HEC-RAS is a software designed to perform hydraulic 1D and 2D calculations on river channels either natural or man constructed. It allows steady flow, unsteady flow, sediment transport and water quality modelling. It is developed by the US army corps of engineers, US Department of defence and it is openly available software. The HEC-RAS steady flow is based on one dimensional energy equation, while for the unsteady flow, HEC-RAS uses an implicit, finite difference method to solve the fully dynamic Saint-Venant equations.
The objective of HEC-RAS is to solve river dynamics and river engineering problems. Applications are delimitation of flood areas, embankment and protection work design, river restoration, emergency plans for dam break, optimization of hydraulic work and risk assessment and management.
Hatarilabs offers the online course of Hydraulic Modeling with HEC-RAS for students and professionals of any country. The course is focused on theory and practical to know the different HEC-RAS tools and its application to the hydrological modeling.
Objectives
This course aims:
The students get familiar with Hec-Ras Interface,
The students understand the Software’s tools and functioning,
To simulate different inflow case scenarios and
To simulate river dynamics and understand the interaction with hydraulic structures.
Course content
The contents of the course are separated in 6 lessons as follows:
Session 1
Practical part
Installing Hec-Ras
Presenting the Software capabilities.
Importing the River Geometry to Hec-Ras.
Entering Flow Data details.
Use of Boundary Conditions.
Session 2
Practical part
Entering geometry information of the cross sections of the river and create a river confluence.
Realize hydraulic calculations.
Representing a river model where there exists a river confluence.
Representing steady water depth profiles for the different flow scenarios entered.
Session 3
Practical part
Realize a hydraulic model adding a hydraulic structure (culvert) to the river system.
Entering geometry information of the cross sections of the river.
Performing a steady flow analysis.
Hydraulic analysis of the water depth profiles on cross sections and on the longitudinal profile of the river.
Session 4
Practical part
Hydraulic modeling with reservoir structure
Realize a hydraulic model adding a reservoir into the river system and evaluate the long-time simulation results.
Entering geometry information of the cross sections of the river.
Use and analysis of the non-steady conditions and simulation.
Hydraulic modeling with bridge structure
Realize a hydraulic model adding a bridge into the river system.
Entering flow data.
Use of Boundary Conditions.
Session 5
Practical part
Developing a flooding model in 2D (two-dimension) using the most recent capability of Hec-Ras.
Analysis of Satellite data information.
Use of the Ras Mapper application for the visualization of the 2D simulation results.
Analysis of the flow conditions.
Modeling a channel from a DEM and exporting results to any GIS software.
Use RAS Mapper to create a hydraulic model of a channel.
Manipulate Digital Elevation Models (DEM).
Obtain cross-sections from DEMs.
Perform a steady flow simulation.
Obtain results that can be used in any GIS software.
Session 6
Practical part
Sediment analysis
Geometry preparation.
Entering quasi unsteady flow data (sediment).
Setting initial condition and transport parameters.
Running and analyzing sediment transport.
Creating a flood hazard map
Use the Raster Calculator function on HecRas.
Understand the structure of a code that works on the Raster Calculator function.
Create dynamic maps on HecRas.
Register
This course is free in our new e-commerce site till Nov 20, 2023:
For certification option please write to saulmontoya@hatarilabs.com.