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3 November 2016 (1)
DAYALBAGH EDUCATIONAL INSTITUTE
FACULTY OF ENGINEERING
B.TECH. (CIVIL, ELECTRICAL & MECHANICAL): 2017-18
EIGHT SEMESTER COURSE
B.TECH. (CIVIL) SEVENTH SEMESTER (2017-18)
Core courses common to all the three streams: Credits
Code Course Title Credits ES Y/N T/P
CEM701 DSGN OF REINFORCED CONCRETE STRU.II 3.0 Y T
MEM708 MANAGERIAL ECO. & INDUSTRIAL ORGAN. 3.0 Y T
CEH701 CIVIL ENGINEERING PROJECT I 3.0 N P
CEH702 SEMINARS 1.0 N P
EGC781 CO-OP. INTERNSHIP 4.0 Y P
GKC781 GEN. KNOWLEDGE & CURRENT AFFAIRS III 1.0 No T
RDC781 RURAL ENGINEERING PROJECT 1.0 N P
Optional
Courses Any three from the following specialisation List
PEE315 Self Study (only for 5 year integrated M.Tech.) 1.0
Mainstream Civil & Architectural Technology Specialisation
CEM704 BRIDGE ENGINEERING 3.0 Y T
CEM708 SMART BUILDING/INTELLIGENT BUILDING DSGN. 3.0 Y T
CEM709 TUNNEL ENGINEERING 3.0 Y T
CEM710 ADVANCED BUILDING SERVICES DESIGN 3.0 Y T
CEM711 SUSTAINABLE GREEN BLDG DSGN & ECO-VILL. 3.0 Y T
CEM712 AUTO-CAD CIVIL 3.0 Y P
CEM713 GIS APPLICATIONS 3.0 Y P
CEM714 ECOTECT 3.0 Y P
CEM715 HISTORY OF STRUCTURES 3.0 Y P
Computer Science Specialisation
EEM706 ELECTRO-MAGNETIC FIELD THEORY 3.0 Y T
EEM710 SOFTWARE ENGINEERING 5.0 Y T
EEM719 VLSI DESIGN TECHNIQUES 3.0 Y T
EEM720 COMPUTER NETWORKS 3.0 Y T
EEM722 DIGITAL IMAGE PROCESSING 3.0 Y T
3 November 2016 (2)
B.TECH. (ELECTRICAL) SEVENTH SEMESTER (2017-18)
Core courses common to all the three streams:
EEM703 Communication Engineering 3 Y T
EEM704 Computer Technology Lab 2 Y T
EEM705 Electrical Engineering Project I 3 N P
MEM708 Managerial Eco. & Industrial Organ. 3 Y T
EGC781 Co-Op. Internship 4 Y P
GKC781 Sc. Meth., G.K. & Current Affairs III 1 N T
RDC781 Rural Engineering Project 1 N P
PEE315 Self Study (only for 5 year integrated M.Tech.) 1
In addition to above stream-wise Core Courses:
Mainstream Electrical
EEM701 Power System II 3 Y T
EEM702 Power System Lab 2 Y P
EEM706 Electro-Magnetic Field Theory 3 Y T
EEM711 Electrical Machine Design 5 Y P
Electronics specialization
EEM706 Electro-Magnetic Field Theory 3 Y T
EEM708 Communication Lab 2 Y P
EEM712 Digital Design 5 Y P
*EEM720 Computer Networks 3 Y T
Computer Science specialization
EEM706 Electro-Magnetic Field Theory 3 Y T
EEM710 Software Design 5 Y P
*EEM720 Computer Networks 3 Y T
EEM723 System Lab 2 Y P
Stream-wise optional Courses any one of the following to be opted:
Mainstream Electrical
*EEM715 Computer Methods in Power Systems 3 Y T
EEM717 Semiconductor Controlled Drives 3 Y T
EEM719 VLSI Design Techniques 3 Y T
EEM721 Power Systems Management 3 Y T
*EEM722 Digital Image Processing 3 Y T
*EEM724 Fuzzy Systems 3 Y T
Electronics specialization
EEM719 VLSI Design Techniques 3 Y T
