SILVER OAK COLLEGE OF ENGINEERING AND · PDF fileSILVER OAK COLLEGE OF ENGINEERING AND TECHNOLOGY Mechanical Engineering Department ... SYLLABUS Subject ... Code: 2131906 Year 2014

SILVER OAK COLLEGE OF ENGINEERING AND TECHNOLOGY Mechanical Engineering Department

B. E. SEMESTER: III

MID SEMESTER EXAMINATION SYLLABUS Subject Name: Engineering Thermodynamics

Subject Code: 2131905 Year: 2014

Mr. Sagar Patel Mr. Krunal Mehta Mr. M. K. SHAH SUBJECT CO-ORDINATORS HEAD OF MECH. ENGG. DEPT.

Sr.No. GTU Topic No.

Topic name

1 1 Basic Concepts: Microscopic & macroscopic point of view, thermodynamic system and control

volume, thermodynamic properties, processes and cycles, Thermodynamic equilibrium, Quasi-

static process.

2 2 First law of Thermodynamics: First law for a closed system undergoing a cycle and change of

state, energy, PMM1, first law of thermodynamics for steady flow process, steady flow energy

equation applied to nozzle, diffuser, boiler, turbine, compressor, pump, heat exchanger and

throttling process, filling and emptying process.

3 3 Second law of thermodynamics: Limitations of first law of thermodynamics, Kelvin-Planck and

Clausius statements and their equivalence, PMM2, causes of irreversibility, Carnot theorem,

corollary of Carnot theorem, thermodynamic temperature scale

4 6 Vapor Power cycles: Carnot vapor cycle, Rankine cycle, comparison of Carnot and Rankine

cycle, calculation of cycle efficiencies, variables affecting efficiency of Rankine cycle, reheat

cycle, regenerative cycle, reheat-regenerative cycle, feedwater heaters.

5 7 Gas Power cycles: Recapitulation of Carnot, Otto and Diesel cycle, Dual cycle, Comparison of

Otto, Diesel and Dual cycles, air standard efficiency, mean effective pressure, brake thermal

efficiency, relative efficiency, Brayton cycle, effect of reheat, regeneration, intercooling and

turbine and compressor efficiency on Brayton cycle

6 8 Properties of gases and gas mixtures: Avogadro’s law, equation of state, ideal gas equation,

Vander Waal’s equation, reduced properties, law of corresponding states, compressibility chart,

Gibbs-Dalton law, internal energy; enthalpy and specific heat of a gas mixtures

SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY MECHANICAL ENGINEERING DEPARTMENT

B.E. SEM III

MID SEMESTER EXAMINATION SYLLABUS

Subject Name: Kinematics of Machine Subject Code: 2131906

Year 2014

Sr.

No.

GTU Topic

no.

Topic Name

1 1 Introduction of Mechanisms and Machines:

Concepts of Kinematics and Dynamics, Mechanisms and Machines,

Planar and Spatial Mechanisms, Kinematic Pairs, Kinematic Chains,

Kinematic Diagrams, Kinematic Inversion, Four bar chain and Slider

Crank Mechanisms and their Inversions, Degrees of Freedom,Mobility

and range of movement-kutzbach and Grubler’s criteria, Number

Synthesis,Grasof’s criteria

2 3 Gears and Gear Trains:

Gears:Terminology, Law of Gearing, Characteristics of involute and

cycloidal action, Interference and undercutting, centre distance variation,

minimum number of teeth, contact ratio, spur, helical, spiral bevel and

worm gears, problems.

Gear Trains: Synthesis of Simple, compound & reverted gear trains,

Analysis of epicyclic gear trains.

3 4 Cams and Followers:

Introduction: Classification of cams and followers, nomenclature,

displacement diagrams of follower motion, kinematic coefficients of

follower motion.

Synthesis and Analysis: Determine of basic dimensions and synthesis of

cam profiles using graphical methods, cams with specified contours.

Sub. Coordinator Head of Department

Ms.Namrata Sengar M.K. Shah

Mr. Amit Pandey

MIDSEM SYLLABUS ADVANCE ENGINEERING MATHS

SUBJECT CODE: 2130002 B.E. 3RDSEMESTER

Sr. No.

Course Content

1 Introduction to Some Special Functions:

Gamma function, Beta function, Bessel function, Error function and complementary Error

function, Heaviside’s function, pulse unit height and duration function, Sinusoidal Pulse

function, Rectangle function, Gate function, Dirac’s Delta function, Signum function,

Sawtooth wave function, Triangular wave function, Half wave rectified sinusoidal

function, Full rectified sine wave, Square wave function.

2 Ordinary Differential Equations and Applications:(First And Higher Order)

First order differential equations: basic concepts, Geometric meaning of y’ = f(x,y)

Direction fields, Exact differential equations, Integrating factor, Linear differential

equations, Bernoulli equations, Modeling, Orthogonal trajectories of curves. Linear

differential equations of second and higher order: Homogeneous linear differential

equations of second order, Modeling: Free Oscillations, Euler- Cauchy Equations,

Wronskian, Non homogeneous equations, Solution by undetermined coefficients, Solution

by variation of parameters, Modeling: free Oscillations resonance and Electric circuits,

Higher order linear differential equations, Higher order homogeneous with constant

coefficient, Higher order non homogeneous equations. Solution by [1/f(D)] r(x) method

for finding particular integral.

