Clean Water Cfd Simulation Training Course By Ansys Fluent

Master Advanced Multi-Phase Flow, Filtration, and Thermal Systems for Water Treatment & Clean Energy Applications

What you'll learn

Master Multi-Phase Flow Simulation for Water Treatment Systems

Design and Optimize Advanced Water Purification Technologies

Apply Conjugate Heat Transfer (CHT) Analysis for Thermal Water Systems

Implement Professional CFD Workflows for Environmental Engineering Projects

Requirements

Basic ANSYS Fluent Familiarity Required: Students should have fundamental knowledge of ANSYS Fluent interface and basic CFD concepts including geometry creation, meshing, and simple single-phase flow simulations. While advanced multi-phase and heat transfer experience is not required, learners should be comfortable navigating the Fluent workspace, setting up basic boundary conditions, and interpreting contour plots.

Description

Clean Water CFD Simulation Training Course by ANSYS FluentMaster Advanced Multi-Phase Flow, Filtration, and Thermal Systems for Water Treatment & Clean Energy ApplicationsCourse OverviewTransform your CFD expertise with this comprehensive training program focused on clean water technologies and sustainable energy systems. This advanced course combines four industry-relevant projects that demonstrate cutting-edge ANSYS Fluent simulation techniques for water treatment, purification, and renewable energy applications.Whether you’re a CFD engineer, environmental consultant, water treatment specialist, or renewable energy professional, this course provides the practical skills needed to tackle real-world challenges in clean water and sustainable energy industries.What You’ll Master Advanced Multi-Phase Flow ModelingVolume of Fluid (VOF) method for gas-liquid interactionsEulerian multiphase modeling for solid-liquid separationInterface tracking and phase interaction dynamicsGranular flow modeling with packed bed systems Conjugate Heat Transfer (CHT) SimulationCoupled fluid-solid heat transfer analysisSolar radiation modeling using Discrete Ordinate methodNatural and forced convection in complex geometriesTemperature-dependent material properties Industrial Water Treatment ApplicationsDistillation column tray design and optimizationCake filtration mechanisms and performance predictionContaminant removal efficiency analysisTwo-phase separation process modeling Clean Energy System SimulationGeothermal reservoir heat extraction modelingSolar thermal collector performance analysisRenewable energy system optimizationSustainable technology CFD applicationsFour Complete Industry ProjectsProject 1: Distillation Column Tray Two-Phase FlowModel air-water interactions in industrial distillation systemsVOF multiphase modeling with interface dynamicsTray hydraulics and separation efficiency analysisSymmetry modeling for computational optimizationProject 2: Carbonate Cake Filtration SystemSimulate solid-liquid separation in water treatmentEulerian multiphase modeling with cake layer formationInter-phase force modeling (drag, lift, virtual mass)Heat exchanger integration with filtration processProject 3: Geothermal Reservoir Heat ExtractionModel downhole heat exchanger (DHE) systemsNatural convection in geothermal wellsConjugate heat transfer in subsurface environmentsRenewable energy system performance predictionProject 4: Flat Plate Solar Collector CHT AnalysisSolar radiation modeling with DO methodConjugate heat transfer in solar thermal systemsLocation-specific solar performance analysisMulti-physics coupling techniquesTechnical Skills You’ll DevelopANSYS Fluent ExpertiseAdvanced solver setup and configurationComplex boundary condition implementationMulti-physics model couplingSolution monitoring and convergence techniquesMesh Generation MasteryStructured and unstructured mesh creationPolyhedral meshing for complex geometriesMesh quality optimization techniquesBoundary layer mesh implementationAdvanced Physics ModelingTurbulence modeling (k-epsilon, RNG variants)Radiation heat transfer simulationGranular flow and packed bed modelingTemperature-dependent property handlingProfessional CFD PracticesModel validation and verification techniquesResult interpretation and analysisEngineering report generationIndustrial application methodologiesWho This Course Is For CFD Engineers seeking specialized water treatment and clean energy applications  Environmental Engineers working on water purification and treatment systems  Mechanical Engineers in renewable energy and thermal system design  Water Treatment Professionals wanting to integrate CFD into their workflow  Research Engineers in sustainable technology development  Graduate Students in environmental, mechanical, or chemical engineeringPrerequisitesBasic knowledge of ANSYS Fluent interfaceUnderstanding of fluid mechanics fundamentalsFamiliarity with heat transfer principlesBasic CFD simulation experience recommendedWhat’s IncludedComplete Project Files - All geometry, mesh, and case files  Detailed Setup Instructions - Step-by-step simulation guides  High-Quality Video Tutorials - Professional screen recordings with clear explanations  Technical Documentation - Comprehensive project reports and analysis  Best Practice Guidelines - Industry-standard CFD methodologies  Troubleshooting Support - Common issues and solutionsLearning OutcomesBy completing this course, you’ll be able to:Set up and solve complex multi-phase CFD simulationsModel industrial water treatment processes accuratelyAnalyze renewable energy system performanceImplement conjugate heat transfer in thermal systemsOptimize clean water and energy system designsApply advanced ANSYS Fluent features professionallyIndustry ApplicationsThis training directly applies to:Water treatment plant design and optimizationIndustrial separation process developmentGeothermal energy system engineeringSolar thermal system designEnvironmental remediation projectsSustainable technology research and developmentStart Your Journey to CFD MasteryJoin thousands of engineers who have advanced their careers with specialized CFD skills. This comprehensive training program provides the expertise needed to tackle tomorrow’s clean water and sustainable energy challenges.Enroll today and transform your CFD capabilities for a cleaner, more sustainable future!

