Fundamentals of Fluid Mechanics : The Comprehensive Course

• Understand all the basic concepts of fluid mechanics
• Understand the dimensions and units for dimensional analysis
• Know how calculate the dimensionless numbers (Reynolds , Bingham & Nusselt Number)
• Calculate the fluid mass, weight and density and the relation between them
• Understand the classification of fluids (Internal and External, Compressible and Incompressible, Laminar and Turbulent, Steady and Unsteady)
• Continuity, Darcy's and Bernoulli's Equations and solve practice problems related to these equations
• Manometry (Piezometer, U tube manometer, Differential Monometer) for fluid pressure calculation
• Understand the Open Channel Flow Measurement (Weirs, Rectangle Notch, Contracted Weir, Triangle Weir)
• Calculate energy loses in moving fluid for friction and for many other reasons
• Understand how to use Moody’s chart and solve practice problems
• And all the other concepts that are important in the course Fluid Mechanics as we cannot discuss all of them here you can find them in course description

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Textbooks used for this course

1. Fluid Mechanics by Yunus A. Cengel, John M. Cimbala

2. Fundamentals of Fluid Mechanics, 6th Edition By Munson

A very detailed course for understanding almost every concept of fluid mechanics and know-how to solve practice problems.

Section 1

• Introduction to Fluid Mechanics

• Application Area of Fluid Mechanics

• Dimensions and Importance of Dimensions and Units

• Dimensional Homogeneity and Unity with example problems

• Calculation of Dimensional Analysis

• Dimensionless Numbers (Reynolds, Bingham & Nusselt Number)

• Measures of Fluid Mass and Weight (Density, Specific Weight, Specific Gravity) and Relation between Density and Specific Weight

• Classification of Fluid Flow (Internal and External, Compressible and Incompressible, Laminar and Turbulent, Steady and Unsteady)

• Calculation of Reynold, Bingham & Nusselt numbers (Dimensionless Numbers)

Section 2

• Nature of Fluids (The no Slip Condition in Fluid Dynamics)

• Shear Stress in Moving Fluid, (Derivation Shear stress is directly proportional to strain rate)

• Viscosity and Fluid Types (Newtonian and Non-Newtonian Fluid)

• Shear Thickening Fluids and Shear Thinning Fluid

• Numericals Related to Newton Law of Viscosity (Newtonian Fluid)

• Calculation of Shear Stresses

• Velocity Profiles

Section 3

• Pressure (Fluid Pressure and Hydrostatic Pressure)

• Calculation of Specific Gravity

• Manometry (Piezometer, U tube manometer, Differential Monometer)

• Questions related to Monometer for pressure calculation

• Buoyancy and Steps for solving Buoyancy Questions

• Numericals related to Buoyancy

Section 4

• Fluid Flow Rates

• Continuity Equation

• Calculation of Fluid Flow Rate using Continuity Equation

• Commercially Available Pipe and Tubing (Steel Pipe, Steel Tubing, Copper Tubing, Ductile Iron Pipe)

• Pipe Selection Aid

• Question calculation of Volume Flow Rate by Pipes and Tubes Table

• Determine Pipe Size and Tube Size from Tables

• Conservation of Energy (Bernoulli’s Equation),

• Derivation of Bernoulli’s Equation

• Interpretation of Bernoulli’s Equation

• Restriction on Bernoulli’s Equation

• Numericals related to Bernoulli’s Equation

• Problem-related to the calculation of volumetric flow rate through the nozzle using Bernoulli’s Equation

• Application of Bernoulli’s Equation (Tanks, Reservoirs, and Nozzles Exposed to the Atmosphere)

• Calculation of volumetric flow rate in Venturi Meter

• Torricelli’s Theorem

• Questions related to Torricelli’s Theorem

Section 5

• General Energy Equation (Pumps, Fluid Motors, Fluid Friction, Valves, and Fittings)

• Mechanical Energy and Efficiency

• Nomenclature of Energy Losses and Addition

• Questions Related to Energy Equation

• Power Required by the Pumps

• Mechanical Efficiency of Pumps

• Numericals related to Pumps

• Calculation of Mechanical Efficiency of the Pump

• Power Delivered to Fluid Systems

• Mechanical Efficiency of Fluid

• Calculation of Power Delivered to Fluid and its Mechanical Efficiency

Section 6

• Critical Reynolds Number

• Reynolds Number for closed non-circular cross-sections

• Hydraulic Radius for non-circular pipes

• Solving Problems using Moody’s Chart

• Calculation of Reynolds Number for non-circular pipes

• Friction Loss in non-circular cross-section

• Calculation of Friction loss using Moody’s Chart

• Energy Loss due to Friction

• Darcy’s Equation

• Friction Loss in Laminar and Turbulent Flow

Section 7

• Minor Looses

• Sudden Enlargement and losses due to Sudden Enlargements,

• Calculation of energy loss due to sudden enlargement

• Exit loss and calculation of energy loss due to exit loss

• Gradual Enlargement and calculation energy loss due to gradual enlargement

• Sudden Contraction and calculation of energy loss due to sudden contraction

• Entrance Loss and calculation of energy loss due to Entrance

• Minor Losses (through Valves and Fittings) with procedure for calculation

• Resistant Coefficient for Valves & Fittings

• Calculation of all the energy loses in moving fluid

Section 8

• Flow Measurement

• Flow meters selection factors

• Variable head meters, Venturi, Flow Nozzle, Orifice

• Variable Area Flow Meters

• Rotameter

• Flow Rate and Velocity Measurements

• Velocity Probes

• Open Channel Flow Measurement (Weirs, Rectangle Notch, Contracted Weir, Triangle Weir)

Section 9

• Positive Displacement Pumps

• Reciprocating Pumps

• Rotary Pump

• Kinetic Pump

• Self-Priming Pump

• Centrifugal Pump

• Affinity Law for centrifugal pumps

• Numerical using Affinity Law

• Manufacturer's data for centrifugal pumps

• Effect of Impeller Size

• Power and Efficiency of Pumps

• Cavitation

• Vapor Pressure

• NPSH Margin