3 Fourier Series and Fourier integral:

Periodic function, Trigonometric series, Fourier series, Functions of any period, Even and

odd functions, Half-range Expansion, Forced oscillations, Fourier integral.

4 Laplace Transforms and Applications:

Definition of the Laplace transform, Inverse Laplace transform, Linearity, Shifting

theorem,Transforms of derivatives and integrals Differential equations, Unit step function

Second shifting theorem, Dirac’s delta function, Differentiation and integration of

transforms, Convolution and integral equations, Partial fraction differential equations,

Systems of differential equations


Name of Subject

: MECHANICS OF SOLIDS

Subject Code : 2130003

Semester : 3rd ME

Branch :MECHANICAL ENGINEERING

1 Introduction

Definition of space, time, particle, rigid body, deformable

body. Force, types of forces, Characteristics of a force,

System of forces, Composition and resolution of forces.

Fundamental Principles of mechanics: Principle of

transmissibility, Principle of superposition, Law of

gravitation, Law of parallelogram of forces..

2 Fundamentals of Statics

Coplanar concurrent and non-concurrent force

system:

Resultant, Equilibrant, Free body diagrams.

Coplanar concurrent forces: Resultant of coplanar

concurrent force system by analytical and graphical

method, Law of triangle of forces, Law of polygon of

forces, Equilibrium conditions for coplanar concurrent

forces, Lami’s theorem. Application of these principles.

Coplanar non-concurrent forces: Moments & couples,

Characteristics of moment and couple, Equivalent couples,

Force couple system, Varignon’s theorem, Resultant of

non-concurrent forces by analytical method and graphical

method, Equilibrium conditions of coplanar non-concurrent force system,

Application of these principles

3 Applications of fundamentals of statics

Statically determinate beams: ypes of loads, Types of supports, Types of beams;

Determination of support reactions, Relationship between

loading, shear force & bending moment,

4 Friction

Theory of friction, Types of friction, Static and kinetic

friction, Cone of friction, Angle of repose, Coefficient of

friction, Laws of friction, Application of theory of friction:

Friction on inclined plane, ladder friction, wedge friction,

belt and rope friction

5 Centroid and moment of inertia

Centroid: Centroid of lines, plane areas and volumes,

Examples related to centroid of composite geometry,

Pappus – Guldinus first and second theorems.

Moment of inertia of planar cross-sections: Derivation

of equation of moment of inertia of standard lamina using

first principle, Parallel & perpendicular axes theorems,

polar moment of inertia, radius of gyration of areas.

Examples related to moment of inertia of composite

geometry,

6 Simple stresses & strains

Basics of stress and strain: 3-D state of stress (Concept

only)

Normal/axial stresses: Tensile & compressive

Stresses :Shear and complementary shear

Strains: Linear, shear, lateral, thermal and volumetric.

Hooke’s law, Elastic Constants: Modulus of elasticity,

Poisson’s ratio, Modulus of rigidity and bulk modulus and

relations between them with derivation.

Application of normal stress & strains: Homogeneous and

composite bars having uniform & stepped sections

subjected to axial loads and thermal loads, analysis of

homogeneous prismatic bars under multidirectional

stresses.

7 Torsion: Derivation of equation of torsion, Assumptions,

application of theory of torsion equation to solid & hollow

circular shaft, torsional rigidity

SUBJECT COORDINATOR: Mrs Ripal B Modi HOD: Prof. M.K. SHAH

Ms Swati Saini

SILVER OAK COLLEGE OF ENGINEERING AND TECHNOLOGY Mechanical Engineering Department

B. E. SEMESTER: III

MID SEMESTER EXAMINATION SYLLABUS Subject Name: Manufacturing Processes-I

Subject Code: 2131903 Year: 2014

Mr. Raviraj Patel Mr. M. K. SHAH SUBJECT CO-ORDINATOR HEAD OF MECH. ENGG. DEPT.

Sr.No. GTU Topic No.

Topic name

1 1 Basic Machine Tools and Metal Cutting Principles:

Machine tools classification, working and auxiliary motions in machine tools, Primary

cutting motions in machines tools, Cutting tool geometry and tool signature, cutting

forces and power requirement in machining

2 2 Metal Cutting Lathes:

Engine Lathes, construction all arrangement and principal units of engine lathes, type

and size range of engine lathes, Operations carried on engine lathe , attachment

extending the processing capacities of engine lathes, Types of lathe machines, Capstan

and Turret lathes, Taper turning on lathe, Thread cutting on lathe using gear train and

chasing dial, Alignment tests of lathes

3 3 Drilling Machines:

Purpose and field of application of drilling machines, Types of drilling machines, Drilling

and allied operation: drilling, boring, reaming, tapping, counter sinking, counter boring,

spot facing; deep hole drilling, alignment tests of drilling machine

4 5 Milling Machines:

