Course Objectives:
You will study, both qualitatively and quantitatively, the fundamental processes common to many engineering processes: momentum transport, heat transport, and mass transport. The remarkable similarity between these very different phenomena will be discussed. You should be able to simplify the model equations to specific problems, solve the transfer coefficients, and can improve the process rate to practical transfer problems. 
1 Introduction on Fluid Flow
§1.1Viscosity of Newton-Type Fluids
§1.2Type of Non-Newtonian Fluids
§1.3The Laminar Flow in a Tube
2 Introduction to Momentum, Heat and Mass Transfer 
§2.1Heat, Mass and Momentum Flux
§2.2The Integral Balance Equations
§2.3The Differential Balance Equations
3 Several Solutions about the Flow Equations
§3.1Steady Laminar Flow Between Parallel Plates
§3.2Steady Laminar Flow in a Tube and Cannula Annular Space
§3.3 Crawling Flow
§3.4Flow Lines and Stream Functions
§3.5Ideal Fluid
4 Boundary Layer  Flow
§4.1The Concepts on Boundary Layer
§4.2The Differential Momentum Balance Equations in The Boundary Layer
§4.3The Integral Momentum Balance Equations in The Boundary Layer
§4.4The Laminar Boundary Layer During Fluids Past a Flat Plate 
5 Flow Turbulence
§5.1The Basic Concepts on Flow Turbulence
§5.2The Equations for Transport under Turbulent Conditions
§5.3Reynolds Stresses
§5.4Turbulent Flow in Pipes
§5.5Turbulence Models
6 Thermal Conductivity
§6.1The General Equations for the Thermal Conductivity
§6.2Steady Thermal Conductivity
§6.3Unsteady-state Thermal Conductivity
7 The Convective Heat Transfer
§7.1The General Equations for the Convective Heat Transfer
§7.2Relationship Between the Convective Heat Transfer and the Boundary Layer
§7.3The Analyzing Solution for the Heat Transfer during Fluids Past a Flat Plate with Laminar Flow
§7.4The Approximate Integral Solution for the Heat Transfer during Laminar Flow
§7.5The Analyzing Solution for the Heat Transfer under Turbulent Flow 
8 Binary Mass Diffusion
§8.1The Basic Concepts on Mass Diffusion 
§8.2The Differential Mass Balance Equations
§8.3Binary Mass Diffusion
§8.4Relationship Between Mass Transfer Coefficient and Main Flow
9 The Convective Mass Transfer 
§9.1 The Mass Transfer During Laminar Flow
§9.2 The Turbulent Flow During Fluids Past a Flat Plate
§9.3The Eddy Diffusion Coefficient and Mixing Length
§9.4The Analogies about Mass Transfer and Momentum Transfer
10 The Process on Heat and Mass Transfer at the Same Time
§10.1  The Laminar Boundary Layer During Fluids Past a Flat Plate
§10.2  The Process on Heat and Mass Transfer at the Same Time during Turbulent Flow

Text: 
Wang Shaoting, Chen Tao. Fundamental of Transport Processes in Chemical Engineering. Chemical Industry Press.2003

The main reference:
R.B.Bird, et al. Transport Phenomena. 2nd ed. John Wiley & Sons. 2002
 

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