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Introduction to Fluid Flow

Flow field, Stresses on fluid element, Newtonian fluid

Non Newtonian fluid, Classification of flow, Analysis of flow

Tutorial

Integral analysis, Control volume, Generalised conservation equation

Mass and linear momentum conservation in CV

Angular momentum conservation, Non-inertial frame of reference

Tutorial

Differential Analysis

Navier-Stokes equation for 2D incompressible flow

Vorticity, Stream function, Bernoulli's equation

Tutorial

External flows, Laminar and Turbulent Boundary Layer

Differential analysis of boundary layer, Blassius equation

Boundary Layer flow with pressure gradient, Flow separation

Internal flow, Pipe friction

Basic Thermodynamics

Turbomachines: Definition and classification

Dimensional Analysis

Tutorial

Representation of Turbomachines and Definition of velocity

Euler's energy equation

Real fluid flow and efficiency of turbomachine

Tutorial

Pumps

Pumping Systems

Hydraulic Turbines: Pelton Turbine

Hydraulic Turbines: Reaction Turbines

Cavitation in Hydroturbomachines

Tutorial

Introduction to compressible flow

Steam and Gas Turbine : Introduction and classification

Steam and Gas Turbine : h-s Plots and velocity triangle

Tutorial

Description:

PRE-REQUISITES: 1. Basic Engineering Mathematics 2. Engineering Mechanics 3. Basic Engineering Thermodynamics INTENDED AUDIENCE: 1. Undergraduate students 2. Practicing engineers (refresher course) INDUSTRIES APPLICABLE TO: Pump and turbine industry COURSE OUTLINE: The first part of the course introduces important concepts of fluid dynamics which forms the theoretical foundation for the second portion of the course on turbomachines. The course is intended for advanced B. Tech/B. E. students as well as a refresher course for practicing engineers working in the field of pump and turbine industries.

Fluid Dynamics and Turbomachines

NPTEL

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#Science #Physics #Fluid Mechanics #Fluid Dynamics #Thermodynamics #Compressible Flow #Boundary Layers #Navier Stokes Equations

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