Presentation is loading. Please wait.

Presentation is loading. Please wait.

EXPERIMENTAL INVESTIGATION OF BOUNDARY LAYER TURBULENCE IN A WATER FLUME Daniel E. Dombroski PI: John P. Crimaldi Environmental Fluid Mechanics Laboratory,

Published byMargery Lyons Modified over 9 years ago

Similar presentations

Presentation on theme: "EXPERIMENTAL INVESTIGATION OF BOUNDARY LAYER TURBULENCE IN A WATER FLUME Daniel E. Dombroski PI: John P. Crimaldi Environmental Fluid Mechanics Laboratory,"— Presentation transcript:

1 EXPERIMENTAL INVESTIGATION OF BOUNDARY LAYER TURBULENCE IN A WATER FLUME Daniel E. Dombroski PI: John P. Crimaldi Environmental Fluid Mechanics Laboratory, University of Colorado at Boulder

2 Some Background pollutants odor signals reproduction Environmental Fluid Mechanics: - Implications of Turbulence on Natural Systems - Duality of Hydrodynamics and Chemical Signaling - Methodology & Devolopment of Techniques

3 Projects Accuracy of Acoustic Doppler Velocimetry (ADV) Measurements in Turbulent Boundary Layer Flows* *Dombroski and Crimaldi, Limnology & Oceanography: Methods, 2007 Biofouling Phenomena: Growth of communities of organisms on submerged surfaces 3D Visualization of Plume Dynamics

4 Accuracy of Acoustic Doppler Velocimetry Acoustic Doppler Velocimeter - Commonly Used Field Instrument - ‘Economical’ ~ $10k - Relatively Low Spatio-Temp Resolution Laser Doppler Velocimeter - Precision Laboratory Instrument - ‘Pricey’ ~ $250k + - High Spatio-Temp Resolution

5 ADV Significantly Underreports Turbulence Statistics Spalart DNS (1988)

6 Biofouling

7 Early Stage Fouling Plate Late Stage Fouling Plate

8 Algorithm Statistical analysis of stress lulls in instantaneous record Steps: (1)Calculate stress record,  =  u’w’ (2)Divide record into stress ‘lulls’, L i (3)Calculate anchoring probability, P a : Figure adapted from Crimaldi et al, 2002 Dependent on criteria T crit & t a where For discrete time intervals Δ t, evaluate ψ i as: Where j a = # of time steps in t a where N i = # of samples in i th stress lull Nmax = # of samples in longest stress lull Combining,

9  50 Stress Calculation Ship WakeWind Chop

10 Flow Visualization 3D Planar Laser Induced Fluorescence Scalar: Rhodamine 6G Passive - Moves with and diffuses relative to the flow without effecting the governing physics Conservative - Nonreactive Plume: Bed-level, low momentum release –Think odor release at river bed

11 3D PLIF Schematic

12 Flow Dynamics

13 Coherence

14 Relevant Scales Experimental Resolution Image Plane (based on CCD chip) ~ 0.1 mm Transverse (based on laser beam) ~ 0.25 mm Kolmogorov - smallest eddies ~ 1 mm (Estimated from dissipative & viscous scaling) Batchelor - smallest chemical gradients ~ 0.01 mm (Estimated from Kolmogorov scale, Schmidt number)

15 time “Burst – Sweep” Action

16 Moving away from the plume centerline…

17 Scalar Gradients (ie, where’s the mixing?) dC/dx dC/dy dC/dz

18 Correcting Artifacts Spatial Undersampling

Download ppt "EXPERIMENTAL INVESTIGATION OF BOUNDARY LAYER TURBULENCE IN A WATER FLUME Daniel E. Dombroski PI: John P. Crimaldi Environmental Fluid Mechanics Laboratory,"

Similar presentations

Progress and Plans on Magnetic Reconnection for CMSO For NSF Site-Visit for CMSO May1-2, 2005 1. Experimental progress [M. Yamada] -Findings on two-fluid.

Progress and Plans on Magnetic Reconnection for CMSO For NSF Site-Visit for CMSO May1-2, Experimental progress [M. Yamada] -Findings on two-fluid.
Introduction to Computational Fluid Dynamics

Introduction to Computational Fluid Dynamics
Bridging the Gap Between Statistics and Engineering Statistical calibration of CFD simulations in Urban street canyons with Experimental data Liora Malki-Epshtein.

Bridging the Gap Between Statistics and Engineering Statistical calibration of CFD simulations in Urban street canyons with Experimental data Liora Malki-Epshtein.
How do larvae carried in turbulent water flow settle onto coral reefs ?

How do larvae carried in turbulent water flow settle onto coral reefs ?
計算流體力學 Computational Fluid Dynamics (CFD) 授課教師:施陽正 博士 Instructor: Dr. Yang-Cheng Shih 2009/02.

