VTU - V & VIIIsem Syllabus 23-7-8

SCHEME OF TEACHING AND EXAMINATION

V SEMESTER B.E.,MECHANICAL ENGINEERING

S. No

Sub-Code Title Teaching

Dept.

Teaching hours /week Examination

Theory Pract. Duration I.A. Marks

Theory/ Pract.

Total Marks

1 06AL51 Management & Entrepreneurship

ME 04 --- 03 25 100 125

2 06ME52 Design of Machine Elements I

ME 04 --- 03 25 100 125

3 06ME53 Dynamics of Machines ME 04 --- 03 25 100 125

4 06ME54 Energy Engineering ME 04 --- 03 25 100 125

5 06ME55 Turbo Machines ME 04 --- 03 25 100 125

6 06ME56 Engineering Economics ME 04 03 03 25 100 125

7 06ME57 Fluid Mechanics Machinery Laboratory

ME -- 03 03 25 50 75

8 06ME58 Energy Conversion Engg. Laboratory

ME -- 03 03 25 50 75

25 06 - 200 700 900


VI SEMESTER B.E., MECHANICAL ENGINEERING

S. No


Dept.



Theory/ Pract.

Total Marks

1 06ME61 Design of Machine Elements II ME 04 --- 03 25 100 125 2 06ME62 Mechanical Vibration ME 04 --- 03 25 100 125 3 06ME63 Modeling & Finite Element

Analysis ME 04 --- 03 25 100 125

4 06ME64 Mechatronics & Microprocessor ME 04 --- 03 25 100 125 5 06ME65 Heat & Mass Transfer ME 04 --- 03 25 100 125 6 06ME66x *Elective-I (Group –A) 04 --- 03 25 100 125 7 06ME67 Computer Aided Modeling &

Analysis Laboratory ME --- 03 03 25 50 75

8 06ME68 Heat & Mass Transfer Laboratory

ME --- 03 03 25 50 75

24 06 -- 200 700 900

*Elective Group – A: 06ME661 Theory of Elasticity 06ME665 Non Traditional Machining 06ME662 Mechanics of Composites Material 06ME666 Statistical Quality Control 06ME663 Refrigeration & Air Conditioning 06ME667 Project Management 06ME664 Design of Heat Exchanger 06ME668 Operation Management


VII SEMESTER B.E., MECHANICAL ENGINEERING

S. No


Dept.



Theory/ Pract.

Total Marks

1 06ME71 Control Engineering ME 04 --- 03 25 100 125

2 06ME72 Computer Integrated Manufacturing

ME 04 --- 03 25 100 125

3 06ME73 Manufacturing Process III ME 04 --- 03 25 100 125

4 06ME74 Operation Research ME 04 --- 03 25 100 125

5 06ME75x *Elective – II (Group-B) 04 --- 03 25 100 125

6 06ME76x *Elective – III (Group-C) 04 --- 03 25 100 125

7 06ME77 CIM & Automation Laboratory ME --- 03 03 25 50 75

8 06ME78 Design Laboratory ME --- 03 03 25 50 75

24 06 -- 200 700 900

* Elective: Group B * Elective: Group C 06ME751 Mechanism Design 06ME761 Experimental Stress Analysis 06ME752 Theory of Plasticity 06ME762 Engineering System Design 0ME753 Product Design & Manufacturing 06ME763 Internal Combustion Engine

06ME754 Solar Energy 06ME764 Smart Materials 06ME755 Gas Dynamics 06ME765 Agile Manufacturing 06ME756 Management Information System 06ME766 Robotics 06ME757 Automation in Manufacturing 06ME767 Micro & smart System 06ME758 Total Quality Management 06ME768 Financial Management & Accounting

VIII SEMESTER MECHANICAL

S. No


Dept.


Theory Pract./Project Duration I.A. Marks

Theory/ Pract.