Purpose and types of milling machines, general purpose milling machines, different

types of milling operations, milling cutters, attachments extending the processing

capabilities of general purpose milling machines, Indexing, Helical milling operation

and its set up, Alignment tests of milling machine

5 6 Planers, Shapers and Slotters:

Classification of milling machine, Attachments extending the processing capacities of

milling machine, machine and tooling requirements

SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY MECHANICAL ENGINEERING DEPARTMENT Name of Subject : MATERIAL SCIENCE & METALLURGY


Semester : 3rd ME


MR. Pradeeptta Kumar Taraphdar Prof. M.K.Shah

Subject coordinator Head of the Department

1 Introduction to Material Science Metallurgy: Classification of Engineering Materials,

Engineering requirements of materials, , Criterion for selection of materials for

engineering applications through Structure-Properties-Performance correlationship;

Introduction to levels of internal structure like macro, micro, crystal and atomic and their

correlated properties; Methods/Tools to reveal the different levels of structure.

2 Crystal geometry and Crystal Imperfections: Unit Cell, Crystal structure, Bravise

lattice, atomic packing, coordination number, crystal structures of metallic elements,

crystal directions and planes, Miller indices, Polymorphism or Allotropy.

Crystal structure and correlated properties. diffusion processes;

Crystallization: Mechanism of crystallization – nucleation and growth, factors influencing

nucleation and growth

Imperfections in crystals and their effect on properties, Solute strengthening 3 Plastic Deformation: Deformation by slip, Mechanism of slip, Slip in different lattice

structures, Deformation by twinning, Strain hardening , Effect of strain hardening on

properties, Recovery, Recrystallization and Grain Growth and their effect on properties

of ductile metals.

4 Solidification of metals and an alloy, Nucleation and Growth during freezing of pure

metal and alloy ingot/a casting Resultant macrostructures; Effects of Structure on

Mechanical Properties, Methods to control the grain structure resulting from solidification,

Solidification defects like porosity and shrinkage and remedies .

5 Phase and Phase equilibrium: Unary and Binary equilibrium phase diagrams,

Gibb’s free energy for thermodynamic stability of phases, Gibb’s phase rule, solid

solutions and compounds, Hume-Rothery rules; cooling curves, lever rule,

Different reactions like eutectic, eutectoid, peritectic and peritectoid; Non-

equilibrium cooling;

6 Allotropy of Iron, Iron-Iron-Carbide equilibrium system-phases and their properties of

the Iron-Iron Carbide equilibrium diagram, different reactions of the Iron-Iron Carbide

equilibrium system, Alloy groups (Wrought Irons, Steels and Cast Irons) of Iron-Iron

Carbide equilibrium system and their characteristics in general, Equilibrium cooling of

eutectoid, hypoeutectoid and hypereutectoid steels, their resultant microstructures and

hence correlated properties and applications. . IS and ISO Codification, Different

specifications and designations of steels

7 Cast Iron: Iron-Iron Carbide and Iron-carbon diagrams, Transformations resulting into

White Cast Iron, Grey Cast Iron, Malleable Cast Iron, S. G. Iron, Alloy Cast Iron. Their

microstructures and correlated properties and applications. IS Codification.

8 Powder Metallurgy: Application and advantages, Production of powder, Compacting,

Sintering, Equipment and process capability

SILVER OAK COLLEGE OF ENGINEERING AND TECHNOLOGY

SEMESTER V

MID SEMESTER EXAM SYLLABUS

MANAGEMENT II

Module Topics

1 Introduction to Marketing Management

Marketing Function:

The four P’s in Marketing, Different concepts in marketing, Production, Product,

Selling, Marketing, Societal and holistic.

Marketing Demand:

Method of demand forecasting- survey of buyers’ intentions, sales force opinion

Method, expert opinion method, market test method, time series analysis,

statistical demand analysis (concepts only no examples).

Market Segmentation:

Meaning, Importance and different bases of market segmentation with reference

to consumer product and industrial product.

2 Introduction to Human Resource Management

Meaning and Importance

Manpower planning : concept and features and objectives

Manpower planning process

Recruitment : sources

Selection : process

Selection tests : types of tests

3 Introduction to Production Management

Meaning and characteristics of Production Management

Plant location and factors affecting location

Types of Plant layout

Break-even analysis (sums).

Himani Mittal Nayan Patel

Subject Coordinator HOD General Department

SILVER OAK COLLEGE OF ENGINEERING AND TECHNOLOGY

SEMESTER V (ME)

MID SEMESTER EXAM SYLLABUS

Subject: Disaster Assessment Using Geospatial Techniques (150606)

Module Topics

1 Basic concepts of remote sensing, Airborne and space borne

sensors, Data acquisition, Indian Space Program

3 Global Positioning System.

4 Geographical Information System: Concept of GIS, Functions

and advantages of GIS, Spatial data model, Attribute management and

metadata concept, Data sources, Linking spatial and attribute data,

Organizing data for analysis, Geospatial analysis.

5 Integration of GIS and Remote Sensing, Analysis and

Presentation. Disaster Assessment: Types of natural disasters-

landslides, earthquakes-tsunami cyclones- floods-snow avalanche, Case

studies for disaster assessment using Geospatial techniques, Use of

Remote Sensing & GIS software for disaster assessment.

