CX4202 Advanced Transport Phenomena Syllabus:

CX4202 Advanced Transport Phenomena Syllabus – Anna University PG Syllabus Regulation 2021

UNIT I BASIC CONCEPTS

Phenomenological Equations and Transport properties, Rheological behavior of fluids, Balance Equations –Differential and Integral equations.

UNIT II APPLICATIONS OF DIFFERENTIAL EQUATIONS OF CHANGE

Applications in laminar and turbulent transport in compressible and incompressible fluids. Boundary layer theory.

UNIT III APPLICATIONS OF INTEGRAL EQUATIONS OF CHANGE

Macroscopic balance for isothermal and non isothermal systems and their applications in Momentum, Heat and Mass transport problems.

UNIT IV INTER PHASE AND MULTI PHASE MOMENTUM TRANSFER

Friction factor, Fluid –Fluid systems, Flow patterns in vertical and horizontal pipes, Formulation of bubbles and drops and their size distribution, Solid–fluid systems, Forces acting on stagnant and moving solids,Flow through porous medium, capillary tube model and its applications.

UNIT V INTER PHASE TRANSPORT INNON-ISOTHERMAL SYSTEMS

Heat Transfer coefficient, Forced convection in tubes, around submerged objects, Heat Transfer by free convection,film type and drop wise condensation and equations for heat transfer, Heat transfer in boiling liquids. Mass Transfer co-efficient in single and multiple phases at low and high mass transfer rates, Film theory, Penetration theory, Boundary layer theory, Macroscopic balance to solve steady and Unsteady state problems.

TOTAL:60 PERIODS

OUTCOME:

The students will be able to
CO1: Understand and identify transport properties for the three transport phenomena and analyze the mechanisms of molecular and turbulent momentum, energy and masstransport.
CO2: Formulate the differential forms and integral form of the equations of change for momentum, heat and mass transport in compressible and incompressible fluids for steady-state and unsteady flows
CO3: Apply RTT for macroscopic balances for isothermal and non isothermal systems
CO4:Evaluate the flow behavior for external and internal flows
CO5: Evaluate thermal conductivity and mass diffusivity for flow through porous media.

REFERENCES

1. Bird R.B., Stewart, W. E. and Lightfoot, E. N., “Transport Phenomena”, 2nd Edn. John Wiley and Sons,2002.
2. Brodkey,R.S. and Hershey, H.C.,“Transport Phenomena A Unified Approach”, Brodkey Publishing,2003.
3. Welty, J.R., Wicks, C. E. and Wilson, R. E., “Fundamentals of Momentum, Heat MassTransfer”,5th Edn., JohnWiley and Sons, 2007