Structure & Syllabus Of B.Tech. (Mechanical Engineering)
1Bansilal Ramnath Agarwal Charitable Trust’sVishwakarma Institute of Technology(An Autonomous Institute affiliated to Savitribai Phule Pune University formerly University of Pune)Structure & Syllabus ofB.Tech. (Mechanical Engineering)(B20/C20/D20 Pattern - SY, TY and Final year B.Tech Mechanical EngineeringApplicable for AY 2020-21)Prepared by: - Board of Studies in Mechanical EngineeringApproved by: - Academic Board, Vishwakarma Institute of Technology, PuneSigned byChairman – BOSChairman – Academic BoardStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
2IndexSr.No. Subject 3ME4266ME4268ME4204ME4256TitleVision And Mission Of The DepartmentCourse StructureCourse Contents SY MechFluid EngineeringMachine DesignThermodynamicsAnalysis And Simulation Of Machines And MechanismsEngineering Design And Innovation – VICourse Contents TY Mech Module – VHydraulic Machines And Fluid PowerDynamics Of MachinesHybrid And Electric VehiclesMechatronicsEngineering Design And Innovation – VCourse Contents TY Mech Module – VIApplied Thermal EngineeringMetrology And Quality ControlModeling & Simulation Of Mechanical SystemsMechanical System DesignEngineering Design And Innovation – VICourse Contents B.Tech Module – VIICAD/CAM/CAEComputational Fluid DynamicsComputer Integrated ManufacturingVibration AnalysisRefrigeration And Air ConditioningPower Plant EngineeringEngineering Design And Innovation-VIICourse Contents B.Tech Module – VII AIndustry Internship / (Capstone Project)Research InternshipProject InternshipInternational InternshipCourse Contents B.Tech Module – VIII BNon-Conventional Energy SourcesThermal Management Of SystemsComposite MaterialsRoboticsFinite Element MethodTribologyHeat Exchange DevicesElectronics Cooling And PackagingEngineering Design And Innovation - Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
3Vision, Mission and PEOs of B. Tech. Mechanical Engineering Vision ofthe DepartmentTo be recognized as one of the preeminent Mechanical Engineering ProgramsMission of the Department To prepare students competent to make their careers in Mechanical Engineering To provide value education to students to make them responsible citizen Tostrengthencollaborationswith Industries,AcademiaandResearch Organizations to enrich learning environment and to enhance Research Culture To be recognized as a leading Mechanical Engineering Department in the field ofKnowledge, Skill and ResearchProgram Educational Objectives To achieve the mission of the program, Mechanical Engineering graduates will be able: To work independently as well as in team to formulate, design, execute solutions forengineering problems and also analyze, synthesize technical data for application toproduct, process, system design & development To understand & contribute towards social, environmental issues, following professionalethics and codes of conduct and embrace lifelong learning for continuous improvement To develop expertise towards use of modern engineering tools, instruments,programming languages and software’s To acquire and develop careers in industries, Research organizations, academia anddemonstrate entrepreneurial skillProgramOutcomesMechanical EngineeringEngineering Graduates will be able to:1. Engineering knowledge: Apply the knowledge of mathematics, science, engineeringfundamentals, and an engineering specialization to the solution of complex engineeringproblems.2. Problem analysis: Identify, formulate, review research literature, and analyze complexengineering problems reaching substantiated conclusions using first principles ofmathematics, natural sciences, and engineering sciences.3. Design/development of solutions: Design solutions for complex engineering problemsand design system components or processes that meet the specified needs with appropriateconsideration for the public health and safety, and the cultural, societal, and environmentalconsiderations.4. Conduct investigations of complex problems: Use research-based knowledge andresearch methods including design of experiments, analysis and interpretation of data, andsynthesis of the information to provide valid conclusions.5. Modern tool usage: Create, select, and apply appropriate techniques, resources, andmodern engineering and IT tools including prediction and modeling to complexStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
