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Study of the Free Surface Flow on an Ogee-Crested Fish Bypass
Authors:Cagri Turan  Pablo M. Carrica  Troy Lyons  Duncan Hay  Larry Weber
Affiliation:1Hydraulic and Hydrologic Engineer, Bechtel Power Corp., 5265 Westview Dr., Frederick, MD 21703; formerly, Graduate Research Assistant, IIHR-Hydroscience and Engineering, Univ. of Iowa, 300 S. Riverside Dr., Iowa City, IA 52246. E-mail: ckturan@bechtel.com
2Associate Professor, IIHR-Hydroscience and Engineering, Univ. of Iowa, 300 S. Riverside Dr., Iowa City, IA 52246 (corresponding author). E-mail: pablo-carrica@uiowa.edu
3Engineer I, IIHR-Hydroscience and Engineering, Univ. of Iowa, 300 S. Riverside Dr., Iowa City, IA 52246. E-mail: troy-lyons@uiowa.edu
4Senior Consultant, Oakwood Consulting Inc., 237 Turtlehead Rd., Belcarra BC, Canada. E-mail: duncanhay@shaw.ca
5Director and Associate Professor, IIHR-Hydroscience and Engineering, The Univ. of Iowa, 300 S. Riverside Dr., Iowa City, IA 52246. E-mail: larry-weber@uiowa.edu
Abstract:A study of the free surface flow on an ogee-crested fish bypass is presented. The commercial computational fluid dynamics (CFD) code Fluent 6.1 was used to perform the simulations. Structured/unstructured hybrid grids were used to accommodate the complex geometry that included gate slots, flow control gates, and an aeration slot. The volume of fluid (VOF) approach was used to model the water/air interface. The fish bypass exhibits complex free surface features including free nappes and air entrainment from the air slots. Free surface elevations on both sides of the nappe, pressure along the ogee surface, and discharge rating curves were compared against 1:24 experimental data from the laboratory model for different headwater elevations and gate settings. Limited comparison against measured velocities was also performed. Once deemed reliable through validation against experimental data, the computational model was used to analyze the flow field, supplementing the areas of limited experimental data. Though the paper presents the final fish bypass design, CFD was used to guide the design process and provide insight for several variations in the geometry.
Keywords:Free surface  Fluid dynamics  Hydraulics  Spillways  Fish management  
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