*EEM722 Digital Image Processing 3 Y T
*EEM724 Fuzzy Systems 3 Y T
Computer Science specialization
EEM719 VLSI Design Techniques 3 Y T
*EEM722 Digital Image Processing 3 Y T
*EEM724 Fuzzy Systems 3 Y T
*Common with M.Tech. Classes
3 November 2016 (3)
B.TECH. (MECHANICAL) SEVENTH SEMESTER (2017-18)
MEM703 Refrigeration And Air Conditioning 3.0 Y T
MEM704 Thermal Engineering Lab II 1.0 Y P
MEM708 Managerial Eco. & Industrial Organ. 3.0 Y T
MEH701 Mechanical Engineering Project I 3.0 N P
MEH702 Seminars 1.0 N P
EGC781 Co-op. Internship 4.0 Y P
GKC781 Sc. Meth., G.K. & Current Affairs III 1.0 N T
RDC781 Rural Engineering Project 1.0 N P
PME318 Self Study (only for 5 year integrated M.Tech.) 1.0
In addition to above stream-wise Core Courses:
Mainstream Mechanical
MEM701 Mechanics of Machines II 3 Y T
MEM702 Mechanics of Machines Lab 1 Y P
MEM705 Power Plant Engineering 3 Y T
MEM706 Mechanical Engineering Design II 3 Y P
MEM707 Mechanical Engg. Design Practice II 2 Y P
Industrial Engineering specialization
MEM721 Design & Simulation of Work Systems 3 Y T
MEM722 Design & Simulation of Work Systems Lab. 2 Y P
MEM725 Operations Research 3 Y T
MEM730 Methods Engineering & Ergonomics 3 Y T
MEM731 Methods Engineering & Ergonomics Lab. 1 Y P
Computer Science specialisation
EEM706 Electro-Magnetic Field Theory 3 Y T
EEM710 Software Design 5 Y P
*EEM720 Computer Networks 3 Y T
EEM723 System Lab 2 Y P
Stream-wise optional Courses any one of the following to be opted:
Mainstream Mechanical
MEM711 Machine Tool Design & Control 3 Y T
MEM712 Foundry Engineering 3 Y T
MEM714 Gas Dynamics 3 Y T
MEM715 Theory of Elasticity & Plasticity 3 Y T
*MEM716 Finite Element Methods 3 Y T
*MEM717 Mechanics of Composite Materials 3 Y T
*MEM719 Stochastic Processes 3 Y T
*MEM720 Materials Management 3 Y T
*MEM728
*MEM729
Additive Manufacturing For 3d Printing
Additive Manufacturing Lab.
2
1
Y
Y
T
P
*EEM724 Fuzzy Systems 3 Y T
Industrial Engineering specialization
*MEM719 Stochastic Processes 3 Y T
*MEM720 Materials Management 3 Y T
*MEM727 Project Engineering & Management 3 Y T
*MEM728
*MEM729
Additive Manufacturing For 3d Printing
Additive Manufacturing Lab.
2
1
Y
Y
T
P
*EEM724 Fuzzy Systems 3 Y T
MEM723
MEM724
Industrial Kinesiology
Industrial Kinesiology Lab
2
1
Y
Y
T
P
Computer Science specialisation
*MEM728
*MEM729
Additive Manufacturing For 3d Printing
Additive Manufacturing Lab.
2
1
Y
Y
T
P
EEM719 VLSI Design Techniques 3 Y T
*EEM722 Digital Image Processing 3 Y T
*EEM724 Fuzzy Systems 3 Y T
*Common with M.Tech. Classes
3 November 2016 (4)
Course Number: CEM701, Course Title: DESIGN OF REINFORCED CONCRETE STRUC. II
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1
Design of continuous R.C. beams, moment redistribution. Design loads on buildings, wind and
earthquake loads.
