This note covers the following topics:
Differences between fluid and solid, Differences between gas and liquid, Types
of fluids, Physical properties, Fluid statics, Pressure Measurement, Buoyancy -
principles, Units and Dimensions, Similitude and model studies, Fluid flow,
Boundary layer, Flow of incompressible fluid in pipes, Compressible fluid flow,
Closed channel flow measurement, Flow past immersed bodies, Packed Towers,
Fluidization, Transportation of fluids, Rotary pumps, Airlift pump, Jet pump,
Selection of pumps, Fans, blowers, and compressors.
This note
describes the following topics: introduction to fluid mechanics, Static
pressure of liquids, Pressure measuring devices, Floating bodies, Fluid
flow, Flow through pipes, Flow through orifices, mouthpieces, notches and
weir, Measuring instruments, Dimensional analysis and pumps.
This PDF covers the following
topics related to Engineering Fluid Dynamics : Engineering Fluid Dynamics,
Comparative Study of Shell and Helically-Coiled Tube Heat Exchangers with
Various Dimple Arrangements in Condensers for Odor Control in a Pyrolysis
System, Numerical Models for Viscoelastic Liquid Atomization Spray, A
Performance Prediction Method for Pumps as Turbines Using a
Computational Fluid Dynamics Modeling Approach, Possibilities and
Limitations of CFD Simulation for Flashing Flow Scenarios in Nuclear
Applications, Computational Study of the Noise Radiation in a Centrifugal
Pump When Flow Rate Changes, Study the Flow behind a Semi-Circular Step
Cylinder (Laser Doppler Velocimetry and Computational Fluid Dynamics ,
Numerical Investigation of Periodic Fluctuations in Energy Efficiency in
Centrifugal Pumps at Different Working Points, etc.
This PDF covers
the following topics related to Advanced Fluid Mechanics : Introduction: Survey
of Fluid Mechanics, Structure of Fluid Mechanics Based on Rheological, Temporal
Variation, Fluid Type, Motion Characteristic and spatial Dimensionality
Consideration, Approaches in Solving Fluid Flow Problems, Fundamental
idealizations and Descriptions of Fluid Motion, Quantitative Definition of Fluid
and Flow, Reynolds Transport Theorem, Mass, Momentum and Energy Conservation
Principles for Fluid Flow. Potential Flow: Frictionless Irrotational Motions, 2
- Dimensional Stream Function and Velocity Potential Function in Cartesian and
Cylindrical Polar Coordinate Systems, Standard Patterns of Flow, Source, Sink,
Uniform Flow and irrotational vortex, Combinations of Flow Patterns, method of
Images in Solving Groundwater Flow problems, Method of Conformal
transformations.
Author(s): Dr. Prakash Chandra Swain, Professor in Civil
Engineering, Veer Surendra Sai University of Technology, Burla
This note explains the following topics: Properties Of Fluids
And Fluid Statics, Fluid Kinematics, Fluid Dynamics, Boundary Layer Theory,
Closed Conduit Flow.
This note explains the following topics: Properties Of Fluids
And Fluid Statics, Fluid Kinematics, Fluid Dynamics, Boundary Layer Theory,
Closed Conduit Flow.