syllabus for the academic year 2020 - 2021 sem 2020-21.pdfcompressor stage, velocity diagram,...
TRANSCRIPT
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Syllabus for the Academic Year – 2020 - 2021
Department: Mechanical Engineering Semester: V
Subject Name: DESIGN OF MACHINE ELEMENTS-I
Subject Code: 18ME501 L-T-P-C: 3-1-0-4
Course Objectives:
Unit Description Hours
I Introduction: Materials and their properties, design considerations,
manufacturing considerations, codes and standards, limits, fits and
tolerances for manufacture, stress-strain diagrams, mechanical behavior of
metals, Stress analysis under bi-axial and tri-axial stress state with combined
shear, Principal stresses and related problems, analysis of beams with
straight and curved cross section.
10
Sl.No Course Objectives
1 To understand & explain the terminology associated with design of machine elements
under static & dynamic loading conditions with different support conditions.
2 To understand the concept of uniaxial, biaxial and triaxial state of stress in a loaded
machine component and apply them for practical situations.
3 To acquire a knowledge of basic concepts of failure theories and use those for
designing components subjected to static, impact and fatigue loads.
4 To understand & apply the basic design concepts for designing machine components
used for mechanical power transmission and mechanical fastening elements.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Design for static strength: Static loads and factor of safety, theories of
failure, maximum normal stress theory, Maximum shear stress theory,
distortion energy theory, failure of brittle materials, failure of ductile materials,
Stress concentration, determination of stress concentration factor, combined
stress concentration factor.
II Design for fatigue strength: Introduction, S-N Diagram, low cycle fatigue,
high cycle fatigue, and endurance limit. Modifying factors, size effect, surface
effect, stress concentration effect, fluctuating stresses, fatigue strength under
fluctuating stresses, Goodman and Soderberg relationship for design, stress
due to combined loading, cumulative fatigue damage, problems.
Impact loading: Derivation of Instantaneous stress due to axial, bending and
torsion loading, effect of Inertia, problems.
11
III Design of Transmission Shafts: Simple torsion equation, design for
strength and rigidity under steady loading, ASME & BIS codes for design of
transmission shafting, Shafts under fluctuating loads & combined loads,
Design of rigid flanged coupling & bushed pin type flexible coupling, design
of keys.
10
IV Power screws: Mechanics of power screws, stresses in power screws,
efficiency and self-locking.
Cotter and Knuckle joints: Cotter and Knuckle joints.
10
V Fasteners: Bolted joints: Key types, stresses in keys, pins and retainers,
Threaded fasteners and their terminology, stresses and effect of initial
tension, effect of compression, effect of fatigue loading, impact loading, shear
loading, eccentric loading and problems related to the above.
Riveted joints: Types rivet materials, Failures of riveted joints, Boiler joints,
Tank and Structural joints,
Welded joints: Welded joints- types, Strength of butt and fillet welds,
eccentrically loaded welds.
11
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
Text Books:
Sl
No
Text Book title Author Volume and Year of Edition
1 Machine Design V.B. Bhandary, TATA Mcgraw Hill Publication
Reference Books:
Sl
No
Text Book title Author Volume and Year of Edition
1 Machine Design Sharma &
Agarwal,
SK Kataria & Sons Publications,
New Delhi.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Course Outcomes:
Course
outcome
Descriptions
CO1 Define and explain the terminology associated with material properties and
material behavior under the action of static, impact and fatigue loads.[BL1]
CO2
Understand and explain the essential principles of uniaxial, biaxial and tri-axial
state of stresses in a loaded machine component and find the resultant
stresses.[BL2]
CO3 Apply the concepts of failure theories and carry out analysis of a given machine
component for sustaining static, impact and fatigue loads[BL3,BL4]
CO4 Design machine components like transmission-shafts, axles, power-screws,
couplings, fastenings like riveted, welded and bolted joints etc.[BL5, BL6]
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: TURBOMACHINES
Subject Code: 18MEI502 L-T-P-C: 3-0-2-4
Course Objectives:
Unit Description Hours
I INTRODUCTION TO TURBOMACHINES :Definition of a Turbomachine;
parts of a Turbomachine; Comparison with positive displacement machine;
Classification; Application of First and Second Laws to Turbomachines;
Efficiency of Turbomachines, Dimensional Analysis; Fundamental and
derived quantities, Dimensional homogeneity, Geometric, Kinematic and
Dynamic variables, Buckingham’s π-theorem, physical significance of
dimensionless parameters, Effect of Reynolds number; Specific quantities;
expression for specific speed of a pump and turbine, significance of specific
speed, Model studies; Geometric, Kinematic and Dynamic similarity, Moody’s
formula, Illustrative examples on dimensional analysis and model studies.