4engineering activities with an understanding of the limitations.6. The engineer and society: Apply reasoning informed by the contextual knowledge toassess societal, health, safety, legal and cultural issues and the consequent responsibilitiesrelevant to the professional engineering practice.7. Environment and sustainability: Understand the impact of the professionalengineering solutions in societal and environmental contexts, and demonstrate theknowledge of, and need for sustainable development.8. Ethics: Apply ethical principles and commit to professional ethics and responsibilitiesand norms of the engineering practice.9. Individual and team work: Function effectively as an individual, and as a member orleader in diverse teams, and in multidisciplinary settings.10. Communication: Communicate effectively on complex engineering activities with theengineering community and with society at large, such as, being able to comprehend andwrite effective reports and design documentation, make effective presentations, and giveand receive clear instructions.11. Project management and finance: Demonstrate knowledge and understanding of theengineering and management principles and apply these to one’s own work, as a memberand leader in a team, to manage projects and in multidisciplinary environments.12. Life-long learning: Recognize the need for, and have the preparation and ability toengage in independent and life-long learning in the broadest context of technologicalchangeProgram Specific Outcomes (PSO) MechanicalEngineeringMechanical Engineering Graduates will be able to:1. Read & generate 2D & 3D computer based drawings of Mechanical Engineeringcomponents & systems and select appropriate materials and manufacturing processes fortheir production.2. Conceptually understand Mechanical Engineering components & systems and therebydesign & analyze them for enhancement of thermal & mechanical performance.3. Conduct experiments on mechanical systems to measure different parameters requiredto evaluate the performance of materials, components & systems and deduce relevantconclusionsStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
5COURSE STRUCTURESY Mech. Module 3S4ME2223*S5ME2291*S6S7ME2221*ME2222*Course NameData ScienceApplied ElectronicsMechanical and SystemEngineeringSoftware DevelopmentProject - IEngineering Design andInnovation - IIIEngineering Design -ISoftware Design-ITotalContact Hours perCreditsweekTheory Lab Tut321532153215-6-3-8-4-22-11924324SY Mech. Module -IVSubjectheadCoursecodeCourse nameS1ME2201FLUID ENGINEERINGS2ME2202MACHINE DESIGNS3ME2203THERMODYNAMICSS4ME2204ANALYSIS AND SIMULATION OFMACHINES AND MECHANISMSS5MD2292**ENGINEERING DESIGN ANDINNOVATION –VIS6MD2224**Contact hours per 8324ENGINEERING DESIGN-IITOTALStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
6TY Mech. Module -VSubject headCoursecodeCourse nameS1ME3253HYDRAULIC MACHINES ANDFLUID POWERS2ME3262DYNAMICS OF MACHINESS3ME3263HYBRID AND ERING DESIGN ANDINNOVATION - VS6ME3201*Contact hours 1218324ENGINEERING DESIGN-ITOTALStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
7TY Mech. Module -VISubjectheadCoursecodeCourse nameContact hours perweekCreditsTheoryLabTut3215S1ME3266APPLIED THERMALENGINEERINGS2ME3268METROLOGY AND QUALITYCONTROL3215S3ME3264MODELING & SIMULATION OFMECHANICAL SYSTEMS3215S4ME3276MECHANICAL SYSTEM DESIGN3204S5ME3294**ENGINEERING DESIGN ANDINNOVATION - VI-8-4S6ME3202**ENGINEERING DESIGN-II---0TOTAL1218324Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
8B. Tech. Mech. Module -VIISubjectheadCoursecodeContact hours per weekCourse nameCreditsTheoryOE1MD4201 ENGINEERING AND MANAGERIALECONOMICSOE1MD4202PROJECT MANAGEMENTOE2ME4251CAD/CAM/CAEME4280COMPUTATIONAL FLUIDDYNAMICSME4202COMPUTER INTEGRATEDMANUFACTURINGDESIGN FOR X & PRODUCT LIFECYCLE MANAGEMENTDIE & MOLD -2FINITE ELEMENTANALYSIS2--2DATA ANALYTICS FORENGINEERS2--2ME4206-20-10ME4255MAJOR ATION ANALYSISME4254REFRIGERATION AND AIRCONDITIONINGME4261POWER PLANT ENGINEERINGOE3OE3OE3ME4205OE3TOTALStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