Total Marks

1 06ME81 Industrial Management ME 04 --- 03 25 100 125 2 06ME82 Hydraulics & Pneumatics ME 04 --- 03 25 100 125 3 06ME83x *Elective – IV (Group-D) 04 --- 03 25 100 125 4 06ME84x *Elective – V (Group-E) 04 --- 03 25 100 125 5 06ME85 Project Work ME -- 03 03 100 100 200 6 06ME86 Seminar on Current Topics ME --- ---- --- 50 -- 50 40 ---- ---- 250 500 750

* Elective: Group D * Elective: Group E

06ME831 Tribology 06ME841 Machine Tool Design 06ME832 Fracture Mechanics 06ME842 Industrial Engineering & Economics 06ME833 Cryogenics 06ME843 Bio Mass Energy System 06ME834 Nano Technology 06ME844 Automotive Engineering 06ME835 Organizational Behavior & Professional

Communication 06ME845 Data Base Management System

06ME836 Computer Graphics 06ME846 Artificial Intelligence 06ME837 Rapid Prototyping 06ME847 Design of Experiments 06ME838 Foundry Technology 06ME848 Design for Manufacturing & Assembly

* Students shall register for one subject in each group of Elective

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MANAGEMENT & ENTREPRENEURSHIP Subject Code : 06AL51 IA Marks : 25 Hrs/Week : 04 Exam Hrs. : 03 Total hours : 52 Exam marks : 100

PART – A MANAGEMENT

Unit –1 : Management 7 hours

Introduction – Meaning – nature and characteristics of Management, Scope and functional areas of management – Management as a science, art or profession – Management & Administration – Roles of Management, Levels of Management, Development of Management Thought – early management approaches – Modern management approaches.

Unit – 2 : Planning 6 hours

Nature, importance and purpose of planning process – objectives – Types of plans (Meaning only) – Decision making – Importance of planning – steps in planning & planning premises – Hierarchy of plans.

Unit – 3 : Organising and Staffing 6 hours

Nature and purpose of organization – principles of organization – Types of organization – Departmentation – Committees – Centralisation Vs Decentralisation of authority and responsibility – Span of control – MBO and MBE (Meaning only) Nature and importance of Staffing – Process of Selection & Recruitment (in brief).

Unit – 4 : Directing & Controlling 7 hours

Meaning and nature of directing – Leadership styles, Motivation Theories, Communication – Meaning and importance – Coordination, meaning and importance and Techniques of Co-ordination. Meaning and steps in controlling – Essentials of a sound control system – Methods of establishing control (in brief).

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PART – B ENTREPRENEURSHIP

Unit – 5 : Entrepreneur 7 hours Meaning of Entrepreneur, Evolution of Concept, Functions of Entrepreneur, Types of Entrepreneur, Intrapreneur – an emerging class. Concept of Entrepreneurship – Evolution of Entrepreneurship, Development of Entrepreneurship, Stages in entrepreneurial process, Role of Entrepreneurs in Economic Development; Entrepreneurship in India; Entrepreneurship – its Barriers.

Unit – 6 : Small Scale Industry 7 hours

Definition; Characteristics; Need and rationale : Objectives, Scope, role of SSI in Economic Development. Advantages of SSI. Steps to start an SSI – Government policy towards SSI, Different Policies of SSI., Government Support on SSI., during 5 year plans. Impact of Liberalization, Privatisation, Globalization on SSI. Effect of WTO / GATT Supporting Agencies of Government for SSI Meaning. Nature of support; Objectives; Functions; Types of Help; Ancillary Industry and Tiny Industry (Definition only).

Unit – 7 : Institutional Support 6 hours

Different Schemes, TECKSOK, KIADB; KSSIDC; KSIMC; DIC Single Window Agency; SISI, NSIC, SIDBI, KSFC.

Unit – 8 : Preparation of Project 7 hours

Meaning of Project, Project Identification, Project Selection, Project Report, Need and significance of Project, Contents, formulation, Guidelines by Planning Commission for Project Report, Network Analysis, Errors of Project Report, Project Appraisal.

