#1
15th November 2017, 01:18 PM
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Gyan Vihar University M Tech Syllabus
Hi buddy I want to collect Gyan Vihar University M. Tech. Energy Engineering Syllabus ,so would you plz tell me from where we can get it ??
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#2
15th November 2017, 02:08 PM
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Re: Gyan Vihar University M Tech Syllabus
As you want here I am providing Gyan Vihar University M. Tech. Energy Engineering Syllabus, on your demand : ME 501 DESIGN OF THERMAL SYSTEMS C (L, T, P) = 3(3, 0, 0) Unit Course Contents Total Contact Hrs. 30 I Mathematical Modeling of thermal Systems: Development of equations based on number-processing operation and physical laws for simulation and optimization of thermal systems 6 II The art of equation fitting to performance data; Development of performance equations for heat exchangers, distillation separators and turbo machinery 6 III Simulation of thermal Systems: Uses of system simulation, classes of simulation; Information-flow diagrams; sequential and simultaneous calculations 6 IV simulation of continuous, deterministic steady-state systems, e.g. gas turbine system; simulation of dynamic behavior of thermal systems 6 V Optimization of Thermal Systems: Optimization criteria; use of Lagrange Multipliers, search methods, dynamic programming and geometric programming for optimum design of thermal systems 6 ME 502 DESIGN OF COMBUSTION SYSTEM C (L, T, P) = 3(3, 0, 0) Unit Course Contents Total Contact Hrs. 30 I Types Of Fuels: Composition-physical, chemical and thermodynamic properties. Proportion of reactants and cooled products: Individual hydro carbons - volumetric fuel blends gravimetric fuel and mixture calculation from product analysis-physical characteristics of mixtures and products 6 II Proportions Of Hot Products: Kinetic equilibrium - equilibrium product composition in hydrocarbon combustion - Fuel rich mixture dissociation - general mixture dissociation 6 III Combustion Energies: Standard energy of formation-standard energy of reaction calorific value-maximum useful work. Combustion Temperatures: Sensible energy - determination of maximum temperature in steady flow - Influence of fuel type and operating parameters. Combustion Efficiencies: Work transfer applications in now-flow - heat transfer applications in steady flow- work transfer applications in steady flow. Combustion Control Systems: Controlling fuel flow- controlling air flow- As pollution control flow 6 IV Design Of Burners: Gas and oil burners- operations characteristics - calculation of gas flow rate; pressure drop efficiency 6 V Design of furnaces and chimneys, steam generating devices - stokers, fluidized bed combustion - types - performance analysis 6 |
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