EY4102 Fluid Mechanics and Heat Transfer Syllabus:
EY4102 Fluid Mechanics and Heat Transfer Syllabus โ Anna University PG Syllabus Regulation 2021
COURSE OBJECTIVES:
1. To make students familiarize with the application of conservation equations
2. To explain the incompressible and compressible fluid flow concepts
3. To inculcate the analysis of conduction and gas radiation heat transfer
4. To provide the details of turbulent forced convective heat transfer
5. To impart the knowledge of design of single phase and multi-phase heat exchangers
UNITโ I BASIC EQUATION, POTENTIAL FLOW AND BOUNDARY LAYER THEORY
Three dimensional forms of governing equations โ Mass, Momentum and Energy equations and their engineering applications. Rotational and irrotational flows โ vorticity โ stream and potential functions. Boundary Layerโdisplacement, momentum and energy thicknessโlaminar and turbulent boundary layers in flat plates and circular pipes.
UNITโ II INCOMPRESSIBLE AND COMPRESSIBLE FLOWS
Laminar flow between parallel platesโ flow through circular pipeโ friction factorโ smooth and rough pipes โ Moody diagram โ losses during flow through pipes. Pipes in series and parallel โ transmission of power through pipes. One dimensional compressible flow analysis โ flow through variable area passageโnozzles and diffusers.
UNITโIII CONDUCTION AND RADIATION HEAT TRANSFER
Governing Equation and Boundary conditions, Extended surface heat transfer, Transient Conduction โ Use of Heisler -Grober charts, Conduction with moving boundaries, Stefan and Neumann problem โGas Radiation.
UNITโ IV TURBULENT FORCED CONVECTIVE HEAT TRANSFER
Turbulence theoryโmixing length concept โturbulence modelโk ะ modelโanalogy between heat and momentum transferโReynolds, Colburn, Prandtl turbulent flow in a tubeโhigh speed flows.
UNITโ V PHASE CHANGE HEAT TRANSFER AND HEAT EXCHANGER
Condensation on bank of tubesโboilingโpool and flow boiling, Heat exchangerโะโNTU approach and design procedureโcompact heat exchanger.
TOTAL: 60 PERIODS
COURSE OUTCOMES:
Upon completion of this course, the students will be able to:
1. Identify, formulate and analyze the governing equations for various engineering Applications
2. Explain the flow concepts of incompressible and compressible flow.
3. Solve the conduction and radiation heat transfer problems.
4. Infer the turbulent forced convective heat transfer
5. Design a heat exchanger as per the industrial needs.
REFERENCES:
1. Yunus A Cengel and John M Cimbala, โFluid Mechanics Fundamentals and Applications,โ TMHLtd.,Second Edition,2006.
2. ShivKumar, โFluid Mechanics Basic Concepts & Principlesโ Ane Books Pvt. Ltd, Second Edition 2011.
3. Venkateshan SP., โHeat Transferโ Ane Books Pvt. Ltd, 2011
4. Holman JP, โHeat Transferโ, TMH Ltd., Ninth Edition, 2010.
5. Ozisik MN., โHeat TransferโA Basic Approachโ, McGraw Hill Co,1985.