07
Sl.No Course Objectives
1 Understand and remember the Classifications of turbomachines and positive
displacement machines.
2 Demonstrate the significance of dimensionless parameters and to perform
dimensional analysis and model studies.
3 Evaluate Euler turbine equation for turbomachines and analyse the degree of
reaction and utilization factor.
4
Draw velocity diagram and characteristic curves for turbomachine under various
conditions and perform analysis of turbomachine.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
II GENERAL ANALYSIS OF POWER GENERATING TURBOMACHINES:
Euler’s Turbine Equation, Velocity Diagrams, Alternate form of Euler turbine
equation - components of energy transfer; Degree of reaction; Utilization
factor; Relation between utilization factor and degree of reaction; Condition
for maximum utilization factor, Axial flow turbines: Velocity diagram for
turbines with R = 0, R = 0.5 and R = 1, Variation of utilization factor with speed
ratio, Variation of maximum utilization factor with nozzle angle, optimum blade
speed ratio for different types of turbines, Comparison between Impulse
turbine and 50% reaction turbine, Radial flow turbines: effect of blade
discharge angle on energy transfer and degree of reaction, Velocity diagram
for different runner shapes, numerical problems
08
III STEAM AND HYDRAULIC TURBINES: Steam turbines: Classification,
Compounding - Need for compounding, methods of compounding, Effect of
blades and nozzle losses, Impulse staging; Condition for maximum blade
efficiency of single stage and multi stage turbine with equiangular blades;
effect of blades and nozzle losses, Reaction staging; Degree of reaction,
Parson’s turbine, Condition for maximum blade efficiency, Numerical
problems. Hydraulic turbines: Classification; Zero-angle turbine, Pelton
Turbine-velocity triangles, Design parameters, turbine efficiency, volumetric
efficiency; Francis turbine – velocity triangles, runner shapes for different
blade speeds, Design of Francis turbine; Function of a Draft tube, types of
draft tubes; Kaplan and Propeller turbines – Velocity triangles and design
parameters, Numerical problems.
08
IV GENERAL ANALYSIS OF POWER ABSORBING TURBOMACHINES:
Sonic velocity and Mach number; Classification of fluid flow based on Mach
number; Stagnation and static properties and their relations. Compression
process: Overall isentropic efficiency of compression; Polytropic efficiency;
Preheat factor, Stage efficiency for single and multi-stage compressor;
Numerical problems. Euler’s Turbine Equation, Velocity Diagrams, Alternate
form of Euler turbine equation - components of energy transfer; Degree of
reaction; Axial flow compressors: Pressure and velocity variation through
compressor stage, Velocity diagram, Specific work and Degree of reaction for
compressor stage, Expression for stage efficiency and Pressure ratio
developed per stage, work done factor, radial equilibrium conditions, free
vertex flow, constant reaction design, numerical problems
08
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
V CENTRIFUGAL COMPRESSORS AND PUMPS: Centrifugal compressors:
Parts of centrifugal compressor, Pressure and velocity variation through
compressor stage, Velocity diagram for different vane shapes, Influence of
impeller vane shapes, Slip and slip factor, Power input factor and pressure
coefficient, Expression for work done and overall pressure ratio developed,
Compressibility effect - need for pre-whirl vanes; Diffuser types, Surging and
choking of centrifugal compressors, Numerical problems. Centrifugal pumps:
Definition of terms used in the design of centrifugal pumps like manometric
head, suction head, delivery head, pressure rise, manometric efficiency,
hydraulic efficiency, volumetric efficiency, overall efficiency, Theoretical head
– capacity relationship; Effect of blade discharge angle on performance;