計算流體力學 Computational Fluid Dynamics (CFD) 授課教師:施陽正 博士 Instructor: Dr. Yang-Cheng Shih 2009/02.
Ali Zafarani Subsurface Processes Group University of California, Irvine.

Ali Zafarani Subsurface Processes Group University of California, Irvine.
Abstract We quantified turbulent dissipation in the Raritan river using both conventional methods and a novel technique, the structure function method.

Abstract We quantified turbulent dissipation in the Raritan river using both conventional methods and a novel technique, the structure function method.
1 LES of Turbulent Flows: Lecture 9 (ME EN 7960-003) Prof. Rob Stoll Department of Mechanical Engineering University of Utah Fall 2014.

1 LES of Turbulent Flows: Lecture 9 (ME EN ) Prof. Rob Stoll Department of Mechanical Engineering University of Utah Fall 2014.
EXPERIMENTAL EXAMINATION OF THE THERMOACOUSTIC INSTABILITY OF A LOW SWIRL FLAME WITH PLANAR LASER INDUCED FLUORESCENCE OF OH Jianan Zhang, Kelsey Kaufman,

EXPERIMENTAL EXAMINATION OF THE THERMOACOUSTIC INSTABILITY OF A LOW SWIRL FLAME WITH PLANAR LASER INDUCED FLUORESCENCE OF OH Jianan Zhang, Kelsey Kaufman,
MAE513 Spring 2001 Prof. Hui Meng & Dr. David Song Dept. of Mechanical & Aerospace Engineering Advanced Diagnostics for Thermo- Fluids Laser Flow Diagnostics.

MAE513 Spring 2001 Prof. Hui Meng & Dr. David Song Dept. of Mechanical & Aerospace Engineering Advanced Diagnostics for Thermo- Fluids Laser Flow Diagnostics.
Direct numerical simulation study of a turbulent stably stratified air flow above the wavy water surface. O. A. Druzhinin, Y. I. Troitskaya Institute of.

Direct numerical simulation study of a turbulent stably stratified air flow above the wavy water surface. O. A. Druzhinin, Y. I. Troitskaya Institute of.
Summer School Rio de Janeiro March 2009 1. MICROMETEOROLOGY Amauri Pereira de Oliveira Group of Micrometeorology.

Summer School Rio de Janeiro March MICROMETEOROLOGY Amauri Pereira de Oliveira Group of Micrometeorology.
Mixing of high-Schmidt number scalar in regular/fractal grid turbulence: Experiments by PIV and PLIF Y. Sakai*, K. Nagata*, H. Suzuki*, and R. Ukai* *

Mixing of high-Schmidt number scalar in regular/fractal grid turbulence: Experiments by PIV and PLIF Y. Sakai*, K. Nagata*, H. Suzuki*, and R. Ukai* *
Measurement of particle size by direct imaging, including defocus effects Julian Kashdan, John Shrimpton Thermofluids Section, Department of Mechanical.

Measurement of particle size by direct imaging, including defocus effects Julian Kashdan, John Shrimpton Thermofluids Section, Department of Mechanical.
Experimental and Numerical Investigation of Buoyancy-Driven Hydrodynamics Nicholas Mueschke Texas A&M University Malcolm J. Andrews Los Alamos National.

Experimental and Numerical Investigation of Buoyancy-Driven Hydrodynamics Nicholas Mueschke Texas A&M University Malcolm J. Andrews Los Alamos National.
Tasks 4.1 4.2 Department of Civil and Environmental Engineering University of Trento Wallingford (UK), May 16 th -17 th 2002 IMPACT Investigation of Extreme.

Tasks Department of Civil and Environmental Engineering University of Trento Wallingford (UK), May 16 th -17 th 2002 IMPACT Investigation of Extreme.
Solar Turbulence Friedrich Busse Dali Georgobiani Nagi Mansour Mark Miesch Aake Nordlund Mike Rogers Robert Stein Alan Wray.

Solar Turbulence Friedrich Busse Dali Georgobiani Nagi Mansour Mark Miesch Aake Nordlund Mike Rogers Robert Stein Alan Wray.
Introduction to surface ocean modelling SOPRAN GOTM School Warnemünde: 10.-11.09.07 Hans Burchard Baltic Sea Research Institute Warnemünde, Germany.

Introduction to surface ocean modelling SOPRAN GOTM School Warnemünde: Hans Burchard Baltic Sea Research Institute Warnemünde, Germany.
Examples of Environmental Fluid Mechanics Projects OCEN 489 and 689 Scott A. Socolofsky.

Examples of Environmental Fluid Mechanics Projects OCEN 489 and 689 Scott A. Socolofsky.
L ehrstuhl für Modellierung und Simulation UNIVERSITY of ROSTOCK | CHAIR OF MODELLING AND SIMULATION Physics of turbulence Lecture 2.

L ehrstuhl für Modellierung und Simulation UNIVERSITY of ROSTOCK | CHAIR OF MODELLING AND SIMULATION Physics of turbulence Lecture 2.

Similar presentations

Ads by Google