9B. Tech. Mech. Module -VIII-A (Internship /(CAPSTONE PROJECT))SubjectheadCoursecodeContact hours per weekCourse nameCreditsTheoryLabTutOEME4276Industry Internship / (CAPSTONE PROJECT)---16OEME4273RESEARCH INTERNSHIP---16OEME4275PROJECT INTERNSHIP---16OEME4277INTERNATIONAL INTERNSHIP---16TOTAL---16B. Tech. Mech. Module E3OE3CourseCodeCourse NameME4258 Non-Conventional Energy SourcesME4205 Thermal Management Of SystemsME4206Composite MaterialsME4203Fracture MechanicsME4262RoboticsME4263Finite Element MethodME4266TribologyME4268Heat Exchange DevicesME4204 Electronics Cooling And PackagingEngineering Design And InnovationME4256- VIIITotalContact Hours perCreditsweekTheory Lab Tut222222222222222222-20-10620-16Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
10COURSE CONTENTSSY Mech. Module -IVContact hours per weekSubjectheadCoursecodeCourse nameS1ME2201FLUID ENGINEERINGS2ME2202MACHINE DESIGNS3ME2203THERMODYNAMICSS4ME2204ANALYSIS AND SIMULATION OF MACHINESAND MECHANISMSS5MD2205 ENGINEERING DESIGN AND INNOVATION – IIIS6MD2206S7PROFESSIONAL 3204-8-4---0-2-11218324Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
11FF No. : 654Syllabus TemplateME2201: FLUID ENGINEERINGCourse Prerequisites: 1.Mathematics 2. ODETCourse Objectives:1. To familiarize with properties of fluids and applications of fluid mechanics2. To understand concepts of fluid measurement, types of flows and dimensional analysis3. To formulate and analyse problems related to calculations of forces in fluid structureinteractionsCredits: 5Teaching Scheme Theory: 3 Hours/WeekTut: 1 Hours/WeekLab: 2 Hours/WeekCourse Relevance:The subject Fluid Mechanics has a wide scope and is of prime importance in several fields ofengineering and science. Present course emphasizes the fundamental underlying fluid mechanicalprinciples and application of those to solve real life problemsSECTION-ITopics and ContentsFluid properties; fluid statics, manometry, buoyancy, forces on submerged bodies, stability offloating bodies; control-volume analysis of mass, momentum and energy; fluid acceleration;differential equations of continuity and momentum, Bernoulli’s equation, limitations ofBernoulli’s equation, Application of Bernoulli’s theorem such as venturimeter, orifice meter,pitot tube and orifices etc.SECTION-IITopics and ContentsDimensional analysis; viscous flow of incompressible fluids, boundary layer, elementaryturbulent flow, flow through pipes, head losses in pipes, bends and fittings, drag and liftStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
12List of Tutorials: (Any Three)1) Problems on Fluid properties.2) Problems on manometry.3) Problems on buoyancy.4) Problems on mass, momentum and energy.5) Problems on Bernoulli’s equation.6) Problems on viscous flow of incompressible fluids.7) Problems on the boundary layer.8) Problems on flow through pipes.9) Problems on head losses in pipes.10) Problems on bends and fittings.List of Practical’s: (Any Six)1) Measurement of viscosity using Red Wood viscometer2) Study and demonstration of pressure measurement using manometers3) Bernoulli equation in nozzle/diffusers: Loss calculation4) Calibration of Venturimeter / V-Notch5) Determination of the metacentric height of a floating body and its stability6) Demonstration of Pitot tube for velocity measurement7) Flow pattern in a Hale-Shaw cell8) Reynolds Experiment9) Determination of Minor Losses – contraction, expansion and bend10) Force acting on a plate/hemisphere due to a jetList of Projects:1.Simulation of Flow over airfoil2.Design of a piping network3.Simulation of Flow over cylinder4. Design of Centrifugal Pump.5. Study of hydrokinetic Turbine.6. Flow Analysis of Rocket nozzle using Ansys7.CFD Analysis of Fluid Flow across Propeller Fan using ANSYS8. Fluid mechanics of Internal combustion engine9. Speed Bump: Application of Non-Newtonian fluid.10. Study of Laminar Flow through pipe by simulation.Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
