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Erosion CFD Simulation Training Package: 9 Practical Exercises

Original price was: $1,200.00.Current price is: $299.00. Student Discount

  • Comprehensive erosion simulation package featuring 9 practical ANSYS Fluent exercises, covering various industrial applications and geometries.
  • Addresses critical erosion challenges in turbomachinery, piping systems, and industrial equipment.
  • Focuses on different erosion mechanisms including sand erosion, slurry flow, and hydro-abrasive wear.
  • Incorporates advanced DPM techniques for particle tracking and erosion prediction.
  • Covers a range of geometries from simple pipes to complex turbomachinery components.
  • Designed for engineers and analysts working in power generation, oil & gas, and process industries.
Click on Add To Cart and obtain the Geometry file, Mesh file, and a Comprehensive ANSYS Fluent Training Video.

To Order Your Project or benefit from a CFD consultation, contact our experts via email ([email protected]), online support tab, or WhatsApp at +44 7443 197273.

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If you want the training video in another language instead of English, ask it via [email protected] after you buy the product.

Bulb Turbine, Sand erosion study CFD Simulation

  • The current CFD Analysis models the Bulb Turbine via ANSYS Fluent software.
  • We have designed the geometry using ANSYS Design Modeler software and generated the mesh on this geometry using ANSYS Meshing software.
  • The Frame Motion technique is utilized to model the rotation of the turbine.
  • The Discrete Phase Model (DPM) account for the presence of sand particles.
  • The Erosion on the turbine, due to particle collision is investigated.

Slurry Flow Erosion In Centrifugal Pump CFD Simulation

  • The problem numerically simulates Slurry Flow in Centrifugal Pump using ANSYS Fluent software.
  • We design the 3-D model with the Design Modeler software.
  • We Mesh the model with ANSYS Meshing software, and the polyhedra element number equals 1,498,132.
  • We use the Frame Motion to define the rotational movement in the rotating zone.
  • The DPM multiphase is activated to model the effect of solid particles on erosion.
  • The activated erosion models are Generic, Finnie, McLaury, Oka, and DNV.

Hydro-Abrasive Erosion in Pelton Turbine CFD Simulation Tutorial

  • This project numerically simulates the Hydro-Abrasive Erosion in Pelton Turbine using ANSYS Fluent software.
  • The 3-D geometry is designed in Design Modeler software.
  • We used ANSYS Meshing Software to generate mesh; the element number equals 6,433,121.
  • The multiphase VOF model simulates the water jet.
  • The 2-way DPM model also enables the erosion of the solution.
  • The rotational movement of the turbine is modeled using Mesh Motion Approach.

Erosion In An Obstruction Channel Using DPM

  • The Design Modeler software is used to create the geometry.
  • A structure grid is generated via ANSYS Meshing software.
  • The discrete Phase Model (DPM) is used to model sand particles and erosion/accretion.

Erosion in the Bent Pipe CFD Simulation, Ansys Fluent Training

In this project, erosion in the bent pipe has been simulated and the results of this simulation have been investigated.

 

Sedimentation and Erosion in a Shell and Tube, Ansys Fluent CFD Simulation Training

  • The problem numerically simulates Sedimentation and Erosion in a Shell and Tube Heat Exchanger using ANSYS Fluent software.
  • We design the 3-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software, and the element number equals 640618.
  • We perform this simulation as unsteady (Transient).
  • We use Discrete Phase Model (DPM) to define Sand Injection inside the heat exchanger.
  • We aim to predict the Erosion Effect by different methods: Finnie, Oka, and Mclaury.

Splitter Erosion CFD Simulation Training using DPM by ANSYS Fluent

In this study, using the DPM (Discrete phase material) method, the effect of impurities in the working fluid on the splitter erosion was investigated.

Erosion due to Particle Flow in Elbow using DPM CFD Simulation, ANSYS Fluent

  • This problem simulates Erosion due to particle flow using Ansys Fluent software.
  • The 2-D geometry is designed in Design Modeler software.
  • ANSYS Meshing software is used to generate the mesh; the element number equals 14,029.
  • In this project, the Erosion due to particle flow is simulated using the DPM
  • How the particles flow and lead to the erosion of the solid surface has been well-modeled in this project.

Erosion in a 90 degree Knee, ANSYS Fluent CFD Simulation Training

  • The problem numerically simulates the Erosion in a 90-degree Knee using ANSYS Fluent software.
  • We design the 3-D model by the Design Modeler software.
  • We Mesh the model by ANSYS Meshing software, and the element number equals 4319695.
  • We use the Discrete Phase Model (DPM) to simulate the injection of solid particles in the pipeline.
  • The Erosion mode is selected to consider the impact of particles on the body of the pipelines.

Special Offers For All Products

If you need the Geometry designing and Mesh generation training video for all the products, you can choose this option.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
Editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion
If you want training in any language other than English, we can provide you with a subtitled video in your language.

Special Offers For Single Product

If you need the Geometry designing and Mesh generation training video for one product, you can choose this option.
If you need expert consultation through the training video, this option gives you 1-hour technical support.
The journal file in ANSYS Fluent is used to record and automate simulations for repeatability and batch processing.
editable geometry and mesh allows users to create and modify geometry and mesh to define the computational domain for simulations.
The case and data files in ANSYS Fluent store the simulation setup and results, respectively, for analysis and post-processing.
Geometry, Mesh, and CFD Simulation methodologygy explanation, result analysis and conclusion
The MR CFD certification can be a valuable addition to a student resume, and passing the interactive test can demonstrate a strong understanding of CFD simulation principles and techniques related to this product.
Enhancing Your Project: Comprehensive Consultation and Optimization Services
Collaborative Development of a Conference Paper on Cutting-Edge Topics with MR CFD
Collaborative Publication Opportunity: Contribute to an ISI Article and Get Featured in Scopus and JCR-Indexed Journals
If you want training in any language other than English, we can provide you with a subtitled video in your language.

Description

Course Overview

A comprehensive training program focused on erosion CFD simulation, prediction and analysis using ANSYS Fluent, featuring practical industrial applications and various geometric configurations.

Fundamental Erosion Analysis Module

Starting with basic geometries (Exercises 4, 5, 8, 9), this module covers essential erosion modeling concepts through:

Flow analysis in simple obstructed channels

Basic pipe bend erosion studies

Elbow and knee configurations

– Fundamental particle tracking techniques

These foundational exercises establish core competencies in erosion simulation.

Advanced Industrial Applications

The program advances into complex industrial equipment (Exercises 1, 2, 3), focusing on:

Bulb turbine sand erosion analysis

Centrifugal pump slurry flow studies

Pelton turbine hydro-abrasive wear

This module addresses real-world challenges in power generation and fluid handling equipment.

Specialized Equipment Module

The final segment (Exercises 6, 7) covers specialized industrial equipment:

Shell and tube heat exchanger erosion

Splitter erosion analysis

– Combined sedimentation and erosion effects

Technical Components

Throughout the course, participants master:

– DPM modeling techniques

– Erosion rate prediction

– Particle tracking methods

– Impact angle analysis

– Material removal modeling

– Result interpretation and validation

Learning Outcomes

Upon completion, participants will gain:

– Comprehensive erosion modeling skills

– Understanding of various erosion mechanisms

– Practical industrial application experience

– Advanced particle tracking expertise

– Equipment life prediction capabilities

– Optimization strategies for erosion mitigation

This course is ideal for professionals in power generation, oil & gas, mining, and process industries seeking to enhance their capabilities in erosion prediction and equipment life assessment.

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