1- Mechanical Engineering Laboratories  MEP 407

Lecture: 0         Tutorial: 0            Practicals: 3 hrs/w          Total: 3 hrs/wk

Contents:

►Heat Engine Classification and engine main elements.

►Performance test on a multi-cylinder spark ignition engine.

►Performance test on a multi-cylinder compression ignition engine.

►Performance test on a reciprocating compressor.

►Performance test on a flame tube.

►Performance test on a water turbine (Pelton turbine).

►Performance test on a water turbine (Francis turbine).

►Performance test on a centrifugal water pump.

►Performance test on a steam turbine.

►Performance test on a fire tube boiler.

►Performance test on an air-conditioning system.

►Performance test on a refrigeration system.

►Performance test on a Coppus steam turbine.

 2- Conventional Power Plants MEP 401  

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

Contents: 

►Steam turbine power plants .

►Steam generators.

►Steam turbines.

►Condensers.

►Gas turbine Power Plants.

►Co-generation and combined cycles.

►Renewable energy power plants.

►Internal combustion engines plants.

►Nuclear power plants.

►Water Treatment and desalination for power plants .

►Environmental impact of power plants.

3- Turbomachinery MEP 405 B

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

Contents:

►Hydraulic Turbines.

►Pumps.

►Turbocompressors.

►Steam turbines.

►Gas turbines .

4- New and Renewable Energy MEP 418

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

Contents:

Energy :

►Introduction to Energy

► Radiation

►Extra Terrestrial Radiation on  Surfaces

►Utilization of Energy

►Liquid Flat Plate Collector

► Circular Concentrators

► Energy Measuring Instruments

Wind Energy :

►Introduction to Wind Energy

►Terrain Effects on Airflow

►Sitting in Non Flat Terrain

►Wind Characteristics

►Wind Machines

5-Mechanical Vibrations  MDP 410  

Lectures: 2 hrs/wk          Tutorial/Practical: 2  hrs/wk           Total:4  hrs/wk

Contents:

►Modeling of SDOF using Newton’s law and Energy method

►Free response (damped/undamped) of SDOF

►Forced Response of SDOF

►Modeling of TDOF using Lagrange’s equation

►Obtain natural frequencies and mode shapes for TDOF systems

►Free response of TDOF

►Forced response of TDOF

►Vibration absorber

►Introduction to machinery fault diagnostics using vibrations