- Degree Bachelor
- Code: ME423
- Credit hrs: 3
- Prequisites: ME431
a- Knowledge and UnderstandingrnrnThrough knowledge and understanding, students will be able to:rna.4) Principles of design including elements design, process and/or a system related to specific disciplines.rna.8) Current engineering technologies as related to disciplinesrna.12) Contemporary Engineering Topicsrna.p.1) Fundamentals of thermal and fluid processesrna.p.4) The constraints which mechanical power and energy engineers have to judge to reach at anrnOptimum solutionrna.p.6) Mechanical power and energy engineering contemporary issuesrna.p.7) Basic theories and principles of some other engineering and mechanical engineering disciplinesrnProviding support to mechanical power and energy disciplines.rnrnb- Intellectual SkillsrnrnThrough intellectual skills, students will be able to:rnb.1) Select appropriate mathematical and computer-based methods for modeling and analyzing problems.rnb.12) Create systematic and methodic approaches when dealing with new and advancing technology.rnrnc- General Skills.rn Refer to relevant literature
Bachelor Degree in Mechanical Engineering (Refrigeration & Air Conditioning Engineering)
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content serial | Description |
---|---|
1 | Introduction, Characteristics of Steam Power Plants. Main Components Real Cycle Representation. |
2 | Thermodynamics of Vapors Superheating, Reheating. Regeneration, Supersaturating and Under Cooling. |
3 | Boilers: Types, Classification of Pressure Vessels. |
4 | Mountings, Fittings, Heating Surfaces & Tubing. |
5 | Efficiency Calculations & Equivalent Evaporation. |
6 | Combustion & Combustion Equipment Insulation Control. |
7 | Desuperheaters Steam to Steam Generators- 7th week evaluation / 7th week evaluation. |
8 | Steam Turbines: Types & Theory of Action. |
9 | Flow of Steam through Nozzles Power Calculation. |
10 | Turbine Efficiency Calculation Velocity Diagrams. |
11 | Turbine Design (Casing, Rotors and Blading). |
12 | Glands, Bearings, and Governing- 12th week evaluation / 12th week evaluation. |
13 | Steam Plant Systems, Performance & Heat Balance. |
14 | Condensers & Air Ejectors. |
15 | Dearators & Evaporators. |
16 | Final Examination. |
1 | Introduction, Characteristics of Steam Power Plants. Main Components Real Cycle Representation. |
2 | Thermodynamics of Vapors Superheating, Reheating. Regeneration, Supersaturating and Under Cooling. |
3 | Boilers: Types, Classification of Pressure Vessels. |
4 | Mountings, Fittings, Heating Surfaces & Tubing. |
5 | Efficiency Calculations & Equivalent Evaporation. |
6 | Combustion & Combustion Equipment Insulation Control. |
7 | Desuperheaters Steam to Steam Generators- 7th week evaluation / 7th week evaluation. |
8 | Steam Turbines: Types & Theory of Action. |
9 | Flow of Steam through Nozzles Power Calculation. |
10 | Turbine Efficiency Calculation Velocity Diagrams. |
11 | Turbine Design (Casing, Rotors and Blading). |
12 | Glands, Bearings, and Governing- 12th week evaluation / 12th week evaluation. |
13 | Steam Plant Systems, Performance & Heat Balance. |
14 | Condensers & Air Ejectors. |
15 | Dearators & Evaporators. |
16 | Final Examination. |
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