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Using hydrodynamics to improve the selectivity of towed fishing gears
Karen Baastrup Burgaard
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Corresponding author for this work
National Institute of Aquatic Resources
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Book/Report
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Ph.D. thesis
94
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Dive into the research topics of 'Using hydrodynamics to improve the selectivity of towed fishing gears'. Together they form a unique fingerprint.
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Earth and Planetary Sciences
Selectivity
100%
Fishing Gear
100%
Numerical Model
37%
Fluid Dynamics
25%
Dynamic Models
25%
Flow Velocity
25%
By-Catch
25%
Settling Velocity
25%
Velocity Distribution
12%
Water Column
12%
Fishing Vessel
12%
Trawling
12%
Near Wakes
12%
Vortex Shedding
12%
Kinetic Energy
12%
Habitat Destruction
12%
Engineering
Hydrodynamics
100%
Path Model
40%
Numerical Model
30%
Computational Fluid Dynamics
20%
Good Agreement
20%
Flow Velocity
20%
Dynamic Models
20%
Settling Velocity
20%
Two Dimensional
10%
Flow Region
10%
Velocity Field
10%
Relative Thickness
10%
Main Reason
10%
Velocity Component
10%
Turbulent Kinetic Energy
10%
Field Trial
10%
Geometric Model
10%
Vortex
10%
Vortex Shedding
10%
Drag Coefficient
10%
Fishing Vessel
10%
Physics
Selectivity
100%
Numerical Model
60%
Computational Fluid Dynamics
40%
Flow Velocity
40%
Settling Velocity
40%
Vortex Shedding
20%
Kinetic Energy
20%
Material Science
Hydrodynamics
100%
Computational Fluid Dynamics
20%
Vortex
10%
Vortex Shedding
10%
Keyphrases
Relative Clearance
10%
Clean Catch
5%