1- Engineering Economy MEP 313

Lectures: 3  hrs/wk            Tutorial/Practical:  2  hrs/wk         Total:  5  hrs/wk

Contents:

►Economic Decision,

►Money-time relationship,

►Cost and Cost estimating,

►Methods of economic studies,

►Methods of economic selection Depreciation,

►Income taxes, After tax considerations,

►Price change and exchange rate,

►Replacement analysis,

►Probabilistic economic analysis,

►Financial accounting, After tax considerations,

►Installed-Capacity Probability,

►Linear programming, Transportation Problems,

►Assignment Problems, Project Scheduling.

2- Fluid dynamics (3)-B, MEP 303 B

Lectures: 3  hrs/wk            Tutorial/Practical:  2  hrs/wk         Total:  5  hrs/wk

Contents:

►Introduction to Gas Dynamics (compressible flow), Basic concepts: Speed of sound, Mach number, Stagnation properties and Critical properties,

►Equations of steady 1-D isentropic flow with area changes, Isentropic flow in a converging nozzle,

►Normal Shock Wave equations, Flow in a converging-diverging nozzle ,

►1-D adiabatic flow in constant area duct with wall friction ,

►Iso-thermal flow in constant area duct with wall friction,

►Frictionless flow with heat transfer across the wall,

►Analysis of real incompressible viscous flow around immersed bodies,

►Applications on Lift and drag forces, measurements and experimental external flows ,

►Analysis, basic concepts and the governing equations of pumps and positive displacement machines,

►Introduction and basic concepts of Water Hammer theory,

►Analysis and applications of Water Hammer equations,

►Analysis and applications of pipe networks.

3- Heat and Mass Transfer, MPE 304 B

Lectures: 3  hrs/wk            Tutorial/Practical:  2  hrs/wk         Total:  5  hrs/wk

Contents:

►Radiation Heat Transfer,

►Fundamental Concepts & Basic Laws for Thermal Radiation,

►Heat Exchange by Thermal Radiation & between black, grey & real surfaces,

►Boiling and Condensation Heat Transfer,

►Fundamental Concepts of Film and Turbulent Condensation,

►Pool Boiling Curve ad Empirical Heat Transfer Correlations,

►Characteristics of Flow Boiling,

►Heat Exchangers,

►Types of Heat Exchangers,

►Logarithmic Mean Temperature Difference Method,

►Effectiveness- NTU Method,

►Fundamentals of Mass Transfer,

►Analogy between Heat and Mass Transfer,

►Diffusion Mass Transfer and Binary Mixtures ,

►Evaporation in a Column,

►Convective Mass Transfer.

4-Fundamentals of Combustion – MEP308 

Lectures: 3  hrs/wk            Tutorial/Practical:  2  hrs/wk         Total:  5  hrs/wk

Contents:

►Introduction to combustion processes and fuels

►Chemical Kinetics, 1, 2& 3 order of reactions,

►Reduction of reaction mechanisms,

►3^rd Law off Thermodynamics and entropy production,

►Gibbs function and chemical equilibrium,

►Types and structure of hydrocarbon fuels,

►Physical and chemical properties of fuels.