multistage centrifugal pumps, minimum starting speed, slip, priming,
cavitation, NPSH, Numerical problems
08
FLUID MACHINES LAB COMPONENT
1. Demonstration of different runners and impellers
2. Demonstration of hydraulic turbomachines.
3. Performance test on hydraulic turbomachines.
4. Analysis of characteristic curves of hydraulic turbomachine.
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Text Books:
Sl
No
Text Book title Author Volume and Year of
Edition
1 An Introduction to energy
conversion, Volume III –
Turbomachinery
V. Kadambi and Manohar
Prasad,
New Age International
Publishers (P) Ltd.
2 Turbo Machines Shankar Nag G L &
Keerthi Kumar N
Cengage Publications
Reference Books:
Sl
No
Text Book title Author Volume and Year of
Edition
1 Principles of Turbo Machinery D. G. Shepherd The Macmillan
Company (1964)
2 Fundamentals of Turbomachinery William W Perg John Wiley& Sons,
Inc. 2008.
3 A text book of Fluid mechanics
and hydraulic Machine
R K Bansal Laxmi Publications
4 Turbo Machine Dr. N.
Krishnamurthy
Sunstar Publisher.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Course Outcomes:
Course
outcome
Descriptions
CO1 Define and explain the terminology associated with dimensional analysis, model
studies and turbomachinery. [BL1]
CO2 Understand and explain the essential principles of Bunkingham’s - Theorem,
similitudes and also thermodynamic principles of turbomachines. [BL2]
CO3 Apply the concepts related to dimensional analysis, model studies,
turbomachinery and determine the solutions required. [BL3]
CO4 Analyze the velocity diagrams and characteristic curves of various
turbomachines and predict their performance parameters. [BL4]
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: APPLIED THERMODYNAMICS
Subject Code: 18ME503 L-T-P-C: 3-1-0-4
Course Objectives:
Unit Description Hours
I Gas Power Cycles: Basic considerations in the analysis of Power cycles, the
Carnot cycle and its value in engineering, Air standard cycle's assumptions,
Otto cycle, Diesel cycle, Dual cycle (Derivation of MEP, air standard efficiency
and numerical problems), Comparison of Otto, Diesel and Dual cycles.
Gas Turbines and Jet Propulsion: Brayton cycle, derivation of actual gas
turbine cycle from Ideal cycles, Methods to improve the thermal efficiency,
Numerical problems, Jet propulsion and Rocket Propulsion.
12
Sl.No Course Objectives
1 To understand and apply concepts of thermodynamics to various energy conversion
processes and systems.
2 To study combustion thermodynamics and the various working aspects of internal
combustion engines.
3
To study the various aspects of energy conversion in the gas and vapor power cycles,
reciprocating compressors, gas turbines, jet propulsion systems and refrigeration
systems.
4 To study various psychrometric processes and understand the working of air
conditioning systems.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
II Vapour Power cycles: Carnot Vapour power cycle, Rankine cycle, Deviation
of actual Vapour cycle from Ideal cycle, methods to improve the efficiency of
Rankine cycle, numerical problems.
Reciprocating Compressors: Working of single stage Reciprocating
Compressors with P-V diagrams, multistage compression, Effect of
Intercooling, Numerical problems.
10
III Refrigeration: Revised Carnot cycle, Air refrigeration system, Vapour
compression refrigeration system (Ideal and Actual), selecting the right
refrigerant, Vapour absorption refrigeration system, numerical problems.
