pressure sensitive paint (PSP) method was used to examine the pressure distribution on the cylinder surface when a circular jet impinges on it. The effects of the impingement angle, Reynolds number, and diameter ratio between the jet nozzle and the cylinder (d/D) were examined at a fixed nozzle to wall distance ratio of two (H/d = 2). Experimental results show that the pressure gradient in the flow direction decreases and the separation is delayed when the Reynolds number and impingement angle are increased at the same distance ratio. As the diameter ratio decreases with the same impingement angle and Reynolds number, the maximum suction pressure increases, and the pressure gradient in the wall jet flow direction increases. The three-dimensional nature of the surface pressure distribution changes with the flow parameters, which are well explained with three-dimensional flow field measurements in the curved 3D wall jet due to the Coanda effect. [ABSTRACT FROM AUTHOR]

Published

2019

8. 3-D measurement of 2-D jet by 3-D 3-C SPIV.

Author

Ninomiya, Nao, Tanaka, Yukihisa, Sotome, Satoshi, Eda, Masahide, and Watanabe, Atsushi

Abstract

The stereo PIV, commonly known as the SPIV, is capable of measuring all the three velocity components in a two-dimensional measurement plane and thus classified as 2-D 3-C PIV. Even though the SPIV utilizes a set of two cameras, the positions of the measurement points are assumed to be located in the central plane of the illuminated volume, which is usually the zone of laser light sheet. This assumption makes the SPIV versatile and its calibration procedure very handy. But, if the three-dimensional orientation of the cameras can be calibrated precisely, the three-dimensional position of the particles that may be distributed in the depth of the illuminated zone can be calculated. The authors of this study have proposed a new algorithm that enables the fully three-dimensional measurement by SPIV and it can be classified as 3-D 3-C SPIV. Presently, the three-dimensional turbulent measurement of a plane jet has been carried out with the use of presently proposed 3-D 3-C SPIV and the transverse distributions of the turbulence statistics have been obtained in the depth direction of 3-D 3-C SPIV. The results are compared with those by standard PIV, i.e., 2-D 2-C PIV, and thus, the accuracy and the applicability of 3-D 3-C SPIV have been evaluated. [ABSTRACT FROM AUTHOR]

Published

2019

9. Experimental Investigation of the In-Cylinder Tumble Motion inside GDI Cylinder at Different Planes under Steady-State Condition using Stereoscopic-PIV.

Author

El-Adawy, Mohammed, Heikal, M. R., and Aziz, A. Rashid A.

Subjects

ENGINE cylinder aerodynamics, INTERNAL combustion engines, PARTICLE image velocimetry

Abstract

This paper describes an experimental study aimed at the characterization of the steady-state tumble motion in the cylinder of an engine using stereoscopic particle image velocimetry (Stereo-PIV). More specifically, a pentroof four valves gasoline direct injection (GDI) engine head was mounted on a modified FEV steady-state flow rig for applying Stereo-PIV at different measurement vertical tumble planes at mid cylinder, mid injector and mid valve. The flow field was described by the distribution of the ensemble average flow patterns for 1000 pairs of images for every case, vorticity contours, turbulent kinetic energy and tumble ratio. The results revealed that the higher velocities acquired at the mid valve plane improved the turbulent kinetic energy and tumble ratio compared to the other planes. There was a good level of agreement between direct and indirect methods used for calculating the tumble ratio.This paper describes an experimental study aimed at the characterization of the steady-state tumble motion in the cylinder of an engine using stereoscopic particle image velocimetry (Stereo-PIV). More specifically, a pentroof four valves gasoline direct injection (GDI) engine head was mounted on a modified FEV steady-state flow rig for applying Stereo-PIV at different measurement vertical tumble planes at mid cylinder, mid injector and mid valve. The flow field was described by the distribution of the ensemble average flow patterns for 1000 pairs of images for every case, vorticity contours, turbulent kinetic energy and tumble ratio. The results revealed that the higher velocities acquired at the mid valve plane improved the turbulent kinetic energy and tumble ratio compared to the other planes. There was a good level of agreement between direct and indirect methods used for calculating the tumble ratio.This paper describes an experimental study aimed at the characterization of the steady-state tumble motion in the cylinder of an engine using stereoscopic particle image velocimetry (Stereo-PIV). More specifically, a pentroof four valves gasoline direct injection (GDI) engine head was mounted on a modified FEV steady-state flow rig for applying Stereo-PIV at different measurement vertical tumble planes at mid cylinder, mid injector and mid valve. The flow field was described by the distribution of the ensemble average flow patterns for 1000 pairs of images for every case, vorticity contours, turbulent kinetic energy and tumble ratio. The results revealed that the higher velocities acquired at the mid valve plane improved the turbulent kinetic energy and tumble ratio compared to the other planes. There was a good level of agreement between direct and indirect methods used for calculating the tumble ratio.This paper describes an experimental study aimed at the characterization of the steady-state tumble motion in the cylinder of an engine using stereoscopic particle image velocimetry (Stereo-PIV). More specifically, a pentroof four valves gasoline direct injection (GDI) engine head was mounted on a modified FEV steady-state flow rig for applying Stereo-PIV at different measurement vertical tumble planes at mid cylinder, mid injector and mid valve. The flow field was described by the distribution of the ensemble average flow patterns for 1000 pairs of images for every case, vorticity contours, turbulent kinetic energy and tumble ratio. The results revealed that the higher velocities acquired at the mid valve plane improved the turbulent kinetic energy and tumble ratio compared to the other planes. There was a good level of agreement between direct and indirect methods used for calculating the tumble ratio. [ABSTRACT FROM AUTHOR]

Published

2019

10. A Combined Experimental and Numerical Characterization of the Flowfield and Heat Transfer around a Multiperforated Plate with Compound Angle Injection

Author

Emmanuel Laroche, David Donjat, and Philippe Reulet

Subjects

film cooling, JICF, stereo PIV, heat transfer, RANS, RSM model, Technology

Abstract

The aerodynamic and thermal behaviour of multiperforated zones in combustors is essential to the development of future combustion chambers. Detailed databases are therefore crucial for the validation of RANS/LES solvers, but also regarding the derivation of heat transfer correlations used in 0D/1D in-house codes developed by engine manufacturers. In the framework of FP7 EU SOPRANO Program, the test-rig used in a previous study is modified to be compatible with anisothermal conditions. The plate studied is a 12:1 model with a 90∘ compound angle injection. A heating system is used to generate a moderate temperature gradient of about 20 K between the secondary hot flow and the main cold flow. The aerodynamic field is acquired by a PIV 2D-3C (Stereo Particle Image Velocimetry) system. The surface heat transfer coefficient is derived based on surface temperature distribution acquisitions. Several heating power levels are tested, which allows evaluating the convective heat transfer coefficient and reference temperature through a linear regression. Measurements are conducted on both sides of the plate, which also gives access to those quantities on the injection/suction sides. From a numerical point of view, the configuration is studied using the unstructured ONERA in-house CEDRE solver with an advanced Reynolds Stress Model. A systematic comparison is presented between the experimental and numerical database. Due to the high blowing ratio, the film protection is low in the first rows, with a convective heat transfer coefficient enhancement around three, and freestream cold air brought close to the wall by vortices created at injection. After four rows, the film is building up, leading gradually to a better insulation of the wall. The comparison with the numerical simulation exhibits a qualitative agreement on the main flow structures. However, the mixing between the jets, the film and the freestream is underestimated by the calculation.