13List of Course Seminar Topics:1. Nanofluids.2. Bio fluids Principles.3. Wall Turbulence.4.Advanced fluid transport machinery5. Supercritical Fluids.6. Application of fluid Mechanics.7. Velocity field measurement using particle image velocimetry (PIV).8. Velocity field measurement using Laser Doppler Anemometry (LDA).9. Flow Stability.10. Recent Trends in Fluid Mechanics.11. Characteristics of flow over airfoils12. Analysis of Blower13. Analysis of Centrifugal Compressor14. Velocity Measurement Techniques15. Flow Meters16. Drag calculation(from experimental data) for bluff bodies17. Axial Compressor analysis18. Hydroturbine analysis19. Force Measurement techniques20. Vortex panel method for airfoilsList of Course Group Discussion Topics:1. Bio fluid mechanics2. Complex and Non Newtonian fluid3. Multiphase flows4. Drag reduction and propulsion efficiency5. Compressible flows6. CFD7. Turbulence8. Boundary Layer.9. Incompressible Fluids10. Flow Transition in Hypersonic Boundary Layer.11. Flow over Aircraft Wing12. Transition to turbulence13. Numerical Methods for solving flow equations14. Meshing methodology for flow solvers15. Turbulence Modelling16. Compressible Flow solvers17. Finite Volume Approach18. Gas turbine analysis19. Biological flows20. Cavitation in pumps and turbinesStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
14List of Home Assignments:Design 1) Design and Numerical Analysis of Flow through Pipe.2) Design of Pelton Turbine.3) Design of Rotameter.4) Design of Centrifugal Pump and Validation by Analysis in ANSYS.Blog 1) Laminar, Turbulent and Vortex Flow2) Boundary layer3) Drag and lift force4) Flow through pipe5) Biological flow,Case study 1) Koenigsegg Jesko Absolut Aerodynamics2) Analysis of flow through an orifice plate(CFD Simulation)3) Numerical Simulation and Experimental Study of Flow Field around a Bullet with a Partial4) Non-Newtonian Fluids5) Hydrodynamics of Submarine6) Study and analysis of Water Hammer effect in pipeline.7) Case study of a Simple Carburettor.Survey1) Types of Hydraulic turbines2) Hydraulic system and its componentsStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
15Suggest an assessment Scheme:Suggest an Assessment scheme that is best suited for the course. Ensure 360 degreeassessment and check if it covers all aspects of Bloom's Taxonomy.Text Books: (As per IEEE format)1.Som and Biswas, Fluid Mechanics and Fluid Machines, Tata Mcgraw Hill2. Frank M White, Fluid Mechanics, 6th Ed., Tata Mcgraw Hill New Delhi3. Yunus A. Çengel, Fluid Mechanics, Tata Mcgraw-Hill Education4. D. S. Kumar, Fluid Mechanics And Fluid Power Engineering, S. K. Kataria& Sons5. R. K. Bansal, Fluid Mechanics, Laxmi Publication (P) Ltd. New Delhi6. R. K. Rajput, Fluid Mechanics and Hydraulic Machines, S. Chand & Company Ltd.Reference Books: (As per IEEE format)1. P. Kundu, I. Cohen, D. Dowling, Fluid Mechanics, Elsevier India2. P. J. Pritchard, J. C. Leylegian, Introduction to Fluid Mechanics, John Wiley&SonsMOOC Links and additional reading material: www.nptelvideos.inCourse Outcomes:The student will be able to –1) Develop an intuitive understanding for Fluid properties and fluid statics.2) Apply and analyze fluid systems using the integral form of the continuity, momentum3) Apply Bernoulli’s Equation for various fluid systems and flow measuring devices.4) Demonstrate the Dimensional analysis and working of fluid flow measurementDevices.5) Analyze and explain physical significance of flow through the pipes.CO PO MapStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
16CO attainment levels1) Develop an intuitive understanding for Fluid properties and fluid statics. (3)2) Apply and analyze fluid systems using the integral form of the continuity, momentum (3)3) Apply Bernoulli’s Equation for various fluid systems and flow measuring devices. (3)4) Demonstrate the Dimensional analysis and working of fluid flow measurement devices. (3)5) Analyze and explain physical significance of flow through the pipes. (3)Future Courses Mapping:Mention other courses that can be taken after completion of this course1 .Fluid machinery and fluid power engineering2. Turbo machinery3. Heat TransferJob Mapping:What are the Job opportunities that one can get after learning this courseStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
