Watergems Hydraulics Modeling – Aulageo


Free Download Watergems Hydraulics Modeling – Aulageo
Published 11/2023
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.91 GB | Duration: 3h 9m
Learn to plan, design, model and optimize water distribution networks using OpenFlows – WaterGEMS


What you’ll learn
Hydraulics systems design
Modeling process with geospatial data, CAD drawings, databases, and spreadsheets
Use automated workflows to access and identify inadequacies in fire protection.
OpenFlows WaterGEMS software use
Understand the standa alone WaterGEMS menus which can be executed in AutoCAD (WaterCAD) and Microstation
Requirements
hydraulic basic knowledge is preferible
Description
OpenFlows WaterGEMS provides you with a comprehensive yet easy-to-use decision-support tool for water distribution networks. The software helps improve your knowledge of how infrastructure behaves as a system, how it reacts to operational strategies, and how it should grow as population and demands increase. From fire flow and water quality simulations, to criticality and energy cost analysis, OpenFlows WaterGEMS has everything you need in a flexible multiplatform environment. OpenFlows WaterGEMS is a superset of OpenFlows WaterCAD. #AulaGEOIn this course you will learn the use of a sofwtare specialized in this features:Intelligent PlanningEfficiently identify potential problems, accommodate service area growth, and plan/prioritize capital improvement projects by using criticality analysis, DMA planning, and pressure management tools to identify potential projects.Optimized OperationsUse real-time data to analyze energy use and costs, maximize operational efficiencies, minimize disruptions, and intelligently respond to emergencies.Build and Update Models FasterIntuitive to use so you can easily jumpstart your modeling process with geospatial data, CAD drawings, databases, and spreadsheets. Apply automated calibration, leak detection, design, rehabilitation, and pump operations. Identify Water LossUse field data to quantify nonrevenue water and help pinpoint loss locations faster.Assess Fire Flow CapacityUse automated workflows to access and identify inadequacies in fire protection.COURSE CONTENT #AulaGEOINTRODUCTIONLecture 1: IntroductionLecture 2: Basic InterfaceBUILDING A NETWORKLecture 3: Prepare Network LayoutLecture 4: Lay NetworkLecture 5: Use of Properties ManagerLecture 6: Use of Flex TablesLecture 7: Use of Demand Control CenterLecture 8: Compute and Review ResultsLecture 9: Creating Fire Flow Demand AlternativesLecture 10: Reviewing Results for Fire Flow ScenarioLecture 11: Creating New Physical AlternativeLecture 12: Reviewing Results for Fire Flow with new Diameter ScenarioIMPORTING DATA MODEL & ADDING PUMPS, TANKS, AND PRESSURE REDUCING VALVESLecture 13: Using Model BuilderLecture 14: Data Validation and CleaningLecture 15: Adding Junction DemandsLecture 16: Review Results and ShortcomingsLecture 17: Element MorphingLecture 18: PRVs Pump and TankData InputLecture 19: Compute Daily DemandLecture 20: Additional Demand At J5Lecture 21: Review ResultsSTEADY STATE CALIBRATION OF FIELD MEASUREMENTSLecture 22: ExerciseSYSTEM DESIGN IMPROVEMENTSLecture 23: ExerciseAUTOMATED FIRE FLOW ANALYSISLecture 24: Max Day Pressures AnalysisLecture 25: Fire Flow CalculationLecture 26: Auxilary Fire Flow CalculationValves and Critical Segments AnalysisLecture 27: ExerciseEPS Modeling and Energy Costing AnalysisLecture 28: Setting up PumpsLecture 29: Scenario 1 : Tank ControlLecture 30: Scenario 2 : Constant Speed Pumps with No TankLecture 31: Scenario 3 : Variable Speed Pumps with No TankLecture 32: Energy CostsModel Builder, Trex and Load BuilderLecture 33: Setting up Model BuilderLecture 34: Building the ModelLecture 35: Reviewing the ModelLecture 36: TrexLecture 37: Load BuilderLecture 38: Associating DemandsLecture 39: Thiessen Polygons Lecture 40: Review
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 Basic Interface
Section 2: Building a network
Lecture 3 Prepare Network Layout
Lecture 4 Lay Network
Lecture 5 Use of Properties Manager
Lecture 6 Use of Flex Tables
Lecture 7 Use of Demand Control Center
Lecture 8 Compute and Review Results
Lecture 9 Creating Fire Flow Demand Alternatives
Lecture 10 Reviewing Results for Fire Flow Scenario
Lecture 11 Creating New Physical Alternative
Lecture 12 Reviewing Results for Fire Flow with new Diameter Scenario
Section 3: Importing data model and pumps, tanks and pressure reducing valves
Lecture 13 Using Model Builder
Lecture 14 Data Validation and Cleaning
Lecture 15 Adding Junction Demands
Lecture 16 Review Results and Shortcomings
Lecture 17 Element Morphing
Lecture 18 PRVs Pump and TankData Input
Lecture 19 Compute Daily Demand
Lecture 20 Additional Demand At J5
Lecture 21 Review Results
Section 4: Steady state calibration of field measurements
Lecture 22 Exercise
Section 5: System design improvements
Lecture 23 Exercise
Section 6: Automated fire flow analysis
Lecture 24 Max Day Pressures Analysis
Lecture 25 Fire Flow Calculation
Lecture 26 Auxilary Fire Flow Calculation
Section 7: Valves and Critical Segments Analysis
Lecture 27 Exercise
Section 8: EPS Modeling and Energy Costing Analysis
Lecture 28 Setting up Pumps
Lecture 29 Scenario 1 : Tank Control
Lecture 30 Scenario 2 : Constant Speed Pumps with No Tank
Lecture 31 Scenario 3 : Variable Speed Pumps with No Tank
Lecture 32 Energy Costs
Section 9: Model Builder, Trex and Load Builder
Lecture 33 Setting up Model Builder
Lecture 34 Building the Model
Lecture 35 Reviewing the Model
Lecture 36 Trex
Lecture 37 Load Builder
Lecture 38 Associating Demands
Lecture 39 Thiessen Polygons
Lecture 40 Review
civil engineers,CAD drafters,BIM modelers,civil works designers,AutoCAD users,microstation users,hydraulics infrastructures designers

Homepage

https://www.udemy.com/course/openflows-watergems-hydraulics-modeling-aulageo/
Buy Premium From My Links To Get Resumable Support,Max Speed & Support Me

No Password – Links are Interchangeable

Add a Comment

Your email address will not be published. Required fields are marked *