10
IV Psychometrics: Atmospheric air and Psychometric properties: DBT, WBT,
DPT, partial pressures, Specific and Relative Humidity, Saturation Ratio,
Mixing of air streams, Psychometric chart, analysis of various processes,
summer and winter air conditioning, numerical problems.
10
V Combustion Thermodynamics: Fuels & combustion, theoretical & actual
combustion process, enthalpy of formation, enthalpy of combustion, adiabatic
flame temperature, numerical problems.
IC engines: Performance analysis of SI and CI engines, Heat balance sheet,
Morse test, numerical problems.
10
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Text Books:
Sl
No
Text Book title Author Volume and Year
of Edition
1 Basic and Applied thermodynamics P.K. Nag Tata Mc Graw Hill
Publications.
2 Applied Thermodynamics Kestoor Praveen, 1st Edition, Suggi
Publications,
Bangalore.
Reference Books:
Sl
No
Text Book title Author Volume and Year
of Edition
1 Thermodynamics an engineering
approach
Yunus A Cengel
and Michael A
Boles-
Tata Mc graw hill
Publications.
2 Thermal Engineering R.K. Rajput, Laxmi Publications,
2007
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Course Outcomes:
Course
outcome
Descriptions
CO1 Identify and Describe the characteristics of standard Thermodynamic Air Cycles
and their analysis [L1, L2]
CO2 Understand the essential principles of psychrometry and analyze A/C systems [L2]
CO3 Understand and analyze the working concepts of IC Engines, performance and
emissions. [L2]
CO4 Analysis of Rankine Cycle and Refrigeration cycles with various configurations to
adopt in the design of power plants [L3, L4]
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: DYNAMICS OF MACHINES
Subject Code: 18ME504 L-T-P-C: 3-0-0-3
Course Objectives:
Unit Description Hours
I Dynamic force analysis: D'Alembert's principle, inertia force, inertia torque,
turning moment diagrams of flywheel, fluctuations of energy, determination of
size of flywheels, analysis of forces on slider crank mechanism
08
II Friction and belt drives: Types of friction, laws of friction, V- belt drives, Ratio
of belt tensions, centrifugal tension, and power transmitted.
08
III Balancing of rotating masses: static and dynamic balancing, balancing of
single rotating mass, balancing of masses in same plane and in different
planes. Balancing of several rotating masses.
Balancing of reciprocating masses; inertia effect of crank and connecting
rod, single cylinder engine, balancing of multi cylinder-inline, primary and
secondary forces v-type engine, radial engine, direct and reverse crank
method.
08
Sl.No Course Objectives
1 To understand the force – motion relationship in components subjected to external
forces while designing mechanisms for machines & flywheels.
2 To study the undesirable effects of unbalance resulting from prescribed motions in
mechanism and machines.
3 To understand the principles of governors for controlling speed under variable load
condition and the gyroscopic effect on airplane, ships, two wheeler and four wheel
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
IV Centrifugal governors: types of governors, force analysis on porter governor,
force analysis on Hartnell governor, controlling force, stability, sensitiveness,
isochronisms.
08
V Gyroscope: Vectorial representation of angular motion, basic definitions,
gyroscopic couple, Effect of gyroscopic couple on plane disc. Gyroscopic
effect on aero plane, naval vessel, Stability of two wheelers and four wheelers.
08
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
Text Books:
Sl
No
Text Book title Author Volume and Year of Edition
1 Theory of machines Sadhu Singh Pearson edition 2007
2 Mechanism and Machine Theory G.Ambekar PHI ,2009
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Reference Books:
Sl
No
Text Book title Author Volume and Year of Edition
1 Theory of machines Rattan S.S Tata Mc-graw hill edition 2006.
2 Theory of Machines R S Khurmi Gupta , S Chand and
Company, New Delhi
3 Mechanisms and
Machines Kinematics
Michael M Stanisic Dynamics and synthesis
Course Outcomes:
Course
outcome
Descriptions
CO1 Understand and explain dynamic force analyses of planar mechanisms &
flywheels.
