MEP 501: Fluid Dynamics:

The governing equations of fluid flow – 1-D incompr essible and compressible flows with applications- 2-D flow: Newtonian fluids, Navier-Stokes equations, examples on flow in pipes. Viscous flow and theory of lubrication- Boundary Layer flow – Turbulent flow – Applications on flow of gases and liquids in pipelines.

MEP 502 Theory of Turbo-machines:

The fundamentals, basic concepts and basic laws of turbo-machines – Similarity of turbo-machines – 1-D flow – 2-D flow through group of bla des-cascade – 3-D flow in turbo-machines.

MEP 503 Measurements and Tests:

Basic definitions – Concept of Calibration, static and dynamic response – Importance of accuracy, error-propagation and uncertainty analysis in experimental measurements – Methods of statistical analysis and graphical presentation of experimental results – Practical applications of measurement devices, electrical instruments, and signal conditioning devices

– Using of Personal Computers in data accusation, p rocessing and analysis during and after experimental measurements.

MEP 504 Heat and Mass Transfer:

Heat transfer by conduction – Heat transfer by conv ection – Heat transfer by radiation – Heat transfer during conditions of Boiling and Condensation – Heat exchangers – Mass Transfer.

MEP 505 Computer Applications:

Structure and components of Computers – Operating S ystems – Introduction to computer languish – Flow charts – Numerical Integration – So lving nonlinear algebraic and simultaneous equations – Curve fittings – Using com puters in engineering applications.

MEP 506 Turbines and Turbine-Plants:

Power generation gas-turbine plants – Power generat ion steam-turbine plants – Hydraulic turbines – Steam turbines – Gas turbines.

MEP 507 Pipelines and Ducting systems for Ventilation:

Viscous incompressible flow in pipelines – 1-D stea dy flow of compressible fluid – Fluid flow in pipeline networks – Energy transfer through pipelines – Pumps and pipeline systems.

MEP 508-A & 508-B Pumps and Compressors Stations:

Theory and design of Centrifugal and Mixed Flow Pumps – Theory of design – Axial flow pumps – Cavitations – Performance and testing of p umps – pumps operation problems – pumping stations – Theory and design of centrifugal compressors – Theory and design of axial flow compressors – Compressors accessories.

MEP 509    Automatic Control:

Control Systems – Mechanical components, pneumatic, hydraulic, and electric systems – Modeling – Transfer function – Closed loop system – Instantaneous response – Stability and equilibrium tests – Design of control systems – App lications of control systems in turbo-machines, heat transfer equipments and combustion systems.

MEP 510 Environmental Fluid Dynamics:

Basic definitions – Specifications and laws for env ironmental protection- Main sources for environmental pollution- Governing equations for atmospheric air flow- cooling of gases in air – Control of pollution from fixed and moving so urces – Treatment of industrial liquids –

Domestic Water treatment – Drains treatment.

MEP 541 Special course:

Special Topics in Pipelines, Pumps and Turbines.

MEP 542 Special course:

Special Topics in Pipelines, Pumps and Turbines.

MEP 551 Special course:

Special Topics in Pipelines, Pumps and Turbines.

MEP 552 Special course:

Special Topics in Pipelines, Pumps and Turbines.

Diploma of Graduate Studies in Combustion and Internal Combustion Engines:

MEP 511 Thermodynamics and Fundamentals of Combustion:

Review of basics of thermodynamics- Properties of real gases- Change of energy and entropy during combustion process- Chemical equilibrium- Introduction to kinetics of reaction in combustion process- Flames – Explosions – Continuou s and periodic combustion systems – Combustion control parameters and factors.

MEP 512 Fluid Dynamics and Fundamentals of Lubrication:

Types and description of fluid motion – Basic gover ning equations for fluid motion- Viscous flow – 2-D flow – Fundamentals of lubrication – Rey nolds equation – Algebraic solution of Reynolds equation for special conditions- Numerical solution of Reynolds equation – Hydrostatic and hydrodynamic loads and other loads.

MEP 513 Heat Transfer:

Introduction on types and methods of heat transfer- Heat transfer by conduction- Heat transfer by convection- Heat transfer by radiation – Mass tr ansfer – Heat transfer in Internal Combustion engines- Heat transfer in combustion chambers and furnaces.

MEP 514 Measurements and Control:

Basic components of measurement system – Error ana lysis – Static and dynamic response of measurement system- Methods and instruments for measuring: Pressure, Temperature, Rate of fluid flow, Fluid velocity, Force, Moment and Rotation speed – Fundamentals of control-Methods of control of: Pressure, Temperature and flow rate.

MEP 515 Computer Applications:

Mathematical models and applications in various engineering fields- Using digital computers

– Iterative methods for solving algebraic equations – Curve fittings- Numerical solution methods for differentiation and integration- Differential equations and examples in energy fields-Numerical solutions of Ordinary Partial differential equations- Finite differences methods for solving Partial Differential equations.

MEP 516 Applied Combustion:

Fundamentals of combustion- Types of flames – Mixin g and spreading of flames – Heat release in flames- Heat transfer in furnaces – Meas urements in flames – Burners and combustors – Combustion equipments.

MEP 517 Internal Combustion Engines:

Requirements of mixture of air-to-fuel ratio- Spark or Self Ignition Engines – Compression Ignition Engines – Two-stroke Engines – Engines Per formance – Super-charging.

MEP 518 Gas Turbines:

Applications and usages-Range of output power-Description of gas turbines- Gas turbine cycles – Specific output, thermal efficiency and ef fects of main parameters- Methods of performance enhancing – Fuel and combustion – Power control – Testing –Maintenance-Compound cycles.

MEP 519 Machine Dynamics and Stress-Analysis:

Kinematics and Dynamics of machines- Mechanisms of connecting rod and crank shaft – Equilibrium and Balancing- Vibrations – Fundamental s of stress analysis – Failure Theories.

MEP 520 Oils and Lubricants:

Types of industrial oils- Properties and tests of greases – Properties of Engines Lubricants – Composition and manufacturing of engines lubricants – Additives to improve properties – Additives for cleaning and corrosion resistance and others.

MEP 543 Special course:

Special Topics in Combustion and Internal Combustion Engines.

MEP 544 Special course:

Special Topics in Combustion and Internal Combustion Engines.

MEP 553 Special course:

Special Topics in Combustion and Internal Combustion Engines.

MEP 554 Special course:

Special Topics in Combustion and Internal Combustion Engines.