Overview

Section 1: Two-Phase Flow Systems - Distillation Column Tray

Lecture 1 Distillation Column Tray CFD Simulation, Two Phase

Section 2: Solid-Liquid Separation - Carbonate Cake Filtration

Lecture 2 Carbonate Cake Filtration ANSYS Fluent Tutorial

Section 3: Geothermal Energy Systems - Reservoir CFD Modeling

Lecture 3 Geothermal Reservoir CFD Simulation, ANSYS Fluent Tutorial

Section 4: Solar Thermal Systems - Conjugate Heat Transfer

Lecture 4 Flat Plate Solar Collector, Conjugated Heat Transfer (CHT)

Section 5: Reverse Osmosis Water Desalination CFD Simulation

Lecture 5 Reverse Osmosis (RO), CFD Simulation Ansys Fluent Training

CFD Engineers & Simulation Specialists looking to expand their expertise into the rapidly growing clean water and environmental engineering sector. If you’re already comfortable with ANSYS Fluent but want to specialize in water treatment applications, this course will give you the advanced multi-phase and thermal simulation skills needed to tackle real-world environmental challenges. Environmental & Water Treatment Engineers who want to leverage CFD simulation to optimize their designs and processes. Whether you work in municipal water treatment, industrial filtration, renewable energy water systems, or environmental consulting, this course will teach you how to use computational tools to improve system efficiency and reduce costs. Mechanical Engineers in Renewable Energy focusing on solar thermal systems, geothermal applications, or sustainable water heating technologies. You’ll learn specialized conjugate heat transfer techniques and multi-phase modeling essential for designing next-generation clean energy water systems. Graduate Students & Researchers in environmental engineering, mechanical engineering, or related fields who need advanced CFD skills for thesis projects, research publications, or industry collaboration. This course provides the practical simulation expertise often missing from academic coursework. Industry Professionals Transitioning to Clean Tech who recognize the growing demand for water treatment and renewable energy expertise. With global water scarcity and sustainability concerns driving massive industry growth, these CFD skills will make you highly valuable in the clean technology job market. Perfect for professionals with 1-5 years of CFD experience ready to specialize in high-demand environmental applications!