Prof. Mrunalini H. Rana Prof. Sejal Desai

Subject Coordinator HOD, Civil Department


BE SEM – 5,MID SEMESTER EXAM SYLLABUS Name of Subject : Manufacturing Processes – II


No Course Content

1 Importance of manufacturing, economic and technological definition of Manufacturing, Classification of manufacturing processes, Selection of Manufacturing process

2 Foundry Technology: Patterns practices:

Types of patterns, allowances and material used for patterns, moulding materials, moulding sands, Moulding sands; properties and sand testing; grain fineness; moisture content, claycontent and permeability test, core materials and core making, core print; core boxes, chaplets, gating system design. Moulding practices: Green, dry and loam sand moulding, pit and floor moulding; shell moulding; permanent moulding; carbon dioxide moulding. Casting practices: Fundamental of metal casting, Sand casting, Shell-Mould casting, Mold casting (plaster and ceramic), Investment casting, Vacuum casting, Permanent mould casting, Slush casting, Pressure casting, Die casting, Centrifugal casting, Continuous casting, Squeeze casting, Casting alloys, Casting defects, Design of casting, Gating system design, and riser design. Melting furnaces-rotary, Pit electric, Tilting and cupola. Metallurgical considerations in casting elements of gating system, and risers and their design..

3 Forming and Shaping Processes: Metal working, Elastic and plastic deformation, Concept of strain hardening, Hot and cold working, Rolling, Principle and operations, Roll pass sequence, Forging, Forging operations, extrusion, Wire and tube drawing processes. Forging: Method of forging, Forging hammers and presses, Principle of forging tool design, Cold working processes- Shearing, Drawing, Squeezing, Blanking, Piercing, deep drawing, Coining and embossing, Metal working defects, cold heading, Riveting, Thread rolling bending and forming operation.

4 Plastic Technology: Introduction, Classification of Plastics, Ingredients of Moulding compounds, General Properties of Plastics, Plastic part manufacturing processes such as compression moulding,Transfer moulding, Injection moulding, Extrusion moulding, Blow moulding, Calendaring, Thermoforming,slush moulding, laminating

5 Super finishing processes: Introduction, Grinding, Lapping, Horning, Buffing, Barrel Tumbling, Burnishing, Powder coating,Polishing.

Sub. Co-ordinator Mr. Devendrasingh Thapa

SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY

SYLLABUS TO BE ASKED IN MID SEM EXAMINATION

Name of Subject: Theory Of Machines (151902)

Semester: 5th

semester

Branch: MECHANICAL ENGINEERING

Subject Coordinator: Asheesh Kumar Mr. Mit K Shah

HOD (MED)

Chapter

No Topic Name

1 Brakes and Dynamometers: Introduction, Brakes classification, Mechanical Brakes-Shoe brake, Band brake, Band and block brake, Internal expanding shoe brake, Braking of vehicle, Dynamometer, Absorption and transmission type.

2 Governors: Introduction, Function and types of governors, Centrifugal governors, Watt governor, Porter governor, Proell governor, Hartnell governor, characteristics of governor- stability, Sensitivity, isochronism, Hunting controlling forces and stability, Effort and power of governor, Inertia governor.

3 Gyroscope: Concept of gyroscope, Angular acceleration, Gyroscopic effects in ships, Airplanes, Stability of two wheeled vehicle, Stability of automobile negotiating a curve, Gyroscopic analysis of inclined rotating discs.

4 Flywheel: Function, construction, Flywheel’s rim and dimensions, Operation of flywheel in a punching machine, Turning moment diagram, Fluctuation of energy and fluctuation of speed of crank shaft, Coefficient of fluctuation of energy and speed.

5 Inertia forces in reciprocating parts: Introduction, D –Alberts’s Principle, Effect of number of forces on a rigid, Velocity and acceleration of the piston, Forces on the reciprocating parts of an engine considering friction and inertia of moving parts- piston effort, force acting along connecting rod, Thrust on sides of cylinder walls, Crank effort, Thrust on crank shaft, Dynamically equivalent systems


MID SEMESTER EXAMINATION SYLLABUS (2014)

Name of Subject : FLUID POWER ENGINEERING

Subject Code :151903

Semester : 5th

ME Branch :MECHANICAL ENGINEERING

Ch.No Course Content

1 Flow Through Pipes:

Darcy-Weisbach formula, Major energy losses, Minor energy losses, Hydraulic gradient and total

energy lines, Pipes in series and parallel, Equivalent pipes, Siphon, Power transmission through

pipe, Flow through nozzle at end of pipe, Water hammer in pipes

2 Impact of Jet :

Introduction, Force exerted on stationary plate held normal and inclined to jet, Force exerted on

curved plate, Force exerted on moving plate held normal and inclined in direction of moving jet,

Force exerted on curved plate when vane is moving in direction of jet, Jet striking on curved vane

tangentially at one tip and leaving at other end, Jet propulsion in ships.