Published

2021

11. Using a Novel In Vitro Fontan Model and Condition-Specific Real-Time MRI Data to Examine Hemodynamic Effects of Respiration and Exercise.

Author

Tree, Michael, Wei, Zhenglun Alan, Trusty, Phillip M., Raghav, Vrishank, Fogel, Mark, Maher, Kevin, and Yoganathan, Ajit

Abstract

Several studies exist modeling the Fontan connection to understand its hemodynamic ties to patient outcomes (Chopski in: Experimental and Computational Assessment of Mechanical Circulatory Assistance of a Patient-Specific Fontan Vessel Configuration. Dissertation, 2013; Khiabani et al. in J Biomech 45:2376-2381, 2012; Taylor and Figueroa in Annu Rev Biomed 11:109-134, 2009; Vukicevic et al. in ASAIO J 59:253-260, 2013). The most patient-accurate of these studies include flexible, patient-specific total cavopulmonary connections. This study improves Fontan hemodynamic modeling by validating Fontan model flexibility against a patient-specific bulk compliance value, and employing real-time phase contrast magnetic resonance flow data. The improved model was employed to acquire velocity field information under breath-held, free-breathing, and exercise conditions to investigate the effect of these conditions on clinically important Fontan hemodynamic metrics including power loss and viscous dissipation rate. The velocity data, obtained by stereoscopic particle image velocimetry, was visualized for qualitative three-dimensional flow field comparisons between the conditions. Key hemodynamic metrics were calculated from the velocity data and used to quantitatively compare the flow conditions. The data shows a multi-factorial and extremely patient-specific nature to Fontan hemodynamics. [ABSTRACT FROM AUTHOR]

Published

2018

12. Closure on discussion Experimental study on the 3D-flow of a freesurface vortex using stereo PIV

Author

Francois Clemens, Alex Duinmeijer, and Gosse Oldenziel

Subjects

Field (physics), Closure (topology), Mechanics, Geology, Stereo piv, Water Science and Technology, Civil and Structural Engineering, Vortex

Abstract

Closure to “Experimental study on the 3D-flow field of a free-surface vortex using stereo PIV” by ALEX DUINMEIJER, GOSSE OLDENZIEL and FRANCOIS CLEMENS, J. Hydraulic Res. 58(1), 2020, 105–119, http...

Published

2021

13. Investigation on free-surface vortices within a closed pump intake under different pressure conditions using stereo PIV

Author

Xuelin Tang, Fujun Wang, Miao Guo, Xiaoyan Shi, and Xiaoqin Li

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, 0211 other engineering and technologies, Vorticity distribution, 02 engineering and technology, Mechanics, 01 natural sciences, Stereo piv, Vortex, Physics::Fluid Dynamics, Nuclear Energy and Engineering, Condensed Matter::Superconductivity, Free surface, 0103 physical sciences, 021108 energy

Abstract

This paper examines free-surface vortices and the vorticity distribution with time-dependent evolution within a closed pump intake under five pressure conditions. The location and the strength of t...

Published

2020

14. 音場浮遊された揮発性液滴の内部流動ステレオ計測.

Author

丹 羽 基 能, 渡 邉 歩, 長谷川 浩 司, 金 子 暁 子, and 阿 部 豊

Abstract

This paper describes experimental investigation on the three-dimensional internal flow structures of the acoustic levitated volatile droplets by stereo PIV. The acoustic levitation is one of the effective techniques to levitate and manipulate droplets in air. In order to apply the acoustic levitation to various fields such as the material science, analytical chemistry, drug discovery and so on, it is essential to understand the flow structures and transport phenomena on the acoustically levitated droplet. Our observation shows the internal flow structure is changed with the increase of the saturated vapor pressure of the levitated droplets. In the case of decane, nonane, octane, heptane, hexane and pentane droplets, the rotational motion is generated in each droplet. In the case of ethanol and methanol droplets, there is the flow from the equator toward the center of the droplet in the horizontal plane. In addition, the two or four vortices are generated in the horizontal plane with the increase of the droplet diameter. [ABSTRACT FROM AUTHOR]

Published

2016

15. AVT-183 diamond wing flow field characteristics Part 2: Experimental analysis of leading-edge vortex formation and progression.

Author

Hövelmann, Andreas, Grawunder, Moritz, Buzica, Andrei, and Breitsamter, Christian

Subjects

*TRAPEZOIDAL wings (Airplanes), *DIAMONDS, *WIND tunnels, *AERODYNAMICS, *HOT-wire anemometer

Abstract

Experimental flow field investigations are presented on a 53° leading-edge sweep diamond wing configuration with rounded leading-edge contour. The analyses pertain to recent work that was conducted within the NATO Science and Technology Organization (STO) task group AVT-183 (Applied Vehicle Technology panel). The results obtained in a low-speed wind tunnel facility depict the overall aerodynamic characteristics as function of the angle of attack, and mean and turbulent flow field characteristics at one specific angle of attack, namely α = 12 ° . Both Stereo Particle Image Velocimetry and Hot-Wire Anemometry are applied to detect the emerging flow phenomena in several chordwise sections including near-wall data. Details of the leading-edge vortex formation and progression are analyzed and discussed. Over almost the entire length of its existence, the leading-edge vortex is characterized by retarded axial flow, thus showing vortex bursting tendencies. The corresponding turbulent fluctuations show maxima close to the evolution of the leading-edge vortex and decrease towards the trailing edge. The observed flow separation onset and progression are significant for the AVT-183 diamond wing configuration, and more generally for a moderately-swept low-aspect-ratio wing with rounded leading-edge contour. Following, the derived flow field characteristics provide a high-quality data base, which is suitable for general CFD validation. [ABSTRACT FROM AUTHOR]

Published

2016

16. Peregrine falcon wakes examined using Volumetric PIV

Author

Chetan Jagadeesh, Edward Talboys, Martin Hyde, and Daniel Troolin

Subjects

Flume, Field (physics), Mechanics, Wake, Flow field, Geology, Stereo piv, Freestream, Vortex, Volumetric flow rate

Abstract

This study presents time-resolved volumetric measurements in the wake of a peregrine falcon model. The experiments were performed in a water flume with a freestream velocity of 10 cm/s and at an angle of 3.25°. The TSI volumetric PIV system, using Insight V3V-4G software, was used to capture the time-resolved volumetric flow field. The results compare well with previous Stereo PIV measurements; however, the present results also provide true 3-dimensional flow field information which helps decode the reason for the superior maneuverability. This is attributable to the vortex dominated flow field promoted by its morphology.

