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Introduction and Principles of Nuclear Engineering \u2013 Generation, Transport and Transfer of Energy in Nuclear Reactor Core \u2013 Nuclear Power Plants\u00a0 – Pressuresized Water Reactors (PWR), Boiling Water Reactors (BWR), and Gas-Cooled Reactors (GCR) \u2013 Fast Breeder Reactors (FBR) \u2013The Future of Nuclear Fusion \u2013Reactors Safety \u2013 Power Plant Site Selection.<\/p>\n
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MEP 442\u00a0 Advanced Environmental Pollution (3+1)<\/strong><\/p>\n Classification of Sources and Effects of Pollution, Especially Those which are Related to Mechanical Power Engineering (Air Pollution, Noise and Work Environment Pollution, Thermal Pollution, Pollution of Water Resources, Pollution of Solid Wastes) \u2013 Global Environmental Pollution Problems \u2013 Methods for controlling Different Types of Pollution \u2013 Standard Specifications for Clean Environment \u2013 Introduction to Environment Management Systems.<\/p>\n <\/p>\n MEP 443\u00a0 Advanced Air Conditioning (3+1)<\/strong><\/p>\n Types of Different Air Conditioning Systems \u2013 Application Requirements and System Selection \u2013 Special Applications \u2013 Heat Exchange Equipment \u2013Water Spray Equipment \u2013 Air Distribution and Fans \u2013 Water Distribution and Pumps \u2013Air Filters\u2013Control of Air Conditioning Systems \u2013 Design for Energy Saving.<\/p>\n <\/p>\n MEP 444\u00a0 Fires and Explosions (3+1)<\/strong><\/p>\n Fundamental of Fire Science \u2013 Explosions \u2013 Fire Models \u2013 Fire and Smoke Spread \u2013 Fire Safety Equipment.<\/p>\n <\/p>\n MEP 445\u00a0 Hydraulic Power Stations (3+1)<\/strong><\/p>\n Fundamentals of Hydraulic Power Stations Engineering\u2013 Evaluation of Hydraulic Power Resources \u2013 Generation Equipment \u2013 Structures of Hydraulic Power Stations \u2013 Saving of Hydraulic Power \u2013 Water Hammer \u2013 Spreading and Operation of Hydraulic Power Stations.<\/p>\n <\/p>\n MEP 446\u00a0 Refrigeration and Cryogenics (3+1)<\/strong><\/p>\n Absorption Refrigeration \u2013 Enthalpy \/ Concentration Diagrams \u2013 Processes on Binary Mixtures \u2013 Thermodynamic Cooling \u2013 Ultra Low Temperature Refrigeration \u2013 Gas Liquefaction \u2013 Cold Storage \u2013 Design of Cold Stores \u2013 Refrigeration Equipment \u2013 Special Applications.<\/p>\n <\/p>\n MEP 447\u00a0 Pipe Line Design (3+1)<\/strong><\/p>\n Introduction \u2013 Governing Equations, Calculation of Losses in Valves and Fittings \u2013 Designs and applications.<\/p>\n MEP 448\u00a0 Water Desalination (3+1)<\/strong><\/p>\n Introduction \u2013 Basics of Desalination \u2013 Desalination Technologies: Thermal, Membrane, Electrical, and Chemical \u2013 Co-Generation Systems \u2013 Desalination Using New and Renewable Energy Sources \u2013 Economics of Desalination.<\/p>\n <\/p>\n MEP 449\u00a0 Computer Applications in Control Systems (3+1)<\/strong><\/p>\n Classification of Computer Applications in Control \u2013 Examples on Hydraulic Control: Hydraulic Pumps and Motors, Control Valves, Transmission Components of Power Control \u2013 Pressure and Flow Valves \u2013 Applications of Using computer in Mechanical Power Generation Systems, Refrigeration and Air Conditioning, and Heat Exchange Equipment.<\/p>\n <\/p>\n MEP 450\u00a0 Two-Phase Flow (3+1)<\/strong><\/p>\n Fundamentals and Definitions of Two-Phase Flow \u2013 Homogenous Flow, Continues flow, Non-Homogenous Flow \u2013 Examples and Applications in Mechanical Power Engineering.<\/p>\n <\/p>\n MEP 451\u00a0 Advanced Combustion (3+1)<\/strong><\/p>\n Flame Theories \u2013 Pre-mixed Combustion \u2013 Un-premixed Combustion \u2013 applications \u2013 Heterogeneous Combustion.<\/p>\n <\/p>\n MEP 452\u00a0 Advanced Internal Combustion Engines (3+1)<\/strong><\/p>\n Gases Flow and Exchange in Internal Combustion Engines \u2013 Flow Inside Combustion Chamber \u2013 Charge Movement Inside the Cylinder \u2013 Modeling of Combustion and Flow inside Combustion Chamber \u2013 Adjusting and Controlling Engine Performance \u2013 Increasing Engine Power (Supercharging, Fuel Injection, Fuel\/Air Mixture Control, etc..) \u2013 Examples for Advanced Technologies in Internal Combustion Engines ( Gas Engine,\u00a0 Fuel Cells, Electric Cells, etc..).<\/p>\n <\/p>\n<\/p>\n <\/p>","protected":false},"excerpt":{"rendered":" MEP 441\u00a0 Nuclear Engineering (3+1) Introduction and Principles of Nuclear Engineering \u2013 Generation, Transport and Transfer of Energy in Nuclear Reactor Core \u2013 Nuclear Power Plants\u00a0 – Pressuresized Water Reactors (PWR), Boiling Water Reactors (BWR), and Gas-Cooled Reactors (GCR) \u2013 Fast Breeder Reactors (FBR) \u2013The Future of Nuclear Fusion \u2013Reactors Safety \u2013 Power Plant 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