3 Hydraulic Turbines:

General Lay out and essential components of hydro power plant, Classification of turbines, Impulse

and reaction, Radial and axial, Tangential and mixed flow turbines, major components of different

turbines, Expressions for work done and efficiency of Pelton wheel, Design aspects of Pelton

wheel, Reaction Turbine, Francis turbine, Kaplan turbine and propeller turbines, Expressions for

work done and efficiency, Draft tube-theory and types, model relationship scale effect, Specific

speed, Range of specific speed for different turbines, performance curves of turbine, Selection of

turbines according to available head, Discharge and load, governing of turbines.

KH

4 Compressors:

Reciprocating compressors: Construction and working, Multistage conditions for minimum work, Intercooling, Heat rejected in

compressors and intercoolers, Efficiency and control of air compressors, Reciprocating air motors,

Testing of compressors

Rotary Compressors:

Introduction, Classification, roots blower, Vane type, Screw compressor, Scroll compressor, centrifugal and axial flow compressors.

5 Miscellaneous Machines:

Construction and working of hydraulic press, Hydraulic accumulator, Hydraulic intensifier,

Hydraulic crane, Hydraulic jack, hydraulic lift, Hydraulic ram, Fluid couplings, Fluid torque

converter and air lift pump.

RS

Mr. Rohit Kumar Sahu Sub. Coordinator

Mr. MIT Shah Head,Mech.Deptt


Name of Subject : POWER PLANT ENGINEERING


Semester : 5th


MID-SEM SYLLBUS

Ch No Course Content

1 Thermal Power Plant:

General layout of modern thermal power plant, Site selection, Presents status of power generation in India.

2 High Pressure Boilers & Accessories: Unique features and advantages of high pressure boilers, LaMont, Benson, Loeffler, Schmidt-Hartmann, Velox, supercritical, Supercharged and fluidized bed combustion boiler. Different types of super-heaters, Re-heaters, economizers, Air pre-heaters, Methods of superheat control, Corrosion in boilers and its prevention.

3 Coal & Ash Handling Systems:

Coal handling storage of coal, Burning systems, Types of stokers their working, Pulverized fuel handling systems, Unit and central systems, Pulverized mills- ball mill, Bowl mill, Ball &race mill, Impact or hammer mill, Pulverized coal burners, Oil burners. Necessity of ash disposal, Mechanical, Hydraulic, pneumatic and steam jet ash handling system, Dust collection and its disposal, Mechanical dust collector, Electrostatic precipitator.

4 Draught System: Natural draught- estimation of height of chimney, Maximum discharge, Condition, Forced, Induced and balanced draught, Power requirement by fans.

5 Diesel Power Plant:

Essential components of diesel power plant, Different systems like fuel supply system, Engine cooling system, Engine lubrication system, Exhaust system, Engine starting and stopping system.

6 Nuclear Power Plant : Nuclear fusion and fission, Chain reaction, Nuclear fuels, Components of nuclear reactor, Classification of reactors, Pressurized water reactor, Boiling water reactor, Gas cooled reactor, CANDU reactor, Fast breeder reactor, Nuclear waste and its disposal, Nuclear power plants in India.

7 Economics of Power Generation: Load curves, Load duration curves, Connected load, Maximum load, Peak load, base load and peak load power plants, Load factor, Plant capacity factor, Plant use factor, Demand factor, Diversity factor, Cost of power plant, Performance and operating characteristics of power plant, Tariff for electric energy.

Mr. Alpesh Patel Sub. Coordinator

Prof. Mit K. Shah (H.O.D.)Mechanical


Name of Subject : Machine Design – I Subject Code : 151905

Semester : 5th

Branch :Mechanical Engineering

MID-SEM SYLLABUS

Ch. No.

Course Content

1

Design Considerations: Manufacturing and assembly considerations, Design of components for casting, Welding, Forging, hot and cold working, machining, Welding etc. Thermal considerations, Wear Considerations in design, Contact Stresses, Standardization and preferred numbers. Fatigue Loading: Design for fluctuating stresses, Endurance limit, Estimation of Endurance strength, Goodman’s Line, Soderberg’s line, Modified Goodman’s line. Design for creep.

2

Design of Springs: Classification, Spring materials and its selection, Wahls' factor and its use in design of spring, Cylindrical helical spring with axial loading, Buckling of compression spring, Design of compression spring, design of leaf spring, Design of disc springs, Concentric spring, Design of spring for static and dynamic loading.

3

Power Transmissions Elements : Transmission of power by Belt and Rope drives, Transmission efficiencies, Design of Belts Flat and V types, Design of Ropes, pulleys for belt and rope drives, Materials, Design of Chain drives and wire rope.

4

Design of sliding and Journal bearing: Method of lubrication, Hydrodynamic, Hydrostatic, boundary, etc., Minimum film thickness and thermal equilibrium, Selection of anti-friction bearings for different loads and load cycles, Design of thrust bearing, Rolling contact bearing, Ball bearing, Rolling contact bearing under variable loading, Mounting of the bearings, Method of lubrication, Selection of oil seals.

Mr. Pankaj A. Sharma Subject Coordinator


Name of Subject : CONVENTIONAL POWER ENGINEERING


Semester : 5th ME


MID-SEM SYLLBUS

Sr. No.