Published

2021

17. Influence of Aspect Ratio on Dynamic Stall of a Finite Wing

Author

Phillip J. Ansell and Ignacio Andreu Angulo

Subjects

Physics, 020301 aerospace & aeronautics, Wing, Aerospace Engineering, Stall (fluid mechanics), 02 engineering and technology, Mechanics, Three dimensional flow, 01 natural sciences, Stereo piv, 010305 fluids & plasmas, Unsteady flow, 0203 mechanical engineering, 0103 physical sciences

Abstract

The influence of aspect ratio (AR) on dynamic stall was studied by comparing experimental performance data and three-component velocity measurements acquired for wings of AR=3, 4, and 5, and an air...

Published

2019

18. The influence of large eddies on the structure of turbulent premixed flames characterized with stereo-PIV and multi-species PLIF at 20 kHz

Author

James R. Gord, James F. Driscoll, Stephen D. Hammack, Campbell D. Carter, Joseph D. Miller, and Aaron W. Skiba

Subjects

Premixed flame, Materials science, Eddy, Turbulence, Mechanical Engineering, General Chemical Engineering, Flame structure, Multi species, Laminar flow, Mechanics, Physical and Theoretical Chemistry, Thermal diffusivity, Stereo piv

Abstract

Interactions between turbulent structures (eddies) and premixed flame fronts were characterized with simultaneous CH2O-/OH-PLIF and stereo-PIV at high framing rate (20 kHz). The high temporal resolution of these measurements permitted the tracking and subsequent characterization of the evolution of turbulence–flame interactions. Common events were identified and their effects on the flame structure were assessed, the first of these being that the flame front was locally broadened by large eddies (i.e. those larger than twice the laminar flame thickness). The results suggest that large eddies likely have a two-fold effect on the overall propagation rate, one linked to the increase in burning area (consistent with classical theories) and the other stemming from an enhancement in the local diffusivity experienced by the flame. While this latter point has not been predicted, it has been postulated that large eddies could convect preheated fluid upstream of the flame. To our knowledge the results presented here provide the first conclusive experimental evidence of this phenomenon. The second common event was the persistence of locally thin preheat layers through extremely turbulent flow fields (i.e. those possessing scales much smaller than the laminar flame thickness). Comparisons between sequences of such events and those where broadening occurred indicate that the latter is typically associated with elevated turbulent diffusivity, which supports arguments in favor of using a criterion based on a ratio of diffusivities rather than length scales to predict the onset of preheat-zone broadening.

Published

2019

19. Computational fluid dynamics analysis of the wake behind the MEXICO rotor in axial flow conditions.

Author

Carrión, M., Steijl, R., Woodgate, M., Barakos, G., Munduate, X., and Gomez‐Iradi, S.

Subjects

COMPUTATIONAL fluid dynamics, AXIAL flow, WIND turbines, WIND speed measurement, VELOCITY

Abstract

This paper presents a computational investigation of the wake of the MEXICO rotor. The compressible multi-block solver of Liverpool University was employed, using a low-Mach scheme to account for the low-speed flow near the blade and in the wake. In this study, computations at wind speeds of 10, 15 and 24 m s − 1 were performed, and the three components of the velocity were compared against experimental data around the rotor blade up to one and a half rotor diameters downstream. Overall, fair agreement was obtained with the computational fluid dynamics showing good vortex conservation near the blade. Vorticity values revealed discontinuities in the wake at approximately 70%R, where two different aerofoils with different zero-lift angles are blended. The results suggest that all-Mach schemes for compressible computational fluid dynamics methods can deliver good performance and accuracy over all wind speeds for flows around wind turbines, without the need to switch between incompressible and compressible flow methods. Copyright © 2014 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2015

20. Investigation of flame propagation in a partially premixed jet by high-speed-Stereo-PIV and acetone-PLIF.

Author

Weinkauff, J., Trunk, P., Frank, J.H., Dunn, M.J., Dreizler, A., and Böhm, B.

Abstract

This paper presents an experimental study of flame propagation through a partially-premixed flow following ignition. A combination of simultaneous high-speed acetone planar laser induced fluorescence (PLIF) and stereoscopic particle image velocimetry (SPIV) was utilized for time-resolved measurements of mixture fraction, flow field and flame position. This provides access to the major quantities needed to characterize non-premixed flames. High quality mixture fraction measurements with signal-to-noise ratios up to 120 for unity mixture fraction were made feasible using a combination of a conventional high-speed laser at 10 kHz for LIF excitation and a wavelet based de-noising algorithm to reject camera noise. It was observed that flame propagation in the far-field of a partially-premixed jet takes place in a premixed mode, with the flame propagating through highly stratified mixtures until it approaches locations containing mixtures outside the flammability limits. In these areas the flame recedes and further propagation is controlled by mixing processes of air and fuel. Even though flame propagation is then mixing-controlled, the flame is not observed to switch into a non-premixed mode. Instead, mixing ahead of the flame takes place until locally premixed flammable mixtures are recovered for subsequent flame propagation. [ABSTRACT FROM AUTHOR]

Published

2015

21. On the free-surface vortex driven motion of buoyant particles

Author

Duinmeijer, S.P.A. (author) and Duinmeijer, S.P.A. (author)

Abstract

This is an experimental and theoretical research on the motion of buoyant particles in the flow of a free-surface vortex at moderate to high particle Reynolds numbers., Sanitary Engineering

Published

2020

22. Experimental study on the 3D-flow field of a free-surface vortex using stereo PIV

Author

Maryam Azarpira and Amir Reza Zarrati

Subjects

Physics, Flow (mathematics), Field (physics), Free surface, Mechanics, Stereo piv, Water Science and Technology, Civil and Structural Engineering, Vortex

Abstract

The Authors have investigated and analysed comprehensive information on the vortex flow characteristics and specifically have examined the performance of the Burger model. They have incorporated st...

Published

2021

23. A Combined Experimental and Numerical Characterization of the Flowfield and Heat Transfer around a Multiperforated Plate with Compound Angle Injection

Author

Philippe Reulet, David Donjat, Emmanuel Laroche, ONERA / DMPE, Université de Toulouse [Toulouse], and ONERA-PRES Université de Toulouse

Subjects

Materials science, 020209 energy, RANS, Flow (psychology), 02 engineering and technology, Heat transfer coefficient, lcsh:Technology, Stereo PIV, [SPI]Engineering Sciences [physics], Heat transfer, 0202 electrical engineering, electronic engineering, information engineering, JICF, [PHYS]Physics [physics], RSM model, lcsh:T, 020208 electrical & electronic engineering, Aerodynamics, Mechanics, Heating system, Effusion cooling, Compound injection, Particle image velocimetry, Combustion chamber, Reynolds-averaged Navier–Stokes equations, Film cooling

