Agenda

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Thursday, June 12, 2025
8:30 am – 4:00 pm CDT

Agenda:
Presented by William Rahmeyer

Understanding Open Channel Flow

• Course intro and expectations
• Software and numerical methods
• Types of liquid flows and open channel flow types
• Design factors and variables
• Applications of open channel flow design
• Steady and unsteady flow
• Uniform and normal flow
• Reynold’s number and laminar and turbulent flow
• Conservation principles
• Conservation of mass – continuity
• Hydraulic radius and hydraulic efficiency
• Effective diameter
• Channel shapes and properties
• Conservation of energy and energy equation
• Local energy losses
• Specific energy diagram
• Energy correction factor
• Example of flow under a bridge
• Froude number and critical depth
• Manning’s equation and normal depth
• Hydraulic elements chart for partially full circular pipe
• Hydraulic and energy grade lines
• Additional/extra slides on Hydraulic Toolbox

Fundamentals of Open Channel Flow

• Energy and hydraulic grade lines
• Review example of the application of the energy equation
• First steps to solve open channel flow problems
• Example of solving converging flow channels with energy and continuity
• Example of solving diverging flow channels with energy and continuity
• Preview of flow profiles in channels
• Momentum
• Channel resistance and resistance coefficients
• Friction loss and shear stress
• Chow resistance tables
• Resistance values from photographs
• Strickler flow resistance equations
• Size distribution of bed material
• Limerino’s flow resistance equation
• ASCE flow resistance equations and method
• Turbulent flow resistance

Principles of Uniform Flow

• Cowan resistance method
• Curved channel flow resistance
• Bedforms and bedform flow resistance
• Resistance from sediment transport
• Vegetative flow resistance
• Solving flow depth for bed forms or for vegetation
• Compound channels
• Conveyance method for compound channels
• Compositing resistance values for compound channels
• Flow resistance for steep or vertical channel sides
• Solving flow depth in channels with variable resistance
• Channel slope definitions
• Review of open channel software
• Review
• Additional slides of a compound channel example using HEC-RAS

Principles of Nonuniform Flow

• Gradually varied flow (GVF) equations and GVF profiles
• Standard step method to solve GVF
• Solution of a channel given only two flow depths
• Rapidly varied flow
• Hydraulic jumps
• Channel transitions
• Types of channel transitions
• Locations of flow control in channel transitions
• Non-prismatic channel flow
• Review and examples of the types of open channel flow
• Review of calculating flow depths in open channels
• Additional reference slides for channel transitions

Design of Open Channel Flow

• Composite or multiple GVF flow profiles
• GVF profile assignment
• Open channel design
• Channel discharge
• Flood and storm runoff
• Sedimentation, erosion, and deposition
• Sediment transport
• Channel erosion and deposition
• Channel response
• Channel bank and bed protection
• Stable channel design
• Example of maximum tractive or shear force method
• Riprap for channel bed and side protection
• Example of permissible maximum velocity method
• Hydraulic structures in open channels:
  • Culverts, measurement and control structures, gates and drop structures
• Aquatic organism passage
• Principles of open channel design
• Review
• Additional reference slides for channel transitions and optional assignment

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