GTU TOPIC

NO.

Course Content

1 1 Thermal Power Plant Simple Rankine cycle, General layout of modern thermal power plant, Site selection, Present status of power generation in India.

2 2 Steam Turbine Principle of operation, Classification, Compounding of steam turbines, Impulse turbine- velocity diagram, Condition for maximum efficiency, Reaction turbine- velocity diagram, Degree of reaction, Parson turbine, Condition for maximum efficiency, Governing of steam turbines.

3 3 Gas turbine Classification, Open and closed cycle, Actual Brayton cycle, Methods of improving efficiency and specific output – open cycle with regeneration, Reheating and inter cooling, Combined steam and gas turbine plant.

4 4 Diesel Power plant Outline of diesel power plant, Systems of diesel power plant like air intake system, Fuel system, Cooling system.

5 5 Hydro-Electric Power plant Elements of hydro electric power plant, Classification of hydraulic turbines, Construction and working of Pelton wheel, Francis and Kaplan turbine, Draft tube, Cavitation, Governing of hydraulic turbines, Hydraulic electric power plants in India

6 6 Nuclear Power Plant Nuclear fusion and fission, Chain reaction, Nuclear fuels, Components of nuclear reactor, Classification of reactors, Pressurized water reactor, Boiling water reactor, Gas cooled reactor, CANDU reactor, Fast breeder reactor, Nuclear waste and its disposal, Nuclear power plants in India.

Subject coordinator Mit. K. Shah

(H.O.D) MEchaNICAL


BE SEMESTER-VII Syllabus for Mid Semester Examination

Semester

Name of Subject : 7

th Semester

: AUTOMOBILE ENGINEERING


Ch No

Course Content

1 Introduction to Automobile & Automobile Performance: Development of automobile, classification of automobiles, main parts of automobiles, vehicle assemblies, specifying an automobile, resistance to the motion of the vehicle, power required for propulsion of the vehicle, power required for acceleration, effect of different drives like front wheel/rearwheel/for wheel drive, stability of a vehicle on a slope, dynamics of a vehicle running on banked track, stability of a vehicle taking a turn.

2 Chassis, Frame & Body: Types of frames, engine location, Comparison of front and rear mounting of engine, arrangement of clutch assembly, gearbox, propeller shaft with universal joints. front and rear differentials, rear, front and four wheel drives, their relative merits, types of chassis, pre requirements of body, types of bodies & their construction, aerodynamic considerations in body profiling, ergonomical considerations, defects in frames and body.

3 Transmission System: Clutch: Necessity of a clutch, requirements of a good clutch, constructional features and working of different types of clutch (like single plate/multi plate/cone/semi centrifugal/ fully centrifugal/wet etc.) used in automobiles, calculation of surface area and number of driving and driven plates, nature of wear and tear each components, effect of misalignment and mis- adjustment of components, fluid coupling, trouble shooting in clutch systems

4 Gear Box: Functions of gearbox, need of gear box, gears & gear ratios, principle of gearing, types of gear boxes, manual gearboxes, sliding mesh/ constant mesh / synchro mesh type gear box, transfer case of 4 wheel drive vehicle

5 Automatic Transmission: Basic devices used in automatic transmission, principle of epicyclic gearing, torque converter, free wheel clutch, over speed drive and its working, semi/fully automatic transmission, continuously variable transmission(CVT).

6 Propeller Shaft: Propeller shafts and their types, fluid drive and fluid flywheel, universal joints, hotchkiss drive, torque tube drive, whirling of propeller shaft.

7 Differential: Principle of the differential, locking differential, limited slip differential

8 Final Drive and Rear Axle: Final drives and its types, hypoid type final drive, rear axle, rear axle drives, rear axle shaft supporting, rear axle casing, axle breather, oil retention

9 Front Axle: Types, construction, components and their functions

10 Suspension System: Principle, type of suspension system, conventional and independent front and rear axle, spring, rubber and air suspensions, automatic/hydro suspension system, shock absorbers

12 Brakes: Principle, braking distance, braking efficiency ,weight transfer, wheel skidding, principle and working of various types of brakes (drum/disc/mechanical/girling mechanical/hydraulic etc.), power assisted brakes, hand brake, anti-lock brake systems (ABS), diagnosis of faults , adjustment and maintenance of brakes.

16 Regulation and Standardization of Vehicles: Motor vehicle act, registration of motor vehicles, driving license, control of traffic, insurance against third party, vehicle safety standards and regulations, classification and definition of vehicles, enforcement of emission norms, duties of surveyor.

17 Modern Vehicles: Construction and operational features of four wheelers available in Indian market, introduction to electric vehicles & hybrid vehicles

Faizuddin Malek Mit K. Shah

Subject Coordinator H.O.D. Mechanical

SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY GENERAL DEPARTMENT

MID SEM. SYLLABUS Name of Subject : Contributor Personality Development


Semester

: 7

Sr. No.

Units/Topics

1 Topic 1: Who is a Contributor - Student develops an appreciation of who the Contributors are and how they fundamentally differ from Non-contributors in their overall approach to work, to other human beings, to society as a whole.

