Short Syllabus of Mechanical Engineering (131) Curriculum - ITB

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Short Syllabus Energy equation, major and minor losses (in valves, elbows, adaptors, tee-joints, etc), pipe system simulation, optimization in single or multiple loops using Hardy-Cross method, piping standard, pumps and compressors selection for liquid or gas, code and standards. Related Courses 1. MS3143 Fluid Mechanics II, Prerequisited. Bibliography 1. M. Mohitpour, 2000, Pipe Line Design, ASME Press 2. E. Benjamin Wylie, Fluid Transient, Mc Graw Hill MS5044, Fluid Machineries (3 SKS) Short Syllabus Main parameters and basic characteristic of fluid machineries design, kinematics, dynamics, governing equation of motion, energy equation in absolute and relative systems, basic variables, energy analysis in inlet and outlet, pumps and turbines construction, numerical analysis, turbo-machinery design for incompressible and compressible substance. Related Courses 1. MS2100 Numerical Analysis & Programming, Prerequisited. 2. MS4147 Energy Conversion Machineries II, Co-requisited. Bibliography 1. Bruno Eckert, Axial und Radialkompressoren, Springer Verlag 2. Cohen, Gas Turbine Theory, Longman Scientific & Technical 3. Traupel, W., Thermische Turbomaschinen, Springer Verlag MS5045, Piston Combustion Engine (3 SKS) Short Syllabus Otto (gasoline) and diesel engines. The influence of design and operation to performance and fuel consumption. Review of thermodynamics, fluid mechanics, combustion, heat transfer, friction, power losses, efficiency, and exhaust emission. Operation characteristics of various internal combustion engines, and new trends in gasoline and diesel engines. Related Courses 1. MS4100 Mechanical Engineering Lab I, Prerequisited. 2. MS4147 Energy Conversion Machineries II, Prerequisited. 3. MS4240 Mechanical Engineering Lab II, Prerequisited.
Bibliography 1. Heywood, J.B, 1988, Internal Combustion Engine Fundamentals, McGraw Hill 2. Pischinger, R., Krasnik G., Taucar G., Sams Th.;, 1989, Thermodynamik der Verbrennungskraftmasschine;, Springer-Verlag 3. Murayama, T., Tsunemoto, H., 1999, Engineering of Automobile Engine, Sankai -do MS5046, Gas Turbine (3 SKS) Short Syllabus Characteristics of gas turbines for industry, ground vehicles, ships, and aircrafts, design and construction of main components: intake, compressor, combustion chamber, turbine, nozzle, and exhaust, different types of motor and installation: turbojet, turbofan, turboprop, and turboshaft, operating regimes and disadvantages, fuels, lubricants, exhaust emission, ways of improving power and efficiency, noise and emission reduction, installation and foundation, operation and maintenance, problems, research and development topics, design and testing, quality improvement, environmental and cost considerations. Related Courses 1. MS4147 Energy Conversion Machineries II, Prerequisited. Bibliography 1. H. Cohen, G.F.C. Rogers, H.I.H. Ssaravanamuttoo, 1991, Gas Turbine Theory, 3 Edition, Loingman Scientific & Technical, London 2. J.L. Keerrebrock, Aircraft Engines and Gas Turbines, 2nd Edition, The MIT Press, Cambridge, Massachussets 3. D.G. Wilson, 1984, The Design of High Efficiency Turbomachinery and Gas Turbines, The MIT Press, Cambridge, Massachussets MS5047, Rocket Engine (3 SKS) Short Syllabus Rockets with solid, liquid, and hybrid propellants, theory on propellants, igniter, inhibitor, and combustion, propellant injection system, heat transfer and cooling, performance and characteristics, multiple rockets, and safety system. Related Courses - Bibliography 1. G.P. Sutton, 1986, Rocket Propulsion Elements, John Wiley & Sons Inc, New York 2. M. Barriere, A. Jaumotte, B.F. de Veubeke, J. V, 1960, Rocket Propulsion, Elsevier Publishing Company, Amsterdam
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Short Syllabus of Mechanical Engineering (131) Curriculum - ITB

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