Free Download Auditing Turbomachinery CFD Spot Costly Errors
Published 10/2025
Created by DR AI
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English | Duration: 14 Lectures ( 2h 9m ) | Size: 1.25 GB

Learn to validate mesh quality, select solvers, and prevent simulation failures. Based on 10+ years of ANSYS expertise.
What you'll learn
Predict mesh skewness failures before simulations using aspect ratio physics
Decode periodic error traps in turbines/compressors with boundary theory
Master wall function trade-offs: accuracy vs. stability in rotating machines
Spot turbulence model mismatches causing 30% efficiency drops in pumps
Reverse-engineer CFD garbage outputs using continuity/momentum forensics
Defend against vortex shedding chaos in blade rows with Strouhal theory
Solve transient rotor-stator errors with time-scale physics (no solver needed)
Detect false convergence from poor residuals/scaling in 3 steps
Validate simulations mentally using dimensionless numbers (Re, Ma, y+)
Build bulletproof meshes by controlling expansion ratios & cell quality
Requirements
Basic physics curiosity (e.g., "Why does fluid speed up in narrow gaps? etc")
Patience to master CFD error-forensics
High-school physics (pressure/forces)
STEM background (engineers/students/hobbyists)
Description
This course makes use of artificial intelligence in 2 videos only to make complex theoretical concepts more intuitive. These are clearly marked in lecture 1 and 11 only, and are used to visually demonstrate abstract principles, complementing the core, expert-led curriculum.Why do industrial turbomachinery simulations often mislead engineers? Overlooking foundational theoretical principles - like 1mm mesh gaps causing 200% pressure errors (Module 1), y+ mismatch invalidating turbulence models (Module 2), or solver misapplication corrupting rotor dynamics (Module 3) - results in costly prototype failures. This course delivers applied theory to intercept simulation errors before hardware commitment. You will learn toiagnose mesh-induced errors (gaps, skewness) using continuity and momentum principles - exposing why a 1mm gap invalidates results (Module 1).Select turbomachinery-specific y+ ranges and wall functions to achieve ±5% validation against experimental data - avoiding common turbulence modeling pitfalls (Module 2).Contrast ANSYS Fluent vs. CFX solver architectures for rotating machinery applications - predicting stability issues in compressors or turbines through algorithmic differences (Module 3).Prevent vortex shedding failures with Strouhal theory and detect false convergence in residuals using a 3-step framework - securing transient simulations (Module 4).Based on 10+ years fixing $1M+ simulation disasters, you gain:The GIGO Prevention Protocol for mesh/turbulence integrityMental Validation Toolkit using Reynolds/Mach numbers and y+Solver Selection Decision TreeDesigned for:CFD Auditors reviewing third-party simulation reportsEngineering Managers mitigating prototype risksMechanical Engineers designing pumps, turbines, or compressorsZero software licenses needed. Master physics-first error detection to:Identify mesh flaws from CAD geometry aloneValidate resultsAnticipate solver limitations for turbomachineryEquip yourself with system-agnostic expertise - enroll to safeguard your turbomachinery projects from theoretical oversights.
Who this course is for
This course is designed for CFD auditors, engineering managers, and hardware leads who need to sniff out simulation risks before they become costly prototype failures.
Bring a critical eye for technical reports and basic physics literacy (e.g., understanding pressure drives flow). No prior CFD experience is required - we focus purely on forensic skills, not software operation.
What You'll Gain Decode "garbage inputs" hidden in vendor CFD reports. Judge simulation credibility using mesh/y+/turbulence red flags. Spot $500k risks from skewed results before committing to hardware. Ask vendor-crushing questions like "How did you validate wall functions?" or "Show your gap closure strategy!"
Homepage
https://www.udemy.com/course/auditing-tu...ly-errors/

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