2 Topic 2: The Contributor’s identity - Student develops his/ her own answer to the question “who am I?” The student becomes aware of the fact that Non-contributors usually define themselves in terms of what they have acquired in life (e.g. qualifications, position, years of experience, etc.) while Contributors define themselves in terms of what they will become or accomplish (e.g. capacity to deliver, commitment and ownership of the organization’s purpose, etc.)

3 Topic 3: The Contributor’s vision of success –

The student explores the meaning of success in his life. Through this exploration, the student is

expected to recognize that Contributors have a wider definition of success than Non-

contributors. While Non-contributors define success in terms of material success, achievement,

external impact, etc., Contributors are able to widen this definition of success to include

personal fulfillment, development of self-esteem, ongoing development of personal capabilities

etc.

4 Topic 4: The Contributor’s vision of career –

The student learns to distinguish between an “acquisitive career” and a “contributive career”.

An acquisitive career is one in which the career-seeker is focused on acquiring higher position,

higher salary, more benefits etc. This preoccupation with selfish interests often damages the

individual’s career, as well as, damages the organization and society. A contributive career is

one where the career-seeker is focused on contributing, with rewards being a by-product of the

contributions made.

5 Topic 5: The scope of contribution –

The student learns to perceive that in all type of work, every type of role, there is a possibility

of contributing at multiple levels – contributing to self, contributing to organization, and

contributing to society.

The student also appreciates the difference between “acquisition for self” and “contribution to

self” – the former being material acquisition and the latter being conscious development of

oneself through the medium of one’s career.

6 Topic 6: Embarking on the journey to contributor ship –

The student recognizes the fundamental “building blocks” for becoming a Contributor – the first building block being a shift from a “victim” to being a “creator of one’s destiny”; the second building block being acceptance of the ideal of contributor ship; the third building block being the willingness to take full responsibility for one’s own development; the fourth building block being the capacity to reflect on one’s development and make appropriate modifications.

7 Topic 7: Design Solutions – When faced with a challenge, the Contributor’s first response is: “Can we find a solution?”

This is unlike a Non-contributor who may respond to the challenge by trying a little and giving

up, blaming others, or finding excuses to cover up the issue.

Whereas, the Contributor finds a solution. In other words, the Contributor develops the

capacity to find solutions through continuous practice and learning from other Contributors.

In this topic, students learn the importance of willingness and ability to find solutions.

8 Topic 8: Focus on value – What does creating value mean? It means making a positive difference, a tangible impact, a

specific contribution to any situation. This positive difference or impact can be in the form of

achieving a specific goal, creating a product, creating „human touch‟ in a particular

interaction, or enhancing one’s own capacity, or the capacity of one’s colleagues and team-

mates.

Contributors are therefore extremely result-focused, but the result is measured in terms of

value created.

In this topic, students learn to clarify the meaning of the word “value” and how value is created in various situations.

SILVER OAK COLLEGE OF ENGINEERING

& TECHNOLOGY MECHENICAL ENGINEERING

B. E. SEMESTER: VII

Subject Name: Energy Conservation and Management

(Department Elective - I) Subject Code: 171907 MID-SEMESTER SYLLABUS

Sr. No

Course Content

1. Energy Scenario : Commercial and Non-commercial energy, primary energy resources, commercial

energy production, final energy consumption, Indian energy scenario,

1.1 Sectoral energy consumption (domestic, industrial and other sectors),

energy needs of growing economy, energy intensity, long term energy scenario,

energy pricing,

1.2 Energy security, energy conservation and its importance, energy

strategy for the future, Energy Conservation Act 2001 and its features.

2. Basics of Energy its various forms and conservation : Electricity basics – Direct Current and Alternative Currents, electricity tariff, Thermal

Basics-fuels, thermal energy contents of fuel, temperature and pressure, heat capacity,

sensible and latent heat, evaporation, condensation, steam, moist air and humidity and

heat transfer.

2.1 Evaluation of thermal performance – calculation of heat loss – heat

gain, estimation of annual heating & cooling loads, factors that influence thermal

performance, analysis of existing buildings setting up an energy management

programme and use management – electricity saving techniques

3. Energy Management & Audit: Definition, energy audit, need, types of energy audit. Energy management

(audit) approach-understanding energy costs,

3.1 Bench marking, energy performance, matching energy use to

requirement, maximizing system efficiencies, optimizing the input energy

requirements, fuel and energy substitution, energy audit instruments and metering

4. Financial Management : Investment-need, appraisal and criteria, financial analysis techniques- simple payback period, return on investment, net present value, internal rate of return, cash flows, risk and sensitivity analysis; financing options, energy performance contracts and role of Energy Service Companies (ESCOs)

5. Energy Monitoring and Targeting: Defining monitoring & targeting, elements of monitoring & targeting, data and information-analysis, techniques – energy consumption, production, cumulative sum of differences (CUSUM). Energy Management Information Systems (EMIS)

Silver Oak College of Engg. & Tech. MECHENICAL ENGINEERING

B. E. SEMESTER: VII

MidSemester Syllabus

Subject Name: Operation Research Subject Code: 171901

Sr. No

Course Content

1. BASICS OF OPERATION RESEARCH: Definition, characteristics, phases, scope and limitations of OR.

2. LINEAR PROGRAMMING: Formulation, graphical method, Simplex method, Degeneracy, Big-M

method, Two phase method, duality, sensitivity analysis.