Abstract

The aerodynamic and thermal behaviour of multiperforated zones in combustors is essential to the development of future combustion chambers. Detailed databases are therefore crucial for the validation of RANS/LES solvers, but also regarding the derivation of heat transfer correlations used in 0D/1D in-house codes developed by engine manufacturers. In the framework of FP7 EU SOPRANO Program, the test-rig used in a previous study is modified to be compatible with anisothermal conditions. The plate studied is a 12:1 model with a 90∘ compound angle injection. A heating system is used to generate a moderate temperature gradient of about 20 K between the secondary hot flow and the main cold flow. The aerodynamic field is acquired by a PIV 2D-3C (Stereo Particle Image Velocimetry) system. The surface heat transfer coefficient is derived based on surface temperature distribution acquisitions. Several heating power levels are tested, which allows evaluating the convective heat transfer coefficient and reference temperature through a linear regression. Measurements are conducted on both sides of the plate, which also gives access to those quantities on the injection/suction sides. From a numerical point of view, the configuration is studied using the unstructured ONERA in-house CEDRE solver with an advanced Reynolds Stress Model. A systematic comparison is presented between the experimental and numerical database. Due to the high blowing ratio, the film protection is low in the first rows, with a convective heat transfer coefficient enhancement around three, and freestream cold air brought close to the wall by vortices created at injection. After four rows, the film is building up, leading gradually to a better insulation of the wall. The comparison with the numerical simulation exhibits a qualitative agreement on the main flow structures. However, the mixing between the jets, the film and the freestream is underestimated by the calculation.

Published

2021

24. A Combined Experimental and Numerical Characterization of the Flowfield and Heat Transfer around a Multiperforated Plate with Compound Angle Injection

Author

Reulet, Emmanuel Laroche, David Donjat, and Philippe

Subjects

film cooling, JICF, stereo PIV, heat transfer, RANS, RSM model

Abstract

The aerodynamic and thermal behaviour of multiperforated zones in combustors is essential to the development of future combustion chambers. Detailed databases are therefore crucial for the validation of RANS/LES solvers, but also regarding the derivation of heat transfer correlations used in 0D/1D in-house codes developed by engine manufacturers. In the framework of FP7 EU SOPRANO Program, the test-rig used in a previous study is modified to be compatible with anisothermal conditions. The plate studied is a 12:1 model with a 90∘ compound angle injection. A heating system is used to generate a moderate temperature gradient of about 20 K between the secondary hot flow and the main cold flow. The aerodynamic field is acquired by a PIV 2D-3C (Stereo Particle Image Velocimetry) system. The surface heat transfer coefficient is derived based on surface temperature distribution acquisitions. Several heating power levels are tested, which allows evaluating the convective heat transfer coefficient and reference temperature through a linear regression. Measurements are conducted on both sides of the plate, which also gives access to those quantities on the injection/suction sides. From a numerical point of view, the configuration is studied using the unstructured ONERA in-house CEDRE solver with an advanced Reynolds Stress Model. A systematic comparison is presented between the experimental and numerical database. Due to the high blowing ratio, the film protection is low in the first rows, with a convective heat transfer coefficient enhancement around three, and freestream cold air brought close to the wall by vortices created at injection. After four rows, the film is building up, leading gradually to a better insulation of the wall. The comparison with the numerical simulation exhibits a qualitative agreement on the main flow structures. However, the mixing between the jets, the film and the freestream is underestimated by the calculation.

Published

2021

25. Diagnostics of jet flows by using tomographic particle image velocimetry.

Author

Alekseenko, M., Bilsky, A., Dulin, V., Kozinkin, L., Markovich, D., and Tokarev, M.

Abstract

A modern method of velocity measurement in a flow volume on the basis of few-projections optical tomography and correlation of moving particles is considered. The method is used to measure instantaneous three-dimensional velocity distributions in non-swirling and swirling turbulent jet flows. In addition to measurement of three-dimensional velocity distributions, specific features of this experiment are a larger depth of the measurement region (up to 40 mm) and a higher resolution of cameras (up to 4 MP as compared to previous authors' tomographic measurements). To verify the correctness of tomographic measurements, the velocity in the plane passing along the jet axis is measured by the Stereo PIV method. The difference between the stereoscopic and tomographic measurements of three components of the mean velocity for the flows considered in this study is smaller than 10%. A three-dimensional vortex structure of the core of a swirling jet is visualized with a spatial resolution of 3 mm. [ABSTRACT FROM AUTHOR]

Published

2014

26. Entwicklung des Strömungszustandes an einer gravimetrischen Kalt- und Warmwasser-Normalmessanlage für große Volumenströme Water flow conditions in a gravimetric standard measurement system for large volume flows.

Author

Eichler, Thomas and Lederer, Thomas

Abstract

Die Ausbildung der Strömung fließenden Wassers einer gravimetrischen Kalt- und Warmwasser-Normalmessanlage für große Volumenströme wird anhand von Stereoscopic Particle Image Velocimetry (SPIV)-Messungen an verschiedenen Positionen gezeigt. Dabei wird nachgewiesen, dass an dieser Prüfanlage nahezu optimale Strömungszustände zur Kalibrierung von Durchflusssensoren gewährleistet werden. SPIV eignet sich als schnelles und präzises Messverfahren zur zeitlich und räumlich hochaufgelösten Ermittlung von 3D-Geschwindigkeitsverteilungen in Rohrleitungen. The conditions of a cold and hot water standard test section have been investigated with Stereo PIV in different positions. Optimal requirements for the calibration of flow meters could be proved. Stereoscopic Particle Image Velocimetry (SPIV) is a fast and precise measurement method for the investigation of 3D velocity distributions in pipes with a high time resolution and spatial resolution. [ABSTRACT FROM AUTHOR]

Published

2014

27. Numerische und experimentelle Untersuchungen von Scherschichten und Wirbeln bei adversem Druckgradienten unter Verwendung differentieller Reynoldsspannungsmodelle

Author

Morsbach, Christian, Matha, Marcel, Klinner, Joachim, Schroll, Michael, Kügeler, Edmund, and Willert, Christian

Subjects

DRSM, RANS, Stereo PIV, Diffusor

Published

2020

28. Stereo-PIV Measurements of Turbulent Swirling Flow Inside a Pipe

Author

Afshin Goharzadeh, Lyes Khezzar, Mohamed Alshehhi, Ayesha Almheiri, and Saqib Salam

Subjects

Physics::Fluid Dynamics, Flow (mathematics), Turbulence, Mechanics, Geology, Stereo piv

Abstract

Stereo-PIV is used to map turbulent strongly swirling flow inside a pipe connected to a closed recirculating system with a transparent test section of 0.6 m in length and a pipe diameter of 0.041 m. The Perspex pipe was immersed inside a water trough to reduce the effects of refraction. The working fluid was water and the Reynolds number based on the bulk average velocity inside the pipe and pipe diameter was equal to 14,450. The turbulent flow proceeds in the downstream direction and interacts with a circular disk. The measurements include instantaneous velocity vector fields and radial profiles of the mean axial, radial and tangential components of the velocity in the regions between the swirler exit and circular disk and around this later. The results for mean axial velocity show a symmetric behavior with a minimum reverse flow velocity along the centerline. As the flow developed along the pipe’s length, the intensity of the reversed flow was reduced and the intensity of the swirl decays. The mean tangential velocity exhibits a Rankine-vortex distribution and reached its maximum around half of the pipe’s radius. As the flow approaches the disk, the flow reaches stagnation and a complex flow pattern of vortices is formed. The PIV results are contrasted with LDV measurements of mean axial and tangential velocity. Good agreement is shown over the mean velocity profiles.