Identification of Business Opportunities. Market Feasibility Study : Technical Feasibility Study, Financial Feasibility Study & Social Feasibility Study.

TEXT BOOKS: 1. Principles of Management – P.C. Tripathi, P.N. Reddy, Tata

McGraw Hill, (Chapters 1,2,3,4,5,14,15,16,17)

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2. Dynamics of Entrepreneurial Development & Management – Vasant Desai – Himalaya Publishing House (Chapters 1,2,4,6,8,9,10,13,15,16,17,18,19,20,21,22, 42,46,47)

3. Entrepreneurship Development – Small Business Enterprises – Poornima M. Charantimath – Pearson Education – 2006 ( 2&4).

REFERENCE BOOKS: 1. Management Fundamentals – Concepts, Application, Skill

Development – Robert Lusier – Thomson (Chap 1,4,12).

2. Entrepreneurship Development – SS Khanka – S Chand & Co. (Chap 1, 2, 5, 11, 12,

13, 16, 18, 20) 3. Management – Stephen Robbins – Pearson Education / PHI – 17th

Edition, 2003.

DESIGN OF MACHINE ELEMENTS-I

Sub Code: 06ME52 IA Marks: 25 Hrs/Week: 04 Exam Hrs: 03 Total Lecture Hrs: 52 Exam Marks: 100

PART - A

UNIT 1: Introduction: Definitions: normal, shear, biaxial and tri axial stresses, Stress tensor, Principal Stresses. Engineering Materials and their Mechanical properties, Stress-Strain diagrams, Stress Analysis, Design considerations: Codes and Standards.

(5 Hours) UNIT 2: Design for Static & Impact Strength: 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. Impact Strength: Introduction, Impact stresses due to axial, bending and torsional loads, effect of inertia.

(7 Hours) UNIT 3: Design for Fatigue Strength: Introduction- S-N Diagram, Low cycle fatigue, High cycle fatigue, Endurance limit, Endurance limit modifying factors: size effect, surface effect, Stress concentration effects;

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Fluctuating stresses, Goodman and Soderberg relationship; stresses due to combined loading, cumulative fatigue damage.

(8 Hours) UNIT 4: Threaded Fasteners: Stresses in threaded fasteners, Effect of initial tension, Design of threaded fasteners under static, dynamic and impact loads, Design of eccentrically loaded bolted joints.

(6 Hours)

PART - B UNIT 5: Design of Shafts: Torsion of shafts, design for strength and rigidity with steady loading, ASME & BIS codes for power transmission shafting, shafts under fluctuating loads and combined loads.

(7 Hours) UNIT 6: Cotter joint and Knuckle joints, Keys and Couplings: Design of Cotter and Knuckle joints, Keys: Types of keys, Design of keys and design of splines. Couplings: Rigid and flexible couplings: Flange coupling, Bush and Pin type coupling and Oldham’s coupling.

(7 Hours)

UNIT 7: Riveted and Welded Joints – Types, rivet materials, failures of riveted joints, Joint Efficiency, Boiler Joints, Tank and Structural Joints, Riveted Brackets. Welded Joints – Types, Strength of butt and fillet welds, Eccentrically loaded welded joints.

(7 Hours)

UNIT 8: Power Screws: Mechanics of power screw, Stresses in power screws, efficiency and self-locking, Design of Power Screw, Design of Screw Jack: (Complete Design).

(5 Hours) DESIGN DATA HAND BOOKS:

1. Design Data Hand Book – K. Lingaiah, McGraw Hill, 2nd Ed. 2003.

2. Design Data Hand Book by K. Mahadevan and Balaveera Reddy, CBS Publication

3. Machine Design Data Hand Book by H.G. Patil, Shri Shashi Prakashan, Belgaum.

4. PSG design data handbook by PSG College of Technology, Coimbatore.

TEXT BOOKS:

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1. Mechanical Engineering Design: Joseph E Shigley and Charles R. Mischke. McGraw Hill International edition, 6th Edition 2003.

