TE4101 Advanced Fluid Mechanics Syllabus:

TE4101 Advanced Fluid Mechanics Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES

 To understand the laws of fluid flow for ideal and viscous fluids.
 To represent the real solid shapes by suitable flow patterns and to analyze the same for aerodynamics performances.
 To understand the changes in properties in compressible flow and shock expansion.

UNIT I BASIC EQUATIONS OF FLOW

Three dimensional continuity equation – differential and integral forms – equations of motion momentum and energy – Reynolds transport theorem – Navier – Stokes equation – Engineering Applications

UNIT II POTENTIAL FLOW THEORY

Rotational and irrorational flows – circulation – vorticity – stream and potential functions for standard flows and combined flows – representation of solid bodies by flow patters. Pressure distribution over stationery and rotating cylinders in a uniform flow – magnus effect – Kutta – Zhukovsky theorem. Complex potential functions. Conformal transformation to analyze the flow over flat plate, cylinder, oval body and airfoils. Thin airfoil theory – generalized airfoil theory for cambered and flapped airfoils.

UNIT III VISCOUS FLOW THEORY

Laminar and turbulent flow – laminar flow between parallel plates – Poiseuille’s equation for flow through circular pipes. Turbulent flow – Darcy Weisbach equation for flow through circular pipe – friction factor – smooth and rough pipes – Moody diagram – losses during flow through pipes. Pipes in series and parallel – transmission of power through pipes.

UNIT IV BOUNDARY LAYER CONCEPT

Boundary Layer – displacement and momentum thickness – laminar and turbulent boundary layers in flat plates – velocity distribution in turbulent flows in smooth and rough boundaries – laminar sub layer.

UNIT V COMPRESSIBLE FLUID FLOW

One dimensional compressible fluid flow – flow through variable area passage – nozzles and diffusers – fundamentals of supersonics – normal and oblique shock waves and calculation of flow and fluid properties over solid bodies (like flat plate, wedge, diamond) using gas tables

TOTAL: 45 PERIODS

COURSE OUTCOME

 After the completion of the syllabus students able to familiarized about the ideal and viscous fluid flow, boundary layer concepts and changes in properties in compressible flow and shock expansion.

REFERENCES

1. Anderson J.D., Fundamentals of Aerodynamics, McGraw Hill, Boston, 2001.
2. Bansal R.K., Fluid Mechanics, Saurabh and Co., New Delhi, 1985.
3. Houghten E.L. and Carruthers N.B., Aerodynamics for Engineering Students, Arnold Publishers, 1993.
4. Kumar K.L., Engineering Fluid Mechanics, Eurasia Publishing House, New Delhi, 2002.
5. Munson B.R., Young D.F. and Okiisi, T.H., Fundamentals of Fluid Mechanics, John Wiley and Sons Inc., NewYork, 1990.
6. Schlichting H., Boundary layer theory, Mc Graw Hill Book Company, 1979
7. Shames, Mechanics of Fluids, Mc Graw Hill Book Company, 1962.
8. Streeter V.L., Wylie E.B. and Bedford K.W., Fluid Mechanics, WCB McGraw Hill, Boston, 1998.

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