Published

2020

29. On the free-surface vortex driven motion of buoyant particles

Author

Duinmeijer, S.P.A., Clemens, F.H.L.R., Oldenziel, G., and Delft University of Technology

Subjects

Physics::Fluid Dynamics, Free-surface vortex transport, Particle motion, Vortex core, Buoyant particles, Helical motion, 2D/3D-PTV, Taylor-column, Stereo PIV

Abstract

This is an experimental and theoretical research on the motion of buoyant particles in the flow of a free-surface vortex at moderate to high particle Reynolds numbers.

Published

2020

30. Experimental study on the 3D-flow field of a free-surface vortex using stereo PIV

Author

Francois Clemens, Alex Duinmeijer, and Gosse Oldenziel

Subjects

Field (physics), 0208 environmental biotechnology, 02 engineering and technology, vortex dynamics, 01 natural sciences, Air core depth, 010305 fluids & plasmas, Physics::Fluid Dynamics, Condensed Matter::Superconductivity, axial vortex flow, 0103 physical sciences, stereo particle image velocimetry (SPIV), vortex core radius, Water Science and Technology, Civil and Structural Engineering, Physics, Mechanics, experiments, Vorticity, Stereo piv, 020801 environmental engineering, Vortex, Particle image velocimetry, Flow (mathematics), Computer Science::Computer Vision and Pattern Recognition, Free surface, Burgers vortex, Burgers vortex model

Abstract

In order to analyse the flow characteristics of free-surface vortexes and to validate the Burgers vortex model by using stereo particle image velocimetry, experiments are conducted in a 600 mm diameter vortex tank. Measured axial velocities indicate that 10–25% of the flow is transported through the vortex core. The velocity profiles show that the axial flow is concentrated in a domain bounded by two times the core radius. Despite Burgers’ assumption of radially independent axial velocity profiles, the model quantifies the tangential velocity profile within a relative uncertainty of circa 10%. The measurements show that it seems valid to use Burgers’ model to obtain an estimate for the core radius by taking the average axial velocity over a radial domain of approximately 2.2 times the core radius. The Burgers model quantifies the air core depth with an uncertainty of 20% relative to the measurements. When compared with the magnitude of vorticity diffusion by molecular viscosity, the experiments show that there is no significant diffusion by radial turbulence.

Published

2020

31. Application of stereo PIV to the 70° delta wing at subsonic speed

Author

Yong Cheng, Lei Liang, Cheng-lin Zuo, Chunhua Wei, and Tingrui Yue

Subjects

Physics, History, Delta wing, Acoustics, Stereo piv, Computer Science Applications, Education

Abstract

A stereo PIV technique is utilized for the analysis of the flow field over a 70° delta wing. Instantaneous velocity vectors are measured at a series of stations in the chordwise direction. The angle of attack from 0° to 45° are investigated with the free stream velocities of 20, 30, 40, 50 and 60 m/s, respectively. The velocity measurements conducted in a small-sized subsonic wind tunnel (1.8m×1.4m) at China Areodynamics Research and Development Center (CARDC) are compared with the previously obtained PSP results. The comparison shows a good agreement with each other, providing the validity of the PIV technique as well as indicating its effectiveness to investigate complex flow fields in a fairly large-scale wind tunnel facility.

Published

2021

32. LES of fluctuating wind pressure on a 3D square cylinder for PIV-based inflow turbulence.

Author

Maruyama, Yusuke, Tamura, Tetsuro, Okuda, Yasuo, and Ohashi, Masamiki

Subjects

*LARGE eddy simulation models, *PARTICLE image velocimetry, *TURBULENT boundary layer, *WIND pressure, *REYNOLDS number, *COMPUTER simulation

Abstract

Abstract: This paper carried out LES of the fluctuating wind pressures on a three-dimensional square cylinder for PIV-based inflow turbulence. Numerical simulation has generated inflow turbulence by directly using the stereo PIV measurement data at inflow condition. Since this PIV experiment was executed at low Reynolds number, the Reynolds number of inflow turbulence numerically obtained was also low. So we try to raise the Reynolds number for inflow turbulence by employing the new numerical technique on the basis of the scale similarity concept. Also, using the obtained inflow data at the higher Reynolds number, we performed LES of a square-cylinder flow. By comparison with wind tunnel experimental results, it can be confirmed that high Reynolds number inflow turbulence tends to modify the pressure characteristics on a 3D square cylinder. We can validate the proposed method which can appropriately transform the original flows to the turbulent boundary layer flows at higher-Reynolds number. [Copyright &y& Elsevier]

Published

2013

33. On Impact of Helical Structures on Stabilization of Swirling Flames with Vortex Breakdown

Author

Dulin, V. M. (author), Lobasov, A. S. (author), Chikishev, L. M. (author), Markovich, D. M. (author), Hanjalic, K. (author), Dulin, V. M. (author), Lobasov, A. S. (author), Chikishev, L. M. (author), Markovich, D. M. (author), and Hanjalic, K. (author)

Abstract

We report on a study of the impact of coherent helical vortex structures on the shape of the reaction zone and heat release in swirling methane/air flames in regimes with a vortex breakdown. Three kinds of atmospheric flames are considered, viz., fuel-lean and fuel-rich premixed flames and a partially premixed fuel-rich lifted flame. Based on the measurements of the velocity fields by a stereo PIV in combination with the OH PLIF and HCHO PLIF, the impact of the coherent flow structures on large-scale corrugations of the reaction zone is evaluated. Helical vortex structures, detected in both the non-reacting and reacting high-swirl flows by using proper orthogonal decomposition, are found to promote combustion both in the lean premixed and fuel-rich partially premixed flames. In the first case, based on the phase-averaged intensity of the HCHO×OH signal and the location of the helical vortex structure in the inner mixing layer, it is concluded that the vortex locally increases the heat release rate by enlarging the flame front and enhancing the mass exchange between the combustion products inside the recirculation zone and the fresh gases. The events of the local flame extinctions are detected in the instantaneous PLIF snapshots for the lean mixture, but they do not cause extinction of the entire flame or a blow-off. In case of the lifted flame, the outer helical vortex structure promotes combustion by locally intensifying the mass exchange between the fuel-rich jet with the surrounding air., Accepted Author Manuscript, ChemE/Transport Phenomena