2. Design of Machine Elements: V.B. Bhandari, Tata McGraw Hill Publishing Company Ltd., New Delhi, 2nd Edition 2007.

REFERENCE BOOKS:

1. Machine Design: Robert L. Norton, Pearson Education Asia, 2001. 2. Design of Machine Elements: M. F. Spotts, T. E. Shoup, L. E.

Hornberger, S. R. Jayram and C. V. Venkatesh, Pearson Education, 2006.

3. Machine Design: Hall, Holowenko, Laughlin (Schaum’s Outlines series) Adapted by S.K. Somani, Tata McGraw Hill Publishing Company Ltd., New Delhi, Special Indian Edition, 2008.

4. Fundamentals of Machine Component Design: Robert C. Juvinall and Kurt M Marshek, Wiley India Pvt. Ltd., New Delhi, 3rd Edition, 2007.

.

DYNAMICS OF MACHINES


PART - A

UNIT 1: Static Force Analysis: Static force analysis: Introduction: Static equilibrium. Equilibrium of two and three force members. Members with two forces and torque, Free body diagrams, principle of virtual work. Static force analysis of four bar mechanism and slider-crank mechanism with and without friction.

(6 Hours)

UNIT 2: Dynamic Force Analysis: D’Alembert’s principle, Inertia force, inertia torque, Dynamic force analysis of four-bar mechanism and slider crank mechanism. Dynamically equivalent systems. Turning moment diagrams and flywheels, Fluctuation of Energy. Determination of size of flywheels.

(8 Hours)

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UNIT 3: Friction and Belt Drives: Definitions: Types of friction: laws of friction, Friction in pivot and collar bearings. Belt drives: Flat belt drives, ratio of belt tensions, centrifugal tension, power transmitted.

(6 Hours)

UNIT 4: Balancing of Rotating Masses: Static and dynamic balancing, Balancing of single rotating mass by balancing masses in same plane and in different planes. Balancing of several rotating masses by balancing masses in same plane and in different planes.

(6 Hours)

PART - B

UNIT 5: Balancing of Reciprocating Masses: Inertia effect of crank and connecting rod, single cylinder engine, balancing in multi cylinder-inline engine (primary & Secondary forces), V-type engine; Radial engine – Direct and reverse crank method.

(8 Hours) UNIT 6: Governors: Types of governors; force analysis of Porter and Hartnell governors. Controlling force, stability, sensitiveness, isochronism, effort and power

(6 Hours) UNIT 7: Gyroscope: Vectorial representation of angular motion, Gyroscopic couple. Effect of gyroscopic couple on ship, plane disc, aeroplane, stability of two wheelers and four wheelers.

(6 Hours) UNIT 8: Analysis of CAMS: Analysis of Tangent cam with roller follower and Circular arc cam operating flat faced and roller followers, Undercutting in Cams.

(6 Hours) TEXT BOOKS:

1. Theory of Machines: Sadhu Singh, Pearson Education, 2nd edition, 2007.

2. Theory of Machines: Rattan S.S. Tata McGraw Hill Publishing Company Ltd., New Delhi, 2nd Edition, 2006.

REFERENCE BOOKS:

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1. Theory of Machines by Thomas Bevan, CBS Publication 1984. 2. Design of Machinery by Robert L. Norton, McGraw Hill, 2001. 3. Mechanisms and Dynamics of Machinery by J. Srinivas, Scitech

Publications, Chennai, 2002. 4. Dynamics of machinery by J. B. K. Das & P. L. S. Murthy

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ENERGY ENGINEERING


PART - A

UNIT 1: Steam Power Plant: Different types of fuels used for steam generation, Equipment for burning coal in lump form, strokers, different types, Oil burners, Advantages and Disadvantages of using pulverized fuel, Equipment for preparation and burning of pulverized coal, unit system and bin system. Pulverized fuel furnaces, cyclone furnace, Coal and ash handling, Generation of steam using forced circulation, high and supercritical pressures.

