Anna University Syllabus - Anna University ME Syllabus
IC7008 FLUID FLOW AND HEAT TRANSFER IN ENGINES Syllabus | Anna University ME Internal Combustion Engineering Second Semester Syllabus Regulation 2013. Below is the Anna University 2013 Regulation Syllabus for 2nd Semester for ME Internal Combustion Engineering, Textbooks, Reference books, Exam portions, Question Bank, Previous year question papers, Model question papers, Class notes, Important 2 marks, 8 marks, 16 marks topics.It is applicable for all students admitted in the Academic year 2013-2014 onwards for all its Affiliated institutions in Tamil Nadu.
IC7008 FLUID FLOW AND HEAT TRANSFER IN ENGINES L T P C 3 0 0 3
AIM:To enrich the students’ knowledge engines fluid flow and heat transfer
OBJECTIVES:
To understand the fluid flow in an IC engine, aspects of heat transfer and cooling of components.
UNIT I INTRODUCTION 9
Basics Laws, Newtonian Fluids, Navier – Stokes Equations, Compressible and Incompressible Flows,
Stream Functions and velocity Potential, Vorticity Dynamics.
UNIT II LAMINAR AND TURBULENT FLOWS 9
Ideal - flows and Boundary layers, Flows at Moderate Reynolds Numbers, Characteristics of High -
Reynolds Number Flow, Ideal Flows in a plane, Axi-symmetric and Three dimensional Ideal Flows
and Boundary Layers, Low Reynolds Numbers Flows. Swirl, Squish and Tumble.
UNIT III LUBRICATION,SURFACETENSION EFFECTS, MICROSCALE EFFECTS 5
Lubrication, Surface Tension effects, Micro scale effects.
UNIT IV COMPRESSIBLE FLOW 10
One dimensional compressible Gas flow, Isentropic Gas Relations, Compressible flow in Nozzles,
Area – velocity Relations, Converging – Diverging Nozzle effects of viscous friction and Heat Transfer
– Introduction to Multi-Dimensional flow.
21
UNIT V CONVECTIVE HEAT TRANSFER – MASS TRANSFER AND HEAT TRANSFER IN
POROUS MEDIA 12
Convective Heat Transfer – Parallel Flow (Hagen – Poiseuille Flow), Couette Flow, Sudden
acceleration of a Flat Plate, Creeping flow, Mass transfer Diffusion and Convection, combined Heat
and Mass Transfer, Heat transfer in Porous Media.
TOTAL: 45 PERIODS
OUTCOME:
On successful completion of this course the student will be able to apply the fluid flow and heat
transfer concepts in engine system.
REFERENCES
1. Ronald L. Panton, Incompressible flow, 3rd Edition, Wiley, 2005.
2. K. Muralidhar and G. Biswas, Advanced Engg. Fluid Mechanics, Narosa Publishing House, 2005.
3. Frank M. White, Viscous Fluid Flow, 3rd Edition, McGraw Hill, 2011.
4. I.G. Currie, Fundamental Mechanics of fluids, 4th Edition, McGraw Hill 2011.
5. F.P. Incropera and B. Lavine, Fundamentals of Heat and Mass Transfer, 7th Edition, Willey, 2011.
6. Welty, C. Wicks, Fundamentals of Momentum, Heat and Mass Transfer, 4th Edition, Wiley 2009.
7. Warren M Rehsenow and Harry Y Choi, Heat and Mass Momentum Transfer, Prentice Hall, 1980.
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