CO2 Apply the elementary concept of governors for solving simple engineering
problems
CO3 Analyze the balancing of rotating and reciprocating masses, Gyroscopic effects on
disks, airplanes, stability of ships, two and four wheelers.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: CAD/CAM & CIM
Subject Code: 18ME5PE51 L-T-P-C: 3-0-0-3
Course Objectives:
Unit Description Hours
I INTRODUCTION TO CAD/CAM & CIM: CAD/CAM & CIM Definition, Product
Cycle and CAD/CAM, Automation and CAD/CAM, CIM systems: Introduction,
Automation, definition, types, of automation, CIM, Processing in
manufacturing, production concepts, Mathematical models, manufacturing
lead time, production rate, components of operation time, capacity, utilization
and availability, work in process, WIP ratio, Problems using mathematical
model equations.
8
II MINIMUM RATIONAL WORK ELEMENT: Work station process time, Cycle
time, precedence constraints. Precedence diagram, Balance delay methods
of line balancing-largest Candidate rule, Westers method, Ranked positional
weight method, Numerical problems covering above methods.
8
Sl.No Course Objectives
1 To understand the need for CAD/CAM in Manufacturing.
2 To study the automated assembly systems
3 To understand and develop part programming for CNC machines.
4 To understand the fundamentals of robots and its configuration
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
III AUTOMATED ASSEMBLY SYSTEMS: Automated assembly systems:
Product design for automated assembly, types of automated assembly
systems, Part feeding and delivery system-hopper, part feeder, selector,
feedback, escapement and placement. Analysis Automated assembly
systems, Performance of single station assembly and multi station assembly
systems.
8
IV CNC MACHINING CENTERS: Introduction to CNC, elements of CNC, CNC
machining centers, part programming, fundamental steps involved in
development of part programming for milling and turning.
7
V ROBOTICS: Introduction, Robotic Fundamentals, Physical configuration of
robot, Robot motions Joints in Robot, Technical features of robots, End
effectors, Robot sensors and Robot applications.
8
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
Text Books:
Sl No Text Book title Author Volume and Year
of Edition
1 Automation, Production
system & Computer Integrated
manufacturing,
M. P. Groover Pearson India,
2007 2nd edition.
2 CAD/CAM Zeid, Tata McGraw Hill.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Reference Books:
Sl
No
Text Book title Author Volume and Year
of Edition
1 Computer Integrated Manufacturing, J. A. Rehg& Henry. W. Kraebber.
2 Principles of Computer Integrated
Manufacturing,
S. Kant Vajpayee, Prentice Hall India
Course Outcomes:
Course
outcome
Descriptions
CO1 Explain the terminology related to CAD/CAM & CIM, robot configurations, robot
motions and robot applications.(L1)
CO2 Understand the various automated flow lines and retrieving line balancing.(L2&L1)
CO3 Describe the various types of automation and production concepts.(L2)
CO4 Analyze and Design appropriate automated assembly systems and CNC part
programming.(L3&L5)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: Industrial Design and Ergonomics
Subject Code: 18ME5OE61 L-T-P-C: 3-0-0-3
Course Objectives:
Unit Description Hours
I Introduction: An approach to industrial design, elements of design structure
for industrial design in engineering application in modern manufacturing
systems.
