Flood Hydrologic Modeling Using Openflows - Aulageo

Flood Hydrologic Modeling Using Openflows - Aulageo - Printable Version

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Flood Hydrologic Modeling Using Openflows - Aulageo - OneDDL - 11-24-2023

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Free Download Flood Hydrologic Modeling Using Openflows - Aulageo
Published 11/2023
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.30 GB | Duration: 2h 45m
Learn to plan, design, model and optimize flood models using OpenFlows - FLOOD

What you'll learn
Working with existin and from scratch workspaces
Importing data for flood simulation
Model simulation
Urban flow and watershed simulation
Working with GIS data
Requirements
Civil works is preferible
Description
This is a course to learn the use of FLOOD, a software to model and simulate extreme events using accurate and reliable flood risk analysis dataFLOOD is flood modeling software for analyzing and mitigating flood risk in urban, riverine, and coastal areas. Using spatially distributed numerical models, users can quickly simulate all hydrological and hydraulic processes to support emergency planning and green-initiative design. Apply a multi-scale 1D/2D approach to support flood early warning systems (FEWS).In this course you will learn the use of a software specialized in this features:Mitigate urban floodingUrban flooding poses risks to residents, damages property and infrastructure, and disrupts urban services. Create efficient solutions that increase the resilience of urban drainage systems and implement mitigation measures, such as low-impact development and green initiatives. Mitigate these issues by producing detailed simulations to identify bottlenecks and hotspots that hinder the capacity of stormwater drainage systems.Prevent riverine floodingCalculate river flow to understand, evaluate, and optimize reservoir operations to minimize and prevent damages from riverine floods. Design and improve emergency structures and outline flood-resilient land use strategies, all within a climate change context. #AuaGEO Simulate the exchange of water between the river flow and (sub)surface flow based on hydraulic gradients. Produce inundation maps, flood risk maps, and hazard maps that address riverine flows, river defense capacity, and large-scale land use changes. Estimate the drainage network from topographic maps and to interpolate cross sections in space.Model coastal floodingCoastal flooding can be caused by high tides, storm surges, and tsunamis, sometimes in combination with insufficient urban drainage capacity or high upstream river flows. Dynamically model complex array of processes related to coastal flooding to find accurate solutions for defining and improving storm surge and tsunami protection plans.Analyze flood inundation areasCalculate the extent of flooded areas and estimate the flood hazard based on water column heights and peak flow velocities. Easily integrate models generated with OpenFlows SewerGEMS to simulate surface and stormwater flow. Create scenarios and make comparisons among different alternatives to rapidly find the best solution for flood risk mitigation.Add real-world context, animation, and visualizationExplore and present model results using a wide range of integrated visualization capabilities, including the option to make smooth, continuous animations of the obtained results. Help stakeholders better understand the risks and impacts of flooding events and potential mitigation actions with integrated 3D reality models. Bring simulations to life by generating realistic visualizations of flood events using LumenRT.Build and manage hydraulic modelsLeverage and import many well-known external data formats to maximize ROI on geospatial and engineering data. Jumpstart the model building process and manage models effectively to keep focus on making the best engineering decisions.#AulaGEO CONTENTEXISTING WORKSPACELesson 1 Introduction Lesson 2 Importing an Existing Model Lesson 3 Navigation through Project Structure Lesson 4 Visualizing Mapped Data Lesson 5 Model Simulation Lesson 6 Visualizing Time Series Output Lesson 7 1D Model Node or Pipe Files Lesson 8 Visualizing Mapped Output NEW WORKSPACE FROM SCRATCHLesson 9 Creating New Workspace Lesson 10 Importing Digital Terrain Lesson 11 Grid Creation Lesson 12 Smooth Digital Terrain Lesson 13 Simulation Setting Lesson 14 Time Series Data URBAN FLOW SIMULATIONLesson 15 Introduction Lesson 16 Getting Started Lesson 17 Review Existing Information Lesson 18 Grid for Digital Terrain Lesson 19 Delimiting the Study Area Lesson 20 Defining Grid Data for Surface Roughness Coefficient Lesson 21 Defining Grid Data for Surface Permeability Lesson 22 Creating a New Domain Lesson 23 Importing the Inlets Shapefile into OpenFlows FLOOD Lesson 24 Setting Time Series Reports for Stormwater Network Elements WATERSHED SIMULATIONLesson 25 Importing Existing Workspace Lesson 26 Review Existing Project Lesson 27 Rainfall-Runoff Simulation in Watershed Lesson 28 Topographic Grid Data Lesson 29 Computational Grid Lesson 30Terrain Grid and Smooth GridLesson 31 River Burn In Lesson 32 Remove Depressions Lesson 33 Domain Association & Water Delineation Lesson 34 Cross Sections of the Drainage Network Lesson 35 Configuring New Simulation Lesson 36 Time Series Data Lesson 37 Simulation and Results BENTLEY HYDROLICS AND HYDROLOGY PRODUCTSLesson 38 All Products
Overview
Section 1: EXISTING WORKSPACE
Lecture 1 Introduction
Lecture 2 Importing an Existing Model
Lecture 3 Navigation through Project Structure
Lecture 4 Visualizing Mapped Data
Lecture 5 Model Simulation
Lecture 6 Visualizing Time Series Output
Lecture 7 1D Model Node or Pipe Files
Lecture 8 Visualizing Mapped Output
Section 2: NEW WORKSPACE FROM SCRATCH
Lecture 9 Creating New Workspace
Lecture 10 Importing Digital Terrain
Lecture 11 Grid Creation
Lecture 12 Smooth Digital Terrain
Lecture 13 Simulation Setting
Lecture 14 Time Series Data
Section 3: URBAN FLOW SIMULATION
Lecture 15 Introduction
Lecture 16 Getting Started
Lecture 17 Review Existing Information
Lecture 18 Grid for Digital Terrain
Lecture 19 Delimiting the Study Area
Lecture 20 Defining Grid Data for Surface Roughness Coefficient
Lecture 21 Defining Grid Data for Surface Permeability
Lecture 22 Creating a New Domain
Lecture 23 Importing the Inlets Shapefile into OpenFlows FLOOD
Lecture 24 Setting Time Series Reports for Stormwater Network Elements
Section 4: WATERSHED SIMULATION
Lecture 25 Importing Existing Workspace
Lecture 26 Review Existing Project
Lecture 27 Rainfall-Runoff Simulation in Watershed
Lecture 28 Topographic Grid Data
Lecture 29 Computational Grid
Lecture 30 Terrain Grid and Smooth Grid
Lecture 31 River Burn In
Lecture 32 Remove Depressions
Lecture 33 Domain Association & Water Delineation
Lecture 34 Cross Sections of the Drainage Network
Lecture 35 Configuring New Simulation
Lecture 36 Time Series Data
Lecture 37 Simulation and Results
Section 5: BENTLEY HYDROLICS AND HYDROLOGY PRODUCTS
Lecture 38 All Products
Civil engineers,Hydrology and hydraulic proffesionals,GIS analysts,Civil works users

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