(7 Hours)

UNIT 2: A brief account of Benson, Velox, Schmidt steam generators. Chimneys: Natural, forced, induced and balanced draft, Calculations and numericals involving height of chimney to produce a given draft. Cooling towers and Ponds. Accessories for the Steam generators such as Superheaters, Desuperheater, control of superheaters, Economizers, Air pre-heaters and re-heaters.

(7 Hours)

UNIT 3: Diesel Engine Power Plant- Applications of Diesel Engines in Power field. Method of starting Diesel engines. Auxiliaries like cooling and lubrication system, filters, centrifuges, Oil heaters, intake and exhaust system, Layout of diesel power plant.

(6 Hours)

UNIT 4: Hydro-Electric Plants: Hydrographs, flow duration and mass curves, unit hydrograph and numericals. Storage and pondage, pumped storage plants, low, medium and high head plants, Penstock, water hammer, surge tanks, gates and valves. General layout of hydel power plants.

(6 Hours)

PART - B

UNIT 5: Nuclear Power Plant: Principles of release of nuclear energy; Fusion and fission reactions. Nuclear fuels used in the reactors. Multiplication and thermal utilization factors. Elements of the nuclear reactor; moderator, control rod, fuel rods, coolants. Brief description of reactors of the following types-Pressurized water reactor, Boiling water reactor, Sodium graphite reactor, Fast Breeder reactor, Homogeneous

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graphite reactor and gas cooled reactor, Radiation hazards, Shieldings, Radio active waste disposal.

(6 Hours) UNIT 6: Solar Energy – Solar Extra terrestrial radiation and radiation at the earth surface, radiation-measuring instruments, working principles of solar flat plate collectors, solar pond and photovoltaic conversion [Numerical Examples]. Wind Energy: Properties of wind, availability of wind energy in India, wind velocity and power from wind; major problems associated with wind power, wind machines; Types of wind machines and their characteristics, horizontal and vertical axis wind mills, coefficient of performance of a wind mill rotor [Numerical Examples].

(8 Hours) UNIT 7: Tidal Power: Tides and waves as energy suppliers and their mechanics; fundamental characteristics of tidal power, harnessing tidal energy, limitations. Ocean Thermal Energy Conversion: Principle of working, Rankine cycle, problems associated with OTEC. Geothermal Energy Conversion: Principle of working, types of geothermal station with schematic diagram, problems associated with geothermal conversion, scope of geothermal energy.

(6 Hours) UNIT 8: Energy from Bio Mass: Photosynthesis, photosynthetic oxygen production, energy plantation. Bio Chemical Route: Biogas production from organic wastes by anaerobic fermentation, classification of bio gas plants, factors affecting bio gas generation. Thermo Chemical Route: Thermo chemical conversion on bio mass, types of gasifiers. TEXT BOOKS:

1. Power Plant Engineering, P. K. Nag Tata McGraw Hill 2nd edn 2001.

2. Power Plant Engineering by Domakundawar, Dhanpath Rai sons. 2003

REFERENCE BOOKS:

1. Power Plant Engineering by R. K. Rajput, Laxmi publication, New Delhi.

2. Principles of Energy conversion, A. W. Culp Jr., McGraw Hill. 1996

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3. Non conventional Energy sources by G D Rai Khanna Publishers. 4. Non conventional resources: B H Khan TMH - 2007

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TURBOMACHINES


PART - A

UNIT 1: Introduction: Definition of a Turbomachine; parts of a Turbomachine; Comparison with positive displacement machine; Classification; Dimensionless parameters and their physical significance; Effect of Reynolds number; Specific speed; Illustrative examples on dimensional analysis and model studies.