Published

2019

34. Stereo-PIV measurement of turbulence characteristics in a flow mixer.

Author

Shekhar, Chandra, Nishino, Koichi, Yamane, Yoshiyuki, and Huang, Jian

Abstract

Three-component, turbulent flow measurements are performed using stereo PIV technique, in a cylindrical, stirred, water-flow mixer, with commercially available HR-100 as the impeller, which has three identical blades, separated by 120° with each other. The flow is analyzed at twelve axisymmetric, vertical planes, with the regular angular interval of 10°, so that the 12 planes cover the whole 120° separation between any two of the impeller blades. The results show that the turbulence mixing below the impeller is much higher than that above it, as the bulk fluid motion convects down the turbulence produced at the blade-water interfaces. Moreover, vortices with high level of turbulence, overwhelmingly dominated by the tangential velocity fluctuations, are created near the tips of the blades and convected downward, with their turbulence gradually dissipating with time. When these vortices are connected throughout the domain, they constitute three disconnected, helical arcs, each of which is connected to the tip of a blade and extends downward in the opposite direction to the rotation of the impeller. The arcs rotate with the same angular velocity of the impeller. The mean velocity and turbulence statistics of the flow are discussed at each of the alternate measurement planes. Graphical Abstract: [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2012

35. LES of turbulent boundary layer for inflow generation using stereo PIV measurement data

Author

Maruyama, Yusuke, Tamura, Tetsuro, Okuda, Yasuo, and Ohashi, Masamiki

Subjects

*WIND pressure, *THERMAL boundary layer, *COMPUTATIONAL fluid dynamics, *PARTICLE image velocimetry, *FLUCTUATIONS (Physics), *WIND speed

Abstract

Abstract: CFD has come to be used in the prediction of wind loads by the development of computer. Wind loads acting on buildings located in turbulent boundary layer are affected by the characteristic of approach flow strongly. Because inflow wind fluctuations affect the results of calculation with CFD, various kinds of methods to generate inflow wind fluctuations are suggested. On the other hand in wind tunnel experiment, PIV (Particle image velocimetry) technology has improved and been able to catch the high frequency turbulent fluctuations. We can acquire time–dependent–data of three-dimensional wind velocity components directly by stereo PIV. This report presents the result of LES calculation of turbulent boundary layer developed on flat floor for inflow generation using stereo PIV measurement results, and we discuss the applicability and the utility of this method. The simulated results show that the turbulent boundary layer is formed and reaches the equilibrium state at a relatively short distance from the starting point of computation. It can be thought that this method is useful for reproducing a turbulent boundary layer by LES. [Copyright &y& Elsevier]

Published

2012

36. Preliminary analysis of the flow field in a transparent model of a SRF cavity by PIV

Author

D. Sertore, A. D' Ambros, F. Cozzi, G. Pianello, and C. Pagani

Subjects

History, Materials science, Buffered Chemical Polish, business.industry, Refractive Index Matching, Flow field, Stereo PIV, Computer Science Applications, Education, Preliminary analysis, Stereo PIV, Refractive Index Matching, Buffered Chemical Polish, Niobium superconductive radio frequency cavities, Optics, Niobium superconductive radio frequency cavities, business

Abstract

Niobium superconductive radio frequency cavities (SRF cavities) are commonly employed in linear accelerator; very pure, clean, and smooth internal walls are required to make the cavity working properly and with a high Q factor. Typically, to achieve a suitable surface quality the SRF cavities are subjected to a surface treatment called Buffered Chemical Polish (BCP), the latter uses a strong concentrated acids mixture flowing through the cavity to chemically etch a thin niobium layer (∼250 μm). A viable way to understand and optimize the BCP process is by using computational fluid dynamic (CFD); however, the experimental validation of the numerical and physical models is required to confidently use CFD results. The aim of our work is to investigate the fluid dynamics of the BCP process by using the Particle Image Velocimetry (PIV) and the refractive index matching (RIM) techniques, and to provide data to validate CFD simulations. The paper describes and briefly analyse the experimental setup and the preliminary results achieved so far.

Published

2021

37. Stereo-PIV study of unsteady flow in a laboratory air hydro turbine model over a wide range of operating regimes

Author

D. A. Suslov, D. K. Sharaborin, Sergey Shtork, I. V. Litvinov, and E. U. Gorelikov

Subjects

Unsteady flow, Range (statistics), Environmental science, Turbine, Stereo piv, Marine engineering

Abstract

Swirl flow with the formation of a precessing vortex core (PVC) in a hydro turbine draft tube model was studied using Stereo-PIV and four acoustic sensors. Experiments were performed on an aerodynamic setup in a wide range of operating conditions of the hydro turbine. Using a spatial Fourier decomposition of pressure pulsation data obtained from four acoustic sensors, a PVC was observed for part-load operating regimes (0.3-0.7Qc ). Mean flow features were shown for the range of operating regimes from a deep part-load regime (0.3Qc ) to an overload regime (1.5Qc ). Based on phase-averaged velocity distributions, the PVC spatial structure was identified for maximum pressure pulsations on the cone walls of the draft tube.

Published

2021

38. Effect of axisymmetric forcing on the structure of a swirling turbulent jet

Author

Alekseenko, Sergey V., Dulin, Vladimir M., Kozorezov, Yuriy S., and Markovich, Dmitriy M.

Subjects

*JETS (Fluid dynamics), *ATOMIZATION, *ANISOTROPY, *CRYSTALLOGRAPHY

Abstract

Abstract: With the aid of the Stereo PIV technique, the local structure of swirling free turbulent jets is investigated under the following flow conditions: the Reynolds number was equal to 8900, and the swirl number varied from 0 to 1.0. The effect on the jet flow structure of external periodical forcing, applied with an axisymmetric mode to the inlet velocity, was studied. Also investigated were the flow response to the forcing at two Strouhal numbers, St =0.52 and 1.2, and with various forcing amplitudes. Additional measurements with application of the conditional sampling approach were performed in order to analyze spatio-temporal dynamics of the large-scale ring-like vortices, generated in the forced jet at a low swirl rate. The greatest effect of the forcing on the swirling jet structure was observed in the case of the high swirl rate (S =1.0), which was previously considered to be largely insensitive to external forcing. The forcing at St =1.2 with relatively high amplitude resulted in an abrupt change in the turbulent structure of the flow: an increase of total turbulent kinetic energy and strong anisotropy of its components took place. [Copyright &y& Elsevier]

Published

2008

39. Detachment and attachment of an axisymmetric non-reactive jet with turbulent shear layer: Control by plasma actuator

Author

Benard, N., Braud, P., Touchard, G., and Moreau, E.