3. TRANSPORTATION MODEL: North-West Corner rule, Least-cost method, Vogel’s approximation

method, Degeneracy in transportation problem, stepping stone method,

modified distribution method, unbalanced supply and demand, profit

maximization problem, prohibited transportation routes, transshipment

problems.

4. ASSIGNMENT MODEL: Hungarian method for solution, non square matrix, restriction on

assignments, Maximization problem, travelling salesman problem.

5. GAMES THEORY : Terms used in game theory, Two person zero sum games, pure strategy,

matrix reduction by dominance, mixed strategies(2 x 2 , 2 x n , m x 2 , 3 x

3 games), algebric, arithmetic and graphical method.

6. REPLACEMENT MODELS : Replacement of items whose maintenance and repair costs increase with

time- ignoring changes in the value of money during the period and

considering value of money changes with time, replacement of items that

fail suddenly, group replacement policy, mortality and staffing problems. 7 NETWORK ANALYSIS:

Terms used in network analysis, Network or arrow diagram, Fulkerson’s rule, Programme evaluation and review technique (PERT), Critical path method (CPM), Crashing of network.

8 SIMULATION: Introduction, Monte Carlo Simulation, Generation of random numbers

Subject Co-ordinator: H.O.D Mr. UMANG N VORA Mr. M.K.SHAH

Silver Oak College of Engg. & Tech.

MECHANICAL ENGINEERING

B. E. SEMESTER: VII

MidSemester Syllabus

Subject Name: Product Design and Value Engineering

Subject Code: 171904

Sr. Course Content

No

1. Product Design Introduction:

Characteristicsofsuccessful product development,Designand

development of products, duration and cost of product development, the

challenges of product development

2. Development Processes and Organizations:

A generic development process, concept development: the front-end

process, adopting the generic product development process, the AMF

development process, product development organizations, the AMF

organization.

3. Product Planning:

The product planning process, identify opportunities, Evaluate and

prioritize projects, allocate resources and plan timing, complete pre-

project planning, reflect all the results and the process.

4. Identifying Customer Needs:

Gather raw data from customers, interpret raw data in terms of customer

needs, organize the needs into a hierarchy, establish the relative

importance of the needs and reflect on the results and the process.

5. Design for stiffness and rigidity, design for production, designing with

plastics, rubber, ceramics, glass and wood

6. Value Engineering Introduction:

Definition, value engineering recommendations, programmes, advantages,

Evaluation of function, determining function, classifying function, evaluation

of costs, evaluation of worth, determining worth, evaluation of value.

7. Value Engineering Job Plan:

Introduction, orientation, information phase, Function phase, creation

phase, evaluation phase, Investigationphase, implementation phase,

speculation phase, analysis phase.

8. Selection of Evaluation of Value Engineering Projects:

Project selection, Methods selection, value standards, application of Value

Engineering methodology.

9. Fast Diagramming:

Cost models, life cycle costs.

Subject Co-ordinator: PARTH S. PATEL Assistant Professor.


Name of Subject : COMPUTER INTEGRATED MANUFACTURING


Semester : 7th


Midsem Syllabus

Ch No

Course Content

1 Introduction to CIM Concepts & scope of CIM, Nature & type of manufacturing system, Evolution, Benefits of CIM,

2 Numerical Controls, types, evolution of controllers, components of NC/CNC system, specification of CNC system. Classification of NC /CNC machines, transducers used, salient features, Tape, Tape codes and tape readers used in NC machines, constructional details of CNC machines, axis designation, NC/CNC tooling. Fundamentals of manual part programming, types of format, word address format manual part Programming for drilling, lathe and milling machine operations, subroutines, do loops, canned Cycles, parametric sub routines. Programmable Logic Controllers (PLCs) Automated Programmed Tools language- its types of statement, command and programming.

3 GROUP TECHNOLOGY: Introduction, part families, part classification and coding, machining cells, benefits of group technology.

4 FMS: Introduction & Component of FMS, Needs of FMS, general FMS consideration, Objectives, Types of FMS, advantages of FMS, Automated material movement & AS/RS AGVS , RGV Manufacturing Cells, Cellular & Flexible manufacturing, JIT & GT applied to FMS, FMC & FMS, Tool Management, Tool supply system, Tool Monitoring System, Work piece Handling, Flexible Fixturing, Flexible Assembly Systems, Flexibility. FMS scheduling, sequencing, FMS lay out and essentials

5 CIM ADVANCES: Role of management in CIM, Expert system & participate management, Impact of CIM on personnel, Role of manufacturing engineers, CIM Wheel.

Ms. Kajal Hardasani Sub. Coordinator

Documents

SILVER OAK COLLEGE OF ENGINEERING AND · PDF fileSILVER OAK COLLEGE OF ENGINEERING AND TECHNOLOGY Mechanical Engineering Department ... SYLLABUS Subject ... Code: 2131906 Year 2014