17FF No. : 654Syllabus TemplateME2202: MACHINE DESIGNCourse Prerequisites: Engineering Mechanics, Material ScienceCourse Objectives:Students will be able to1. Apply knowledge of mechanics of materials to understand component behaviour undervarious loading conditions.2. Reduce the behaviour of complex machines into appropriate subsystems/elements andthen analyse the behaviour of those elements.3. Understand the concept of Principal stresses and theories of failure.4. Apply different design considerations to common machine elements for failureprevention and sustainability.5. Deduce Power transmission system for a particular application.6. Use manufacturers catalog for selection of standard components.Credits: 05Teaching Scheme Theory: 3 Hours/WeekTut: 1 Hours/WeekLab: 2 Hours/WeekCourse Relevance: Machine design is the creation of plans for a machine to perform the desiredfunctions. The machine may be entirely new in concept, performing a new type of work, or it maymore economically perform the work that can be done by an existing machine. It may be animprovement or enlargement of an existing machine for better economy and capability.SECTION-1Topics and ContentsStresses & Strain:Simple stresses & strain, Stress-Strain Relationship, Introduction to thermal stresses, Shearstress & shear strain, Stresses on Oblique plane, Principal stresses & strains, Theories of failure,Modes of failure, Factor of safety, Stresses due to Bending Moment, Stresses due to Eccentricaxial loading, Stresses due to Torsional MomentDesign of Simple Mechanical Elements:Design of levers, wall brackets, frames, Shafts & keys, spring, Power screws, Spur & HelicalGears.Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
18SECTION-1ITopics and ContentsManufacturing Considerations in Design:Design considerations of Casting, Forging & Machined parts, Geometrical Dimensioning &Tolerancing, Design for Manufacture & Assemblies (DFMA), Introduction to Design forEnvironment (DFE) & Life Cycle Assessment (LCA)Design of Mechanical Assemblies:Design of Couplings, Threaded & Welded Joint s, Cotter Joint & Design of Knuckle Joint.Design & selection of Belt, Chain, rope drives, Rolling contact bearings, Sliding contactbearings.List of Tutorials: (Any Three)Problems on design of1.Lever2.Wall bracket3.Frame4.Shaft5.Coupling6.Spring7.Bolted joint8.Welded joint9.Gear10.Bearings11.Belt12.ChainList of Practical’s: (Any Six)# Program may be written in C /MATLAB/Python/EXCEL/ .List of Projects:Write a program for Parametric Design of1. Spur Gear.2. Helical Gear.3. Helical Compression Spring.4. Power Screw.5. Protected Flange Coupling.6. Flexible Shaft Coupling.7. V-Belt & selection8. Ball Bearing & selection from catalogue9. Life of bearing.10. Chain drive & selection from catalogue11. Sliding Contact Bearing.12. Any other similarStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
19Design, Modelling & Drafting of1. Gearbox of Motorcycle.2. Screw jack3. C-clamp4. Fly Press5. Protected Flange Coupling6. Flexible Shaft Coupling7. Cotter Joint8. Knuckle Joint9. Crankshaft10. Lead Screw of lathe11. Differential gearbox12. Single plate clutch13. Disk Brake14. Any other similar# Use any CAD software for Modelling.# Drafting of details of components should be hand drafting on sheet.List of Course Seminar Topics:1. Selection of factor of safety2. Theories of failures & their significance3. Design considerations of Casting, Forging & Machined parts.4. Modes of failures5. Hole basis & Shaft basis system, Types of fits & their selection6. Dimensional & Geometrical tolerances7. Bearing Mounting.8. Design of Sliding contact bearings.9. DFMA10. DFE11. LCAList of Course Group Discussion Topics:1. DFMA2. Types of fits & their selection for a particular application.3. Modes of failures4. Design of shaft on the basis of Torsional rigidity.5. Factors to be considered in selection of factor of safety6. Factors to be considered in designing Gearbox.7. Factors to be considered in selection of Power transmission for a particular application.8. Factors to be considered in selection of manufacturing method for mechanical element.9. Factors to be considered in selection of type of bearing for a particular application.10. Design for sustainability.Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