Subjects

*FLUID dynamics, *MECHANICAL engineering, *AIR jets, *AIR flow

Abstract

Abstract: The control of an axisymmetric air jet equipped with a small-angle diffuser exhaust using a single non-thermal plasma actuator is studied with a stereoscopic PIV system. A single Dielectric Barrier Discharge (DBD) actuator is used to separate a naturally attached flow (12° angle diffuser) or to reattach a naturally separated one (22° angle diffuser). The experimental set-up allows us to measure the flow modifications occurring at the bevel of the diffuser. The actuator can generate a local flow (electric wind) of 6ms−1 used to modify an axisymmetric air jet with centreline velocities of 10, 20 and 30ms−1. The flow modifications under actuation are investigated in terms of time-averaged, phased-averaged fields as well as eddy localization. The analysis is mainly focused on the lower primary jet velocity at which the actuator presents a high efficiency. The results highlight that a plasma actuator can force the flow separation or attachment in a few dozen of milliseconds and that this device can be effective to manipulate the coherent structures surrounding the potential core. The global conclusion of the present study is that a single DBD actuator could be an effective device to promote the vortex shedding at the diffuser lip of an axisymmetric air jet. This may results in an improvement of the mixing characteristics, at least in the near-field region. [Copyright &y& Elsevier]

Published

2008

40. Experimental study of an impinging jet with different swirl rates

Author

Alekseenko, Sergey V., Bilsky, Artur V., Dulin, Vladimir M., and Markovich, Dmitriy M.

Subjects

*ATOMIZATION, *PROPERTIES of matter, *SEMICONDUCTOR doping, *SEPARATION (Technology)

Abstract

Abstract: A stereo PIV technique using advanced pre- and post-processing algorithms is implemented for the experimental study of the local structure of turbulent swirling impinging jets. The main emphasis of the present work is the analysis of the influence of swirl rate on the flow structure. During measurements, the Reynolds number was 8900, the nozzle-to-plate distance was equal to three nozzle diameters and the swirl rate was varied from 0 to 1.0. For the studied flows, spatial distributions of the mean velocity and statistical moments (including triple moments) of turbulent pulsations were measured. The influence of the PIV finite spatial resolution on the measured dissipation rate and velocity moments was analyzed and compared with theoretical predictions. For this purpose, a special series of 2D PIV measurements was carried out with vector spacing up to several Kolmogorov lengthscales. All terms of the axial mean momentum and the turbulent kinetic energy budget equations were obtained for the cross-section located one nozzle diameter from the impinging plate. For the TKE budget, the dissipation term was directly calculated from the instantaneous velocity fields, thereby allowing the pressure diffusion term to be found as a residual one. It was found that the magnitude of pressure diffusion decreased with the growth of the swirl rate. In general, the studied swirling impinging jets had a greater spread rate and a more rapid decay in absolute velocity when compared to the non-swirling jet. [Copyright &y& Elsevier]

Published

2007

41. Advanced Measurement Techniques Used in the Joined Measurement Campaign

Author

Reinhard Geisler, Janos Agocs, and Daniel Schanz

Subjects

business.industry, Computer science, tomo-PIV, Mars Exploration Program, 01 natural sciences, Synthetic jet actuator, flow control, Stereo piv, 010305 fluids & plasmas, PIV, 010309 optics, 0103 physical sciences, Synthetic jet, Metre, Aerospace engineering, business, Actuator, Plasma actuator, Wind tunnel

Abstract

A joint measurement campaign has been performed by the MARS project partners NUAA, CNRS (Poitiers) and DLR. The objective was to apply advanced measurement techniques to the actuator types which turned out to be most promising in the previous investigations. The selected devices were synthetic jet actuators from NUAA and plasma actuators from CNRS. Both actuator types were investigated in a backward facing step (BFS) geometry. Additional measurements took place using the synthetic jet actuator in a NACA-0015 profile from NUAA. For the measurements, a tomographic PIV and a long-distance microscopic stereo PIV measurement system—both capable to provide time-resolved data—have been set up by DLR in the one meter wind tunnel (1MG) at DLR Gottingen. The successful completion of this intercontinental experimental cooperation provides results which are a valuable data base for comparison with and validation of numerical methods.

Published

2019

42. Comparison of Two Unstable Flow States in Turbulent Mixed Convection

Author

Daniel Schmeling, Daniel Schiepel, Claus Wagner, Konstantin A. Niehaus, and Michael Mommert

Subjects

Physics, Turbulence, Flow (psychology), Fast Fourier transform, Mode (statistics), Mechanics, rayleigh-bernard convection, Stereo PIV, flow reconfiguration, Power (physics), Physics::Fluid Dynamics, Amplitude, Combined forced and natural convection, generic passenger cabin ventilation, mixed convection, Event (particle physics)

Abstract

We present an experimental study focusing on the large- and small-scale structures in turbulent mixed convection. Measurements are conducted at stable conditions and during a reconfiguration event using temperature probes and triggered stereoscopic particle image velocimetry. It is found that the amplitude of the temperature distribution is higher for a state with three Large-Scale Circulations (LSC) than for a state with four LSCs. Furthermore, a correlation analysis of velocity fields measured during a reconfiguration process reveals the change of the dominant LSC mode. However, the mean spatial power distribution computed via a fast Fourier transformation reflects no changes in small-scale flow structures.

Published

2019

43. Unsteady swirl distortion characteristics for S-ducts using Lattice Boltzmann and time-resolved, stereo PIV methods

Author

Manuel Guerrero-Hurtado, David G. MacManus, Giuseppe Trapani, Matteo Migliorini, and Pavlos K. Zachos

Subjects

Physics, Distortion, Lattice Boltzmann methods, Stereo piv, Computational physics

Abstract

The unsteady flowfields generated by convoluted aero engine intakes are major sources of instabilities that can compromise the performance of the downstream turbomachinery components. This highlights theneed for high spatial and temporal resolution measurements that will allow a greater understanding of the aerodynamics but also improvements in our current predictive capability for such complex flows. This paper presents the validation of a modern Lattice Boltzmann method (LBM)to predict the unsteady flow and swirl distortion characteristics within a representative S-duct intake.The numerical results are compared against high spatial and temporal resolutionParticle Image Velocimetry(PIV)data for the same S-duct configuration at an inlet Mach number of0.27.The work demonstrates that LBM is broadly able to capture the flow topologies and temporal characteristics with the exception of the magnitude of the unsteady fluctuations which were found to be notably under-predicted compared to the PIV data. Proper Orthogonal Decomposition analysis shows that LBM is able to provide the key flow modes and their spectral distributions which were found broadly in alignment with the PIV data. A statistical assessment of the unsteady distortionhistoryhighlights that LBM can also provide representative distributions of the main swirl distortion descriptors. Overall the work demonstrates that LBM shows promising potential for S-duct unsteady flow predictions which combined with the minimum computational grid requirements, robustness and fast convergence make it an attractive solution for wider use in thearea of unsteady propulsion system aerodynamics.