(6 Hours)

UNIT 2: Energy Transfer in Turbo Machine: Euler Turbine equation; Alternate form of Euler turbine equation – components of energy transfer; Degree of reaction; General analysis of a Turbo machine – effect of blade discharge angle on energy transfer and degree of reaction; General analysis of centrifugal pumps and compressors – Effect of blade discharge angle on performance; Theoretical head – capacity relationship;

(6 Hours) UNIT 3: General Analysis of Turbo Machines: Axial flow compressors and pumps – general expression for degree of reaction; velocity triangles for different values of degree of reaction; General analysis of axial and radial flow turbines – Utilization factor; Vane efficiency; Relation between utilization factor and degree of reaction; condition for maximum utilization factor – optimum blade speed ratio for different types of turbines

(7 Hours) UNIT 4: Thermodynamics of Fluid Flow and Thermodynamic Analysis of Compression and Expansion Processes: 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; Stage efficiency; Comparison and relation between overall efficiency and stage efficiency; Polytrophic efficiency; Preheat factor; Expansion Process – Overall isentropic efficiency for a turbine; Stage efficiency for a turbine; Comparison and relation between stage efficiency and overall efficiency for expansion process; polytropic efficiency of expansion; Reheat factor for expansion process.

(7 Hours)

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PART - B

UNIT 5: Centrifugal Compressors: Classification; Expression for overall pressure ratio developed; Blade angles at impeller eye root and eye tip; Slip factor and power input factor; width of the impeller channel; Compressibility effect – need for pre-whirl vanes; Diffuser design: Flow in the vane less space, determination of diffuser inlet vane angle, width and length of the diffuser passages; Surging of centrifugal compressors; Axial Flow Compressors: Classification; Expression for Pressure ratio developed per stage – work done factor, radial equilibrium conditions.

(6 Hours)

UNIT 6: 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, multistage centrifugal pumps, minimum starting speed, slip, priming, cavitation, NPSH,

(6 Hours)

UNIT 7: Steam Turbines: Classification, Single stage impulse turbine; Condition for maximum blade efficiency, stage efficiency. Compounding – Need for compounding, method of compounding. Impulse Staging – Condition fo maximum utilization factor for multi stage turbine with equiangular blades; effect of blades and nozzle losses. Reaction turbine; Parson’s reaction turbine, condition for maximum blade efficiency, reaction staging.

(7 Hours)

UNIT 8: Hydraulic Turbines: Classification; 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.

(7 Hours)

TEXT BOOKS: 1. An Introduction to energy conversion, Volume III – Turbo

machinery, V. Kadambi and Manohar Prasad, New Age International Publishers (P) Ltd.

2. “Turbines, Compressors & Fans”, S. M. Yahya, Tata-McGraw Hill Co., 2nd Edition (2002).

REFERENCE BOOKS:

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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. “Turbo Machinaries” B. K. Venkanna PHI .

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ENGINEERING ECONOMICS


PART - A

UNIT 1: Introduction: Engineering Decision-Makers, Engineering and Economics, Problem solving and Decision making, Intuition and Analysis, Tactics and Strategy. Engineering Economic Decision Maze. Law of demand and supply, Law of returns, Interest and Interest factors: Interest rate, Simple interest, Compound interest, Cash - flow diagrams, Personel loans and EMI Payment, Exercises and Discussion.

(8 Hours) UNIT 2: Present Worth Comparisons: Conditions for present worth comparisons, Basic Present worth comparisons, Present worth equivalence, Net Present worth, Assets with unequal lives, infinite lives, Future worth comparison, Pay-back comparison, Exercises, Discussions and problems.

(6 Hours) UNIT 3: Equivalent Annual Worth Comparisons: Equivalent Annual Worth Comparison methods, Situations for Equivalent Annual Worth Comparisons, Consideration of asset life, Comparison of assets with equal and unequal lives, Use ofshrinking fund method, Annuity contract for guaranteed income, Exercises, Problems.

(6 Hours) UNIT 4: Rate of Return Calculations and Deprecation: Rate of return, Minimum acceptable rate of return, IRR, IRR misconceptions, Cost of capital concepts. Causes of Depreciation, Basic methods of computing depreciation charges, Tax concepts, corporate income tax.