20List of Home Assignments:Design1. Design of shaft on the basis of torsional rigidity2. Design of bolts for pillar crane base3. Design of V-belt for portable air compressor4. Design of chain drive for Motorcycle5. Design of spring for IC engine valves.Case Study1. Design of shaft on the basis of torsional rigidity2. Design of bolts for pillar crane base3. Design of V-belt for portable air compressor4. Design of chain drive for Motorcycle5. Design of spring for IC engine valves.Survey1. Different types of failures in Gears & heat treatment2. Different types of Springs used in Mechanical Applications3. Different types of Threads used in Mechanical Applications4. Different types of Belt Drives used in Mechanical Applications5. Different types of Bearings used in Mechanical ApplicationsBlog1. Different types of failures in Gears & heat treatment2. Different types of Springs used in Mechanical Applications3. Different types of Threads used in Mechanical Applications4. Different types of Belt Drives used in Mechanical Applications.5. Different types of Bearings used in Mechanical ApplicationsSuggest an assessment Scheme:Suggest an Assessment scheme that is best suited for the course. Ensure 360 degreeassessment and check if it covers all aspects of Blooms Taxonomy.Text Books: (As per IEEE format)1. Bhandari V. B. “Design of Machine Elements”, 3rd Edition, Tata McGraw HillEducation Private Ltd, New Delhi.2. Khurmi R. S. and Gupta J. K. “A text book of Machine Design”, Eurasia PublishingHouse Pvt. Ltd.,New Delhi.3. David G Ullman, “The Mechanical Design Process”, McGraw Hill Pub. Co. Ltd.,Delhi.4. George E Dieter, Linda C Schmidt, “Engineering Design”, McGraw Hill Pub. Co. Ltd.,Delhi.Reference Books: (As per IEEE format)1. Spotts M. F. and Shoup T. E. “Design of Machine Elements”, Pearson Education Pvt. Ltd.,Delhi.2. Shigley J. E. and Mischke C. R ,“Mechanical Engineering Design”,. 6th internationalEdition,McGraw Hill Pub. Co. Ltd., Delhi.Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
213. William Orthwein, “Machine Component Design” ,Jaico Publication, Mumbai.4. “Design Data”, P.S.G. College of Technology, CoimbatoreMoocs Links and additional reading material: www.nptelvideos.inCourse Outcomes:Students will be able to1. Evaluate stresses under various loading conditions.2. Analyze stresses in shaft, spring, threaded & welded joints.3. Design lifting devices like Screw jack & clamping devices like C-Clamp4. Select the material and derive the design specifications for Spur, Helical gears.5. Decide Power transmission system for a particular application.6. Select the standard components like bearings, belts and chains from the manufacturerscatalog.CO PO MapCO attainment levelsStudents will be able to1. Evaluate stresses under various loading conditions. (3)2. Analyze stresses in shaft, spring, threaded & welded joints.(4)3. Design lifting devices like Screw jack & clamping devices like C-Clamp. (5)4. Select the material and derive the design specifications for Spur, Helical gears. (5)5. Decide Power transmission system for a particular application. (3)6. Select the standard components like bearings, belts and chains from the manufacturerscatalog. (4)Future Courses Mapping:Mechanical System DesignJob Mapping:R & D, Design & DevelopmentStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
