Introduction to HEC-RAS Modeling (OnDemand Webinar)

$149.00

SKU: 410942EAU

Description

Understand the basics behind onedimensional computational hydraulics in order to set up and apply HECRAS.Many aspects of site development, road construction, or other civil projects ultimately involve the computational modeling of the flow of water. The Hydrologic Engineering CenterRiver Analysis System (HECRAS) is a widely used, accepted, and versatile openchannel hydraulics computational modeling software. It is universally approved by federal, state, and local agencies for a wide range of computational hydraulics applications. The steady onedimensional approach is often used in applying HECRAS. You will learn the basics of steady onedimensional computational hydraulics, including specifics utilized by the HECRAS software. It is essential to understand this basic theory of steady onedimensional computational hydraulics, in order to successfully set up and apply HECRAS, and interpret results. You will also learn how to navigate the HECRAS user interface, including how GIS information is accessed. The material will tell how to build an HECRAS geometry using digital elevation data, how to specify steady flow discharges, how to assign boundary conditions, how to execute a steady flow simulation and view the results. The ability to successfully apply HECRAS to model openchannel hydraulics is a skill that continues to be in demand.

Date: 2023-09-28 Start Time: End Time:

Learning Objectives

Overview and Background
• Open Channel Hydraulics
• Definitions
• One-Dimensional Steady Conservation of Energy
• Uniform vs. Nonuniform Flow
• Sub-Critical vs. Super-Critical Flow

Water Surface Profiling
• Enhancements to Conservation of Energy
• Discharge Flows and Boundary Conditions
• Backwater vs. Forewater Calculations
• Trapezoidal Channel Example

HEC-RAS
• Origins and Development
• User Interface
• GIS Compatibility

RAS Mapper
• Projection File
• Terrain
• Topographic Map
• Aerial Imagery

Building and Executing a Steady Flow HEC-RAS Model
• RASMapper and Geometry File
• Steady Flow Data File and Plan
• Execution and View Results

ENG ,Additional credit may be available upon request. Contact Lorman at 866-352-9540 for further information.

Gregory H. Nail, Ph.D., P.E.-University of Tennessee at Martin

Introduction to HEC-RAS Modeling (OnDemand Webinar)

$219.00

SKU: 407364EAU

Description

Understand the basics behind onedimensional computational hydraulics in order to set up and apply HECRAS.Many aspects of site development, road construction or other civil projects ultimately involve the computational modeling of the flow of water. The Hydrologic Engineering CenterRiver Analysis System (HECRAS) is a widely used, accepted, and versatile open channel hydraulics computational modeling software. It is universally approved by federal, state, and local agencies for a wide range of computational hydraulics applications. The steady onedimensional approach is often used in applying HECRAS. You will learn the basics of steady onedimensional computational hydraulics, including specifics utilized by the HECRAS software. It is essential to understand this basic theory of steady onedimensional computational hydraulics, in order to successfully set up and apply HECRAS, and interpret results. You will also learn how to navigate the HECRAS user interface, including how GIS information is accessed. The material will tell how to build a HECRAS geometry using digital elevation data, how to specify steady flow discharges, how to assign boundary conditions, and how to execute a steady flow simulation, and view the results. The ability to successfully apply HECRAS to model open channel hydraulics is a skill that continues to be in demand.

Date: 2020-01-21 Start Time: End Time:

Learning Objectives

Overview and Background
• Open Channel Hydraulics
• Definitions
• One-Dimensional Steady Conservation of Energy
• Uniform vs. Nonuniform Flow
• Sub-Critical vs. Super-Critical Flow

Water Surface Profiling
• Enhancements to Conservation of Energy
• Discharge Flows and Boundary Conditions
• Backwater vs. Forewater Calculations
• Trapezoidal Channel Example

HEC-RAS
• Origins and Development
• User Interface
• GIS Compatibility

RASMapper
• Projection File
• Terrain
• Topographic Map
• Aerial Imagery

Building and Executing a Steady Flow HEC-RAS Model
• RASMapper and Geometry File
• Steady Flow Data File and Plan
• Execution and View Results

AIA ,ENG ,Additional credit may be available upon request. Contact Lorman at 866-352-9540 for further information.

Gregory H. Nail, Ph.D., P.E.-University of Tennessee at Martin