using three dimensional hydrodynamic modeling and fish … · 2009-02-19 · fish swimming data...
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Using Three Dimensional Hydrodynamic Modeling and Fish Swimming Energetics to Assess Culverts as Potential
Physical Barriers to Upstream Fish Movement
Matt Blank, Western Transportation Institute
Joel Cahoon, Montana State University
Tom McMahon, Montana State University
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Overview of PresentationOverview of Presentation
•• Aquatic barriersAquatic barriers•• Factors affecting passageFactors affecting passage
•• Assessment methodsAssessment methods•• 33--D hydrodynamic method (and 1D hydrodynamic method (and 1--D)D)
•• Comparison to fish movementComparison to fish movement•• Future research directionsFuture research directions
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•• 2.5 million aquatic barriers in U.S. by 2.5 million aquatic barriers in U.S. by culverts, dams and canals (National culverts, dams and canals (National Fish Passage Summit, 2006).Fish Passage Summit, 2006).
•• Estimated 1.4 million streamEstimated 1.4 million stream--road road crossings in U.S. (U.S. Fish and crossings in U.S. (U.S. Fish and Wildlife, National Fish Passage Wildlife, National Fish Passage Program, unpublished data).Program, unpublished data).
•• 1,500 culverts on fish bearing streams 1,500 culverts on fish bearing streams within Montanawithin Montana’’s National Forests: s National Forests: 47% barriers, 15% passable and 38% 47% barriers, 15% passable and 38% unclassified (Williams, 2007).unclassified (Williams, 2007).
Aquatic BarriersAquatic Barriers
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Physical Factors Influencing Fish Physical Factors Influencing Fish PassagePassage
•• High water velocityHigh water velocity• excessive turbulence
•• Shallow water depthShallow water depth•• Outlet drop Outlet drop
• pool depth/leap height ratio• jump location• air entrainment
•• Debris/sediment blockageDebris/sediment blockage
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Fish LocomotionFish Locomotion
•• Species and sizeSpecies and size•• TemperatureTemperature•• Dissolved oxygenDissolved oxygen•• MotivationMotivation•• GenderGender•• Physical conditionPhysical condition•• DiseaseDisease•• Sexual maturitySexual maturity
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Types of BarriersTypes of Barriers
•• Total BarrierTotal Barrier•• Partial BarrierPartial Barrier•• Temporal BarrierTemporal Barrier•• No BarrierNo Barrier
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Direct Approach Field experiments that measure fish movement directly and compare movement to flow conditions in a structure.
Indirect Approach Approximate movement potential using thresholds, modeling or comparisons between population characteristics measured upstream and downstream of a crossing.
•Tagging studies: mark-recapture, PIT tagging or others (e.g. radio telemetry)
•Visual observations
•Video camera
•Regional screens based upon field and laboratory experiments
•Hydraulic modeling
•Comparisons between upstream and downstream fish population characteristics
AssessmentAssessment TechniquesTechniques
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Direct Approach Field experiments that measure fish movement directly and compare movement to flow conditions in a structure.
Indirect Approach Approximate movement potential using thresholds, modeling or comparisons between population characteristics measured upstream and downstream of a crossing.
•Tagging studies: mark-recapture, PIT tagging or others (e.g. radio telemetry)
•Visual observations
•Video camera
•Regional screens based upon field and laboratory experiments
•Hydraulic modeling
•Comparisons between upstream and downstream fish population characteristics
AssessmentAssessment TechniquesTechniques
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Upper Clearwater River BasinUpper Clearwater River BasinAbove Seeley Lake outletAbove Seeley Lake outlet
••143 square miles143 square miles
••121 miles of stream121 miles of stream
••Assessed 46 culvertsAssessed 46 culverts
Seeley Lake
Highway 83
All Base Maps Courtesy of the MSU Environmental Statistics Group: Map overlays created by Drake Burford
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Summary of Results for Sites Where Summary of Results for Sites Where Multiple Methods Were AppliedMultiple Methods Were Applied
Direct Passage Results
Site Identification
Adult Juvenile Passage Indicator
Size Abundance
2 B B -0.36 no no10 B B 0.35 x x11 B P 0.2 yes no13 B B -1 x x19 B B 0.13 no no20 B B 0.03 no no23 P P -0.56 no no27 B B -0.19 no no28 B B -0.54 no no33 B B -0.85 yes no35 B B -0.69 no no43 B B -0.22 no no
FishXing Results Upstream vs. Downstream
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N
Yellowstone River
Mulherin Creek
Cinnabar Creek Upper Mulherin Creek
Culvert studied 2004 and 2005
Culvert studied 2005
Main study culverts
Culverts in companion study
Development and Testing of 3Development and Testing of 3--D D Method Method –– MulherinMulherin CreekCreek
•Concrete Box Culvert•Length ~ 37 ft•Width ~ 12 ft•Slope ~ 1.1%•Outlet Drop ~ 1.5 ft
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Direct Passage MeasurementDirect Passage Measurement
•• Visual observations Visual observations •• PIT tagging w/ PIT tagging w/
antennaeantennae•• MarkMark--RecaptureRecapture
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Hydrodynamic Model DevelopmentHydrodynamic Model DevelopmentCFD model development using ANSYS CFX platform.
