77 Languages
Logo

Apprentice Mode
10 Modules / ~100 pages
Wizard Mode
~25 Modules / ~400 pages
🎓
CREATE AN EVENT

Fluid Dynamics in Engineering Applications
( 30 Modules )

Module #1
Introduction to Fluid Dynamics
Overview of fluid dynamics, importance in engineering applications, and brief history.
Module #2
Fluid Properties
Physical properties of fluids, such as density, viscosity, and surface tension.
Module #3
Fluid Statics
Pressure, hydrostatic forces, and buoyancy in static fluids.
Module #4
Fluid Kinematics
Description of fluid motion, including velocity, acceleration, and streamlines.
Module #5
Fluid Dynamics Equations
Introduction to the Navier-Stokes equations and mass conservation equation.
Module #6
Laminar Flow
Characteristics of laminar flow, including velocity profiles and flow regimes.
Module #7
Turbulent Flow
Characteristics of turbulent flow, including turbulence models and eddy viscosity.
Module #8
Pipe Flow
Fully developed pipe flow, including friction factors and pipe roughness.
Module #9
Boundary Layers
Development of boundary layers, including laminar and turbulent boundary layers.
Module #10
Drag and Lift
Forces on objects in fluid flow, including drag and lift coefficients.
Module #11
Open Channel Flow
Flow in open channels, including uniform flow and non-uniform flow.
Module #12
Pumps and Turbines
Fundamentals of pumps and turbines, including performance curves and efficiency.
Module #13
Fluid Measurement
Measurement techniques for fluid flow, including pressure, velocity, and flow rate.
Module #14
Computational Fluid Dynamics (CFD)
Introduction to CFD, including numerical methods and simulation techniques.
Module #15
Aerodynamics
Fluid dynamics in aerospace engineering, including airfoil design and wing performance.
Module #16
Hydrodynamics
Fluid dynamics in ocean and coastal engineering, including wave dynamics and ship hydrodynamics.
Module #17
Microfluidics
Fluid dynamics at the micro scale, including lab-on-a-chip devices and microchannel flows.
Module #18
Biofluid Mechanics
Fluid dynamics in biological systems, including blood flow and respiratory flow.
Module #19
Engineering Applications of Fluid Dynamics
Case studies of fluid dynamics in engineering applications, including HVAC and chemical processing.
Module #20
Fluid Dynamics in Renewable Energy
Fluid dynamics in wind, hydro, and tidal energy systems.
Module #21
Fluid Dynamics in Environmental Systems
Fluid dynamics in environmental systems, including water and air pollution.
Module #22
Fluid Dynamics in Aerospace Engineering
Advanced topics in aerospace engineering, including hypersonic flow and compressible flow.
Module #23
Fluid Dynamics in Chemical Engineering
Fluid dynamics in chemical engineering, including mixing and reactor design.
Module #24
Fluid Dynamics in Civil Engineering
Fluid dynamics in civil engineering, including water resources and coastal engineering.
Module #25
Fluid Dynamics in Mechanical Engineering
Fluid dynamics in mechanical engineering, including heat transfer and thermal systems.
Module #26
Experimental Methods in Fluid Dynamics
Experimental techniques for measuring fluid flow, including particle image velocimetry and laser Doppler anemometry.
Module #27
Numerical Methods in Fluid Dynamics
Numerical methods for solving fluid dynamics problems, including finite element and finite difference methods.
Module #28
Uncertainty and Error Analysis
Uncertainty and error analysis in fluid dynamics, including sensitivity analysis and Monte Carlo simulations.
Module #29
Design and Optimization in Fluid Dynamics
Design and optimization techniques for fluid dynamics systems, including CFD-optimization and multi-objective optimization.
Module #30
Course Wrap-Up & Conclusion
Planning next steps in Fluid Dynamics in Engineering Applications career


Ready to Learn, Share, and Compete?

Language Learning Assistant
with Voice Support

Hello! Ready to begin? Let's test your microphone.
  • Logo
ONLINE RESOURCES
ABOUT WIZAPE
ONLINE PORTAL
Copyright 2025 @ WIZAPE.com
All Rights Reserved
CONTACT-USPRIVACY POLICY