Combustion
introduction to the topic, Combustion Modes and Flame Types, combustion and thermochemistry, chemical kinetics, Coupling Chemical and Thermal Analyses of Reacting Systems. conservation Equations for reacting Flows. Laminar premixed flames. applications including the combustion process in spark and compression internal combustion engines.
Utilize contemporary technologies, codes of practice and standards, quality guidelines, health and safety requirements, environmental issues and risk management principles. Model, analyze and design physical systems applicable to the specific discipline by applying the concepts of: Thermodynamics, Heat Transfer, Fluid Mechanics, solid Mechanics, Material
Processing, Material Properties, Measurements, Instrumentation, Control Theory and Systems, Mechanical Design and Analysis, Dynamics and Vibrations. Select conventional mechanical equipment according to the required
performance. List the Main Causes of Power Losses in Engines, Air-conditioning systems, Turbines, Compressors and Pumps. Use Engineering Software packages to simulate multiphysics
engineering problems to reach an optimum design. Demonstrate abilities to operate and maintain thermal and hydraulic systems in traditional and nuclear power plants.
Chemical reactions.
Adiabatic flame temperatureCombustion in SI engines.
Combustion in CI engines.
introduction to Laminar and Turbulent flames
Numerical simulation of the combustion process.