4. Introduction: Def<strong>in</strong>ition, nature and significance of management, evaluation of managementthought, contribution of Max Weber, Taylor and Fayol.5. Human behaviour: Factors of <strong>in</strong>dividuals’ behaviour, perception. Learn<strong>in</strong>g and personalitydevelopment, <strong>in</strong>ter personal relationship and group behaviour.References:4. Dewett, K.K./Modern Economics Theory.5. Luthers, Fred / Organizational Behaviours.6. Prasad L.M/ Pr<strong>in</strong>ciples of Management7. A.W. Stonier &D.C Hergne/ A Text Book of Economics Theory /Oxford Publish<strong>in</strong>g House Pvt LtdMACHINE DESIGN – I0-2)Course Code (ME-409)Credit4(2-Introduction, Def<strong>in</strong>ition, Methods, Standards <strong>in</strong> design & selection of preferred size Selection ofmaterials, BIS system of designation of steels, steel & alloys, plastics & rubbers.Design aga<strong>in</strong>st static loadModes of failure, Factor of safety, stress-stra<strong>in</strong> relationship, pr<strong>in</strong>cipal stresses, theories of failure,endurance limit, design for f<strong>in</strong>ite & <strong>in</strong>f<strong>in</strong>ite life, Soderberg & Goodman criteriaDesign aga<strong>in</strong>st Fluctuat<strong>in</strong>g LoadJo<strong>in</strong>ts Riveted jo<strong>in</strong>ts, welded jo<strong>in</strong>t, screwed jo<strong>in</strong>ts, eccentric load<strong>in</strong>g of above jo<strong>in</strong>ts, design forfatigue load<strong>in</strong>g.Shaft, Keys & coupl<strong>in</strong>g.Design aga<strong>in</strong>st static load, strength & rigidity design, design of square & flat keys & spl<strong>in</strong>es, rigid &flexible coupl<strong>in</strong>gs.Mechanical Spr<strong>in</strong>gs.Helical spr<strong>in</strong>g, stress equation, deflection equation, design aga<strong>in</strong>st static & fatigue load<strong>in</strong>g, Multileafspr<strong>in</strong>g, Nippl<strong>in</strong>g, Design, spiral spr<strong>in</strong>gs.Power ScrewsForm of threads, square threads, trapezoidal threads, stresses <strong>in</strong> screw, design of screw jack.Reference:1. Mach<strong>in</strong>e design: Sharma & Agarwal, Kataria2. Design of M/c Elements: Bhandari TMH3. M/c Design : Maleev & Hariharan4. Mach<strong>in</strong>e Design SI edition by Shegley, McGray Hill5. Mach<strong>in</strong>e Design by black & Adams, McGray Hill6. Design of mach<strong>in</strong>e elements by Sprots.MECHINE DESIGN – I LAB1. Design & draw<strong>in</strong>g of Riveted jo<strong>in</strong>ts for given operat<strong>in</strong>g conditions2. Design of an eccentrically loaded welded, riveted or bolted jo<strong>in</strong>t3. Design of bolted jo<strong>in</strong>t for fluctuat<strong>in</strong>g loads4. Design & draw<strong>in</strong>g of a cotter jo<strong>in</strong>t.5. Design & draw<strong>in</strong>g of a Knuckle jo<strong>in</strong>ts.6. Design & draw<strong>in</strong>g of a simple screw jack7. Design of shaft for different load<strong>in</strong>g conditions8. Design & draw<strong>in</strong>g of rigid coupl<strong>in</strong>g (flanged type)9. Design & draw<strong>in</strong>g of a flexible coupl<strong>in</strong>g (p<strong>in</strong>-bush type)10. Design & draw<strong>in</strong>g of a leaf spr<strong>in</strong>g for and automobile11. Design & draw<strong>in</strong>g of a helical spr<strong>in</strong>g for a given application
Note-1. Students may be advised to use design data book for design2. Draw<strong>in</strong>g shall be made wherever necessary on small draw<strong>in</strong>g sheetsHEAT & MASS TRANSFERCourse Code (ME-503 ) Credit 4(3-0-1)General: Modes of heat transfer Conduction Convection- Radiation, scope and application of heattransfer, pr<strong>in</strong>ciples <strong>in</strong> <strong>Eng<strong>in</strong>eer<strong>in</strong>g</strong> Practice.Conduction:Fourier law-Thermal conductivity of solids, liquids and gases, factors affect<strong>in</strong>gthermal conductivity General differential equation for conductions. One dimensional steady stateconduction through homogeneous and composite surface-Plane, cyl<strong>in</strong>drical and spherical walls-Effect of variable thermal conductivity Shape factor, Overall heat transfer coefficient-Criticalradius of <strong>in</strong>sulation solution of multi dimensional steady state problems us<strong>in</strong>g relaxation method.Transient heat conduction based on lumped parameter method.Convection:Pr<strong>in</strong>ciples of dimensional analysis-pi theorem, Application of dimensional analysis tofree and forced convection. Empirical relations for flat plate and tubular geometry. Forcedconvection from tubes & tube bundles <strong>in</strong> cross flow. Simple application to straight, rectangularand triangular f<strong>in</strong>s effectiveness of f<strong>in</strong>s. Fundamentals of boil<strong>in</strong>g heat transfer, pool boil<strong>in</strong>g, Heattransfer <strong>in</strong> condensation: drop wise and film condensation: empirical equations.Radiation:Nature of thermal-radiation-Def<strong>in</strong>itions and concepts Monochromatic and totalemissive power-Absorptivitiy – Reflectivity-Black, gray and real surfaces-concept of a blackbody-Planck’s distribution law-Configuration of geometrical factor Heat exchange by radiationbetween black surfaces-Large parallel black plates, equal parallel and opposite black squares,black rectangles perpendicular to each other hav<strong>in</strong>g a common edge-heat exchange by radiationbetween large parallel planes of different emissivity. Radiation shields Electrical network methodof solv<strong>in</strong>g radiation problems. Solar radiation & Collectors.Heat Exchangers:Tubes of heat exchangers- Parallel flow, Counter flow evaporator andcondenser, Log mean temperature difference, effectiveness, NTU method, Introduction to compactheat exchangers.Ficks law of diffusion, Diffusion coefficient, steady state diffusion through stationary media,steady state diffusion through a stagnant gas films, steady state, equivocal counter diffusion.References:1. Pr<strong>in</strong>ciples of Heat Transfer Frnak Kreith McGray Hill Book Co. Heat and Mass Transfer C-DBennett and J-E-M years, Tata McGraw-Hill (19975)2. Fundamental of moment and heat transfer-Wetly3. Heat and mass Transfer – Eckert & Drake, McGraw Hill Book Co.4. <strong>Eng<strong>in</strong>eer<strong>in</strong>g</strong> Heat Transfer J.P. Homan, McGraw Hill Book Co.5. Heat Transfer by Pitts ane Sission, Schaum series.6. Heat Mass Transfer by R. Yadav7. Heat Mass Transfer by C.P.Gupta8. Heat and Mass Transfer by Domkundvar9. Heat & Mass transfer by R.C. Chandra10.Heat & Mass Transfer by Vijay Gupta11.Heat & Mass Transfer by D.S. KumarHEAT & MASS TRANSFER –LAB1- Conduction- Composite wall experiment2- Conduction- Composite cyl<strong>in</strong>der experiment3- Convection- Pool Boil<strong>in</strong>g experiment4- Convection- Experiment on heat transfer from tube-natural convection.5- Convection- Heat Pipe experiment
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