Boundary Conditions
Inlet: mass flow rate, turbulence intensity
and length scale
Outlet: static pressure (water depth)
Culvert sides and floor: no-slip wall boundaries
Initial Conditions
Inlet: grid of water velocities
Outlet: water depth
Velocities: 0 m/s
VOF: step function
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2.42.1
1.81.51.2
1.51.2
0.9
0.9
0.6
0.6
0.3
0.3
2.11.8
1.51.2
0.9
1.20.90.60.3
0.60.3
Observed
Predicted Flow
Model Validation Model Validation
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Model ValidationModel Validation
0.00
0.50
1.00
1.50
2.00
2.50
0.00 0.50 1.00 1.50 2.00 2.50 3.00
Observed Velocity (m/s)
Pre
dict
ed V
eloc
ity (m
/s)
95.0,90.0
93.0,86.0
2
mod2
mod
==
==
fitfit rr
rr
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Barrier Assessment 1Barrier Assessment 1--DD
Fish Movement
1) Vf - Vw = Vprogress
2) Time = 1 /Vprogress
3) If Total Time > 5 seconds, then fail, otherwise pass.
8.20 ft/s8.62 ft/s8.91 ft/s9.02 ft/s9.13 ft/s9.22 ft/s9.31 ft/s9.38 ft/s9.46 ft/s9.53 ft/s9.59 ft/s
Flow
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Barrier Assessment (3D)Barrier Assessment (3D)
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2
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6
9
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5
7
8
10
2.5
2.0
2.0
1.5
1.5
1.0
1.0
1.0
0.5
0.5
0.5
June 25 Model•Estimate 3-D velocity field.
•Find minimum energy path for each starting point.
•Estimate passage using velocities along each path.
Flow
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3
6
9
0
45
78
10
2.5
2.0
2.0
1.5
1.51.0
1.00.5
0.5
June 29 Model
MinimumEnergy Path
ObservedEnergy Paths
MaximumEnergy Path
Flow
Energy PathsEnergy Paths
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Fish Swimming DataFish Swimming DataSpecies Burst Speed Burst Speed Burst Speed Range Size Range Size Range Time Range
Temperature Range Source and Notes
ft/s m/s m/s cm inches s C
Cutthroat Trout 13.50 4.12 1.82 to 4.12 - - - Bell (1991).
Rainbow Trout - 1.86 to 2.26 58 to 67 23 to 26 10 to 15 Paulik and Delacy (1957) as cited in Hoar and Randall, eds. (1978).
Rainbow Trout - 5.36 to 8.17 61 to 81 24 to 32 1.5 Weaver (1963) as cited in Hoar and Randall, eds. (1978).
Rainbow Trout - 0.3 to 2.5 14.3 5.6 0.08 Webb, as cited in Hoar and Randall, eds. (1978).
Rainbow Trout 0.3 to 1.8 14.3 5.6 0.04 Webb, as cited in Hoar and Randall, eds. (1978).
Rainbow Trout 2.72 0.83 - - - Jones et al. (1974) as listed in FishXing Swimming Speed table.
Rainbow Trout 5.33 1.62 - 10.3 to 28 4.1 to 11 1 to 20 Bainbridge (1960) as cited in Hunter and Mayor (1986).
Rainbow Trout 6.91 2.11 - 10.3 to 81.3 4.1 to 32 1 to 20 7 to 19Bainbridge (1960), Weaver (1963) and
Beamish (1978) as cited in Hunter and Mayor (1986).
Rainbow Trout 10.75 3.28 - 61 to 81.3 24 to 32 1.6 to 12.5 7 to 19 Weaver (1963) and Beamish (1978) as cited in Hunter and Mayor (1986).
Cutthroat Trout 4.12 Bell (1991)
Rainbow Trout 2.11** Hunter and Mayor (1986)
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Four Different AssessmentsFour Different Assessments
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1. 1-D flow model with Bell (1991) data.
2. 1-D flow model with Hunter and Mayor’s (1986) data.
3. 3-D flow model with Bell (1991) data.
4. 3-D flow model with Hunter and Mayor’s (1986) data.
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0.00
1.00
2.00
3.00
4.00
5.00
6.00
4/3/04 5/23/04 7/12/04 8/31/04 10/20/04
Date
Flow
(m3 /s)
Comparison of Predictions to Comparison of Predictions to Direct ObservationsDirect Observations
1. 1-D with Bell.
2. 1-D with Hunter and Mayor.
3. 3-D with Bell.
4. 3-D with Hunter and Mayor
•Documented Passage and Failed Attempt
•Documented Passage
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Future Research Future Research
•• Further validate 3Further validate 3--D hydrodynamic modeling for D hydrodynamic modeling for barrier assessment. barrier assessment.
•• Determine high end (burst) swimming speeds. Determine high end (burst) swimming speeds. •• Assessment should be in terms of probabilities, Assessment should be in terms of probabilities,
not yes/no.not yes/no.•• Marriage of aquatic ecology and hydraulics. Marriage of aquatic ecology and hydraulics.
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AcknowledgementsAcknowledgements
•Western Transportation Institute
•Montana Department of Transportation
•Montana Fish, Wildlife and Parks
•United States Forest Service
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Thank You!Thank You!
Matt Blank, Ph.D.
Research Scientist/Assistant Research Professor
Western Transportation Institute and Civil Engineering Department
Montana State University
406-994-7120
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Energy PathsEnergy Paths
x
z2
2
2.1
2
2
2.3
1.5
1.9
1.2
1.0
1.1
1.5
1
0.9
0.5
0.5
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Energy PathsEnergy Paths
Select flow rate of interest.
Model velocity through culvert using ANSYS-CFX.
Export velocity field on plane 0.06 m above culvert bed from ANYS-CFX to Microsoft Excel.
Calculate energy paths using Microsoft Excel with VBA code.
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330
350
3-Apr 23-Apr 13-May 2-Jun 22-Jun 12-Jul 1-Aug
Date and Time
Stag
e (m
m)
dsFEs
∫=0
F C A V Vd s f= −05 2. ( )ρ
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Energy PathsEnergy Paths
1 3 421 2 3 4