Ergonomics and Industrial Design: Introduction, general approach to the
man- machine relationship, workstation design, working position
08
II Control and Displays: Shapes and sizes of various controls and displays
multiple, displays and control situations, design of major controls in
automobiles, machine tools etc.,
08
Sl.No Course Objectives
1 To understand the methods and procedures of designing the industrial products.
2 To study the different procedures of Industrial Design in Practice.
3 To analyze the effective utilization of men and machines.
4 To design the man machine systems ergonomically.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Applied Anthropometry and Work Space: Anthropometry, Use of
anthropometric data, work space and its design, science of seating, work
place design
III Visual Effects of Line and Form: The mechanics of seeing- psychology of
seeing, general influences of line and form, elements of visual design
07
IV Colour: Colour and light, colour and objects, colour and the eye, colour
consistency, colour terms, reactions to colour and colour continuation, colour
on engineering equipment’s.
07
V Aesthetic Concepts: Concept of unity, concept of order with variety, concept
of purpose style and environment, Aesthetic expressions. Style components
of style- house style, observation style in capital goods.
Industrial Design in Practice: General design, specifying design
equipment’s, rating the importance of industrial design, industrial design in the
design process, working with specialists, ways of using industrial engineers
09
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Text Books:
Sl
No
Text Book title Author Volume and Year of
Edition
1 Industrial Design for Engineers Mayall W.H. London Hiffee books
Ltd. -1988
2 Human Factors in Engineering
design.
Sanders &
McCormick
McGraw Hill
Publications – 6th
Edition, 2012
Reference Books:
Sl
No
Text Book title Author Volume and Year of
Edition
1 Applied Ergonomics Hand Book Brain Shakel (Edited)
- Butterworth
scientific. London -
1988.
2 Work study and ergonomics
S.Dalela and
Sourabh-
standard book
house.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Course Outcomes:
Course
outcome
Descriptions
CO1 Describe the concept of industrial design and the ergonomics and the psychology
of visuals effects.
CO2 Realize the importance of environmental factors and aesthetics in industrial
design.
CO3 Apply the different colour combinations for optimal design of engineering
equipment’s.
CO4 Design the various controls and displays by knowing the anthropometric data’s.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: ENGINEERING ECONOMICS
Subject Code: 18ME5OE62 L-T-P-C: 3-0-0-3
Course Objectives:
Unit Description Hours
I Introduction: Principles of Engineering Economy, Engineering Decision-
Makers, Engineering and Economics, Decision Makers and Decision making,
Problems solving, Intuition and Analysis, Tactics and Strategy.
Interest and Interest Factors: Interest rate, simple interest, Compound
interest, Cash-flow diagrams, Exercises and Discussion
08
II Present Worth Comparisons: Condition for present worth comparisons,
Basic present worth comparisons, present worth equivalence, Net Present
07
Sl.No Course Objectives
1 To perform and evaluate present worth, future worth and annual worth analyses on
economic alternatives
2 To evaluate payback period and capitalized cost on economic alternatives
3 To carry out and evaluate benefit/cost, life cycle and breakeven analyses on
economic alternatives
4 To learn replacement analysis, depreciation, break even analysis on different
alternatives with case studies.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
worth, Assets with unequal lives, Infinite lives, Future worth comparisons,
Pay-back comparisons, Exercises, Discussions and problems.
III Equivalent Annual Worth Comparisons: Equivalent Annual Worth
Comparison methods, Situations for Equivalent Annual Worth Comparison,
Consideration of asset life, Comparison of asset with equal and unequal lives,
Use of shrinking fund method, Annuity contract for guaranteed income,
exercises, problems
08
IV Replacement Analysis: Introduction, Reasons for replacement, Individual
Replacement of machinery or equipment with/without value of money, Group
Replacement Policies, Problems
Break Even Analysis: Basic concepts, Assumptions of BE, Graphical
methods of reducing BEP, Profit-Volume ration, Problems on BEP
08
V Depreciation and Effect of Inflation: Causes of depreciation, basic methods
of computing depreciation charges, Causes, consequences and control of
inflation. After tax actual cash flow comparisons, Lease/Buy decisions.
Estimating and Costing: Components of costs such as Direct Material Cost,
Direct Labor Cost, Fixed Over-Heads, Factor Cost, Administrative Over-
Heads, First Cost, Marginal Cost, Selling price, Estimation for simple
components.