Published

2019

44. Experimental Analysis of the Interaction between Streamwise Vortices and a High-Lift Airfoil

Author

Rolf Radespiel, Tobias Knopp, Tim Landa, Silvia Probst, and Lorenz Klug

Subjects

Airfoil, Physics, Lift (force), Delta wing, vortex, Mechanics, high-lift airfoil, Stereo PIV, Vortex

Published

2019

45. Progress on Experimental and Computational Investigation of Juncture Flows

Author

David Jeon, Abdollah Khodadoust, Stephanie Rider, Morteza Gharib, Michael Beyar, Christian Willert, Lie-Mine Gea, and Damian Hirsch

Subjects

Turbulence, Computer science, business.industry, Flow (psychology), Separation (aeronautics), turbulent boundary layer, separated flow, Stereo piv, Physics::Fluid Dynamics, High fidelity, particle Image velocimetry, wing-body-juncture flow, Calibration, long-range imaging, Aerospace engineering, business, Wind tunnel, Juncture

Abstract

This paper describes a set of measurements taken at the Caltech Lucas Wind Tunnel, along with Computational Fluid Dynamic analyses, on a wing-body configuration. The configuration is designed to produce regions of separation in the juncture where the wing meets the body. Detailed near- and off-body stereo PIV measurements in the juncture flow are compared with predictions from computational methods based on the Reynolds Average Navier Stokes formulation. The results from the experimental measurements will become part of a database of high fidelity measurements, to be used for calibration of turbulence models and validation of emerging computational techniques.

Published

2019

46. Turbulent Flame Structure and Dynamics in Swirling Reacting Flows: Insights from High-Speed Dual-Plane Stereo -PIV/OH-PLIF Measurements

Author

Matthew Sirignano, Sukesh Roy, Tongxun Yi, James R. Gord, Tim Lieuwen, Josef Felver, Danielle Stepien, Ianko Chterev, Raghul Manosh Kumar, Naibo Jiang, Paul S. Hsu, Christopher A. Fugger, and Benjamin Emerson

Subjects

Materials science, Turbulence, Dynamics (mechanics), Flame structure, Mechanics, Stereo piv, Dual plane

Published

2019

47. Study of Circular Chamber with Elbow Using Swirl Cooling Flow by 3-D Stereo-PIV

Author

Asfaw Beyene and Daisy Galeana

Subjects

medicine.anatomical_structure, Materials science, Acoustics, Elbow, medicine, Cooling flow, Stereo piv

Published

2019

48. On Impact of Helical Structures on Stabilization of Swirling Flames with Vortex Breakdown

Author

L. M. Chikishev, D. M. Markovich, Kemal Hanjalic, A. S. Lobasov, and Vladimir M. Dulin

Subjects

Materials science, General Chemical Engineering, Flow (psychology), Mixing (process engineering), General Physics and Astronomy, 02 engineering and technology, Combustion, 01 natural sciences, Swirling flame, Methane, Stereo PIV, 010305 fluids & plasmas, Physics::Fluid Dynamics, chemistry.chemical_compound, Precessing vortex core, 0203 mechanical engineering, 0103 physical sciences, HCHO PLIF, Conditional sampling, Physics::Chemical Physics, Physical and Theoretical Chemistry, Jet (fluid), Vortex breakdown, Mechanics, Mass exchange, Vortex, 020303 mechanical engineering & transports, Coherent structures, chemistry, OH PLIF, Intensity (heat transfer)

Abstract

We report on a study of the impact of coherent helical vortex structures on the shape of the reaction zone and heat release in swirling methane/air flames in regimes with a vortex breakdown. Three kinds of atmospheric flames are considered, viz., fuel-lean and fuel-rich premixed flames and a partially premixed fuel-rich lifted flame. Based on the measurements of the velocity fields by a stereo PIV in combination with the OH PLIF and HCHO PLIF, the impact of the coherent flow structures on large-scale corrugations of the reaction zone is evaluated. Helical vortex structures, detected in both the non-reacting and reacting high-swirl flows by using proper orthogonal decomposition, are found to promote combustion both in the lean premixed and fuel-rich partially premixed flames. In the first case, based on the phase-averaged intensity of the HCHO×OH signal and the location of the helical vortex structure in the inner mixing layer, it is concluded that the vortex locally increases the heat release rate by enlarging the flame front and enhancing the mass exchange between the combustion products inside the recirculation zone and the fresh gases. The events of the local flame extinctions are detected in the instantaneous PLIF snapshots for the lean mixture, but they do not cause extinction of the entire flame or a blow-off. In case of the lifted flame, the outer helical vortex structure promotes combustion by locally intensifying the mass exchange between the fuel-rich jet with the surrounding air.

Published

2019

49. Turbulent jet stability increased by ribs inside the nozzle – Stereo PIV measurement one diameter past the nozzle

Author

Vladimír Abrhám, Vitalii Yanovych, Václav Uruba, and Daniel Duda

Subjects

PIV, Physics::Fluid Dynamics, Jet (fluid), nozzle, Materials science, Turbulence, turbulent jet, Nozzle, Mechanics, TA1-2040, Engineering (General). Civil engineering (General), Stereo piv

Abstract

We observe that decreasing the inner nozzle surface by adding longitudinal ribs increases the jet stability in terms of the amount of turbulent kinetic energy in the near shear layer. We try to explain our observation as a stabilization effect of secondary flow vortices emerging in the corners of the ribs. These stream-wise vortices damage the development of larger-scale structures in the near shear layer. This explanation is supported by autocorrelation function of the stream-wise velocity component, which displays slightly smaller integral length-scale in the case with ribs than in the case of smooth nozzle. The experiment is performed at Reynolds number 2.2 × 105 (based on the nozzle diameter 50 mm); the Stereo-PIV (Particle Image Velocimetry) measurement takes place at the plane perpendicular to the jet axis one diameter past the nozzle exit. Optical 3D scanner controls the real nozzle geometry. This article presents preliminary measurement at single position and single velocity only; further exploration of this problem is needed.

Published

2021

50. 20 kHz dual-plane stereo-PIV measurements on a swirling flame using a two-legged burst-mode laser

Author

Jianyi Zheng, Fei Qi, Lei Li, Sirui Wang, Yi Gao, Zifeng Yang, and Xunchen Liu

Subjects

Materials science, business.industry, Mie scattering, Image processing, 02 engineering and technology, Vorticity, 021001 nanoscience & nanotechnology, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, Light scattering, Stereo piv, law.invention, Physics::Fluid Dynamics, 010309 optics, Wavelength, Optics, law, 0103 physical sciences, 0210 nano-technology, business, Burst mode (computing)

Abstract

Dual-plane stereoscopic particle image velocimetry (PIV) is capable of quantifying the flow field in terms of three-component (3C) flow vectors and 3C vorticity vectors simultaneously. Here, we present a test rig to carry out the 20 kHz dual-plane stereo PIV measurements on a premixed swirling flame by using a two-legged burst-mode laser. Other than the traditional methods employing the laser polarization direction and the two-color separation methods, two same-color laser sheets with a 100 ns delay were adopted to separate the imaging processes for the two pairs of cameras using the image straddling method. Each laser sheet with the same wavelength of 532 nm has a pulse cyclic frequency of 20 kHz within each burst generated by the high-repetition-rate burst-mode laser. 3C velocity vectors of a swirling flame were obtained based on the sequential particle images for each laser sheet. In spite of non-perfect simultaneous flow measurements on the two spatially separated laser sheets, the velocity error caused by the 100 ns delay on top of a 50 μs duration, which was used for the velocity vector calculation, is negligible. This short-delay separation method significantly simplifies the experimental setup for dual-plane stereo PIV measurements, especially for low-speed flows.

Published

2020