(6 Hours)

PART - B

UNIT 5: Estimating and Costing: Components of costs such as Direct Material Costs, Direct Labor Costs, Fixed Over-Heads, Factory cost, Administrative Over-Heads, First cost, Marginal cost, Selling price, Estimation for simple components.

(5 Hours)

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UNIT 6: Introduction, Scope of finance, Finance functions: Statements of Financial Information: Introduction, Source of financial information, Financial statements, Balance sheet, Profit and Loss account, relation between Balance sheet and Profit and Loss account. Simple Numericals

(8 Hours) UNIT 7: Financial Ratio Analysis: Introduction, Nature of ratio analysis, Liquidity ratios, Leverage ratios, Activity ratios, Profitability ratios, Evaluation of a firm's earning power. Comparative statements analysis. Simple numericals

(6 Hours) UNIT 8: Financial and Profit Planning: Introduction, Financial planning Profit planning, Objectives of profit planning, Essentials of profit planning, Budget administration, type of budgets, preparation of budgets, advantages, problems and dangers of budgeting. Introduction to Bench Marking of Manufacturing Operation.

(7 Hours) TEXT BOOKS:

1. Engineering Economy, Riggs J.L., , McGraw Hill, 2002 2. Engineering Economy, Thuesen H.G. PHI , 2002

REFERENCE BOOKS:

1. Engineering Economy Tarachand, 2000. 2. Industrial Engineering and Management, OP Khanna, Dhanpat

Rai & Sons. 2000 3. Financial Mangement, Prasanna Chandra, TMH, 2004 4. Finacial Management, IM PANDEY, Vikas Publisahing House,

2002

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FLUID MECHANICS AND MACHINERY LABORATORY Sub Code: 06MEL57 IA Marks: 25 Hrs/Week: 03 Exam Hrs: 03 Total Hrs: 42 Exam Marks: 50

PART - A

1. Determination of coefficient of friction of flow in a pipe. 2. Determination of 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. Flow nozzle c. Venturimeter d. V notch

(18 Hours)

PART - B 5. Performance testing of Turbines

a. Pelton wheel b. Francis Turbine c. Kaplan Turbines

6. Performance testing of Pumps

a. Single stage / Multi stage centrifugal pumps b. Reciprocating pump

7. Performance test of a two stage Reciprocating Air Compressor 8. Performance test on an Air Blower

(24 Hours) Scheme for Examination: One Question from Part A - 15 Marks One Question from Part B - 25 Marks Viva-Voce - 10 Marks ----------- Total 50 Marks

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ENERGY CONVERSION ENGINEERING LABORATORY Sub Code: 06MEL58 IA Marks: 25 Hrs/Week: 03 Exam Hrs: 03 Total Hrs: 42 Exam Marks: 50

PART - A 1. Determination of Flash point and Fire point of lubricating oil using Abel

Pensky and Pensky / Open Cup Cleavland Apparatus. 2. Determination of Calorific value of solid, liquid and gaseous fuels. 3. Determination of Viscosity of a lubricating oil using Redwoods,

Saybolts and Torsion Viscometers. 4. Valve Timing/port opening diagram of an I.C. engine (4 stroke/2 stroke). 5. Use of planimeter

(21 Hours)

PART - B 1. Performance Tests on I.C. Engines, Calculations of IP, BP, Thermal

efficiencies, SFC, FP, heat balance sheet for

(a) Four stroke Diesel Engine

(b) Four stroke Petrol Engine

(c) Multi Cylinder Diesel/Petrol Engine, (Morse test)

(d) Two stroke Petrol Engine

(e) Variable Compression Ratio I.C. Engine. (21 Hours)

Scheme for Examination: One Question from Part A - 15 Marks One Question from Part B - 25 Marks Viva-Voce - 10 Marks ----------- Total 50 Marks

Documents

VTU - V & VIIIsem Syllabus 23-7-8