08
Question paper Pattern:
Two questions to be set from each unit and student has to answer any one question from each unit.
Totally 5Q need to be answered by the students.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Text Books:
Sl
No
Text Book title Author Volume and Year of
Edition
1 Engineering Economy Riggs J.L,
McGraw Hill, 2002
2 Engineering Economy Thuesen H.G, PHI,2002
Reference Books:
Sl
No
Text Book title Author Volume and Year of
Edition
1 Engineering Economy Tara Chand
Nem Chand & brothers
publisher
2 Industrial Engineering and
Management O.P Khanna Dhanpat rai & sons
3 Financial management,
I M Pandey, Vikas publishing house
4 Engineering Economy PAUL DEGARMO,
Macmillan Pub
Co,2001
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Course Outcomes:
Course
outcome
Descriptions
CO1 Understand and explain problem solving & decision making process in Engineering
Economy
CO2 Apply Engineering Economy tools to compare alternative proposals
CO3 Analyze alternative proposals using Engineering Economy tools
CO4 To learn replacement analysis, depreciation, break even analysis on different
alternatives with case studies
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: I C ENGINES & FUELS LABORATORY
Subject Code: 18ME507 L-T-P-C: 0-0-2-1
Unit Description Hours
PART -A
1. Determination of Flash and Fire point of Lubricating and fuel oils.
2. Determination of Calorific value of solid, liquid and gaseous fuels.
3. Determination of viscosity of lubricating oils using Redwood and
torsional viscometers.
4. Valve timing diagram of a 4-stroke IC engine.
5. Use of Planimeter to find area under a P-V curve.
PART-B
1. Performance tests on IC engine, calculations of IP, BP, Thermal
efficiencies, SFC, FP, Heat balance sheet for
a. Four Stroke Diesel engine.
b. Two Stroke Petrol engine.
c. Four Stroke Petrol engine.
d. Multi-cylinder Petrol engine. (Morse test).
e. Variable compression ratio IC engine.
2. Flue gas analysis. (Demonstration only)
Question paper Pattern:
One Question from part A - 15 marks (05-write up, 10-calculations & graph)
One Question from part B - 25 marks (05-write up, 20-calculations & graph)
Viva-Voce -10 marks
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Course Outcomes:
Course
outcome
Descriptions
CO1 Find the fuel properties related to combustion.
CO2 Measure the area of irregular surfaces by using Planimeter.
CO3 Conduct performance test and draw heat balance sheet on 2-stroke & 4-stroke
engines.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Department: Mechanical Engineering Semester: V
Subject Name: FLUID MECHANICS AND MACHINERY LABORATORY
Subject Code: 18ME508 L-T-P-C: 0-0-2-1
Unit Description Hours
PART A
I 1. Determination of coefficient of friction of flow in a pipe.
2. Determination of major and minor losses in flow through pipes.
3. Determination of force developed by impact of jets on vanes.
4. Calibration of flow measuring devices.
a. Orifice Plate meter
b. V-notch
5. Calibrate and determine the co-efficient of discharge through
Venturimeter
PART B
II 1. Performance testing of Turbines.
a. Pelton wheel
b. Francis Turbine
2. Performance testing of Pumps.
a. Single stage / Multi stage centrifugal pumps
b. Reciprocating pump
3. Performance test of a two stage Reciprocating Air Compressor.
4. Performance test on an Air Blower.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU
(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department: MECHANICAL ENGINEERING
Question paper Pattern:
One Question from part A - 15 marks (05-write up, 10-calculations & graph)
One Question from part B - 25 marks (05-write up, 20-calculations & graph)
Viva-Voce -10 marks
Course Outcomes:
Course
outcome
Descriptions
CO1 Find the coefficient of discharge for flow measuring devices.
CO2 Find the coefficient of impact on different vanes having different geometry.
CO3 Conduct performance test on turbines, pumps, compressors.