22FF No. : 654Syllabus TemplateME2203: THERMODYNAMICSCourse Prerequisites: i. Zeal to learn the subject 1.Mathematics 2. PhysicsCourse Objectives:1. To learn the significance of thermodynamics, basic terms and definitions ofThermodynamics.2. To learn thermodynamic interactions, and balance of energy between system and itssurroundings3. To learn laws of thermodynamics and understand the difference between high gradeand low grade energies, limitations on energy conversion.4. To learn applications of thermodynamics laws to various thermal systems.5. To learn the concept of steam formation and its utility in engineering applications.6. To understand the use of Steam Tables, Mollier Chart and analyse simple steamsystems.Credits: 05.Teaching SchemeTheory: 03 Hours/WeekTut: 01 Hours/WeekLab: 02 Hours/WeekCourse Relevance: Mechanical Engineering broadly has four sub-streams, i.e. Thermal andFluids, Mechanisms and Design engineering, Materials and Manufacturing, ComputationalTechniques. Engineering Thermodynamics is the first course on Thermal Science and Engineering.It studies various energy interactions notably heat and work transfer. It is based on certain laws ofnature which are never seen to be violated. Although, Thermodynamics lies at the core of thermaland fluids engineering, it also helps in understanding many concepts and courses from other substreams.SECTION-ITopics and ContentsThermodynamic system, surroundings and boundary, thermodynamic properties,thermodynamic processes, Temperature and temperature scale, Macro and microscopicapproach, Reversible and Irreversible Processes, Principle of conservation of Mass and Energy,Continuity equation, First law of thermodynamics, Zeroth Law of Thermodynamics,Thermometry, Application of first law to flow and non-flow processes and cycles. Concept ofinternal energy, Flow energy and enthalpy. Limitations of First Law of Thermodynamics,Clausius statement and Kelvin-Plank statement of Second Law of Thermodynamics, PerpetualMotion Machine I and II, Carnot theorem, Carnot Cycle for Heat engine, Refrigerator and HeatPump, Concept of Entropy.Structure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
23SECTION-IITopics and ContentsIdeal Gas definition, Gas Laws Specific Gas constant and Universal Gas constant, Specific heat,Constant Pressure, Constant Volume, Isothermal, Adiabatic, Polytropic and Throttling Processeson P-V and T-S diagrams, heat transfer, work transfer, change in internal energy, enthalpy andentropy during these processes, Formation of steam, Phase changes, Properties of steam, Use ofSteam Tables, Non-flow and Steady flow vapour processes, change of properties, work and heattransfer, study of P-V, T-S and H-S diagrams for steam, Use of Mollier diagram, Drynessfraction and its determination, Study of steam calorimeters Types and construction of VapourPower Cycles, Performance of Boiler (equivalent evaporation, boiler efficiencies, energybalance, boiler draught)List of Tutorials: (Any Three)1) Problems on application of First Law of Thermodynamics to flow processes and cycles2) Problems on application of First Law of Thermodynamics to non-flow processes and cycles3) Problems on Thermometry4) Problems on application of Second Law of Thermodynamics to flow processes and cycles5) Problems on application of Second Law of Thermodynamics to non-flow processes and cycles6) Problems on Gas Properties and Processes7) Problems on Steam Properties8) Problems on Dryness Fraction9) Problems on Vapor Power Cycles10) Problems on boiler performanceList of Practical’s: (Any Six)1) Determination of calorific value using gas calorimeter2) Determination of calorific value using Bomb calorimeterStructure and syllabus of Mechanical Engineering. Pattern B20/C20/D20, A.Y 2020-2021
243) Trial on Flue gas analysis using gas analyzer4) Trial for performance determination of Refrigerator5) Trial for performance determination of Heat pump6) Demonstration and study of boiler mountings and accessories7) Determination of dryness fraction of steam using throttling calorimeter8) Determination of dryness fract
Engineering Mechanical Engineering Graduates will be able to: 1. Read & generate 2D & 3D computer based drawings of Mechanical Engineering components & systems and select appropriate materials and manufacturing processes for their production. 2. Conceptually understand Mechanical Engineering components & systems and thereby
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