UNIT 2
Analysis and design of RC framed buildings; Framing systems, member proportioning, loadings,
static and dynamic analysis and component design, provisions of ductile detailing.
UNIT 3
Design of T-beams bridge, standard specifications and general design considerations.
UNIT 4
Design of overhead water tanks, general design consideration for circular & Intze tanks.
UNIT 5
Pre-stressed concrete; Materials, prestressing systems, stress analysis & losses of prestress, design
of simple beams.
SUGGESTED READINGS: Jain, A.K., “Reinforced Concrete”, Limit State Design, 5th Ed., Nem Chand & Bros. 2006 Krishna, J. and Jain O.P., “Plain and Reinforced Concrete”, Vol. 2, Nem Chand and Bros. 1983 Pillai, S.U. and Menon, D., “Reinforced Concrete Design”, Tata McGraw-Hill. 2003 Sinha, S.N., “Reinforced Concrete Design”, Tata McGraw-Hill. 2005
Course Number: CEM702, Course Title: COMPUTER AIDED DESIGN IN CIVIL ENGG.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: GENERAL CONCEPTS & MATHEMATICS PRELIMINARIES
Engineering design principles, interactive design using workstations, and software tools.. Computer
aided drafting, data base management system, Modelling of structures; Visualization of structures,
pre- and post-processing, displacement plotting, stress contouring.
UNIT 2: DIRECT STIFFNESS METHOD
Brief history and over view of finite element method, matrices and matrix operation methods of
solution of simultaneous equations. Shape functions & their derivation.
Introduction to boundary value problems and variational calculus. Introduction to direct stiffness
method and its application to springs, electrical networks, flow in pipes and bars. Truss analysis
with direct approach. Determination of local element characteristics, assemblage of global element
characteristics, application of the prescribed displacements and loads & solution.
UNIT 3: VARIATIONAL FORMULATION
Variational approach to Boundary value problems. The weak formulation. The Euler-Lagrange
equation. One dimensional axial deformation and heat conduction problems. Geometric and natural
boundary conditions.
UNIT 4: INTRODUCTION TO WEIGHTED RESIDUAL METHOD
Galerkin’s approach to one dimensional problems. Completeness requirements, isoparametric
elements and concepts of numerical integration.
UNIT 5: APPLICATION TO CIVIL STRUCTURES
Introduction to professional structural analysis packages, Ex.STAAD PRO; Database system for
steel table, unit weight of materials, loading etc. as per IS codes; Checking of results; Design
methods of RCC and steel structures, Simulation and optimization. Applications in Civil Engineering,
structural design. SUGGESTED READINGS: FRANK L. STASA – APPLIED FINITE ELEMENT ANALYSIS FOR ENGINEERS PAUL ALLAIRE – INTRODUCTION TO FINITE ELEMENT METHOD ZINKIEWICZ, O.C – THE FINITE ELEMENT METHOD HUEBNER, K.H. – THE FINITE ELEMENT METHOD FOR ENGINEERS WILLIAM B. BICKFORD – FINITE ELEMENT METHOD DESAI & ABEL – INTRODUCTION TO THE FINITE ELEMENT METHOD A. SAXENA & b. SAHAY - COMPUTER AIDED ENGINEERING DESIGN
3 November 2016 (5)
Course Number: CEM703, Course Title: COMPUTER AIDED DESIGN IN CIVIL ENGG. LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:1.5, Periods(55 mts. Each)/week:3(L:0+T:0+P:2+S:0), Min.pds./sem.: 39
LIST OF EXPERIMENTS:
Simulation will be performed on STAAD PRO on real life problems. SUGGESTED READINGS: Krishnamurthy, D., “Structural Design & Drawing – Vol. II and III, CBS Publishers, 2010. Shah V L and Veena Gore, “Limit State Design of Steel Structures” IS800-2007, Structures Publications, 2009 STAAD PRO User Manual
Course Number: CEM704, Course Title: BRIDGE ENGINEERING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: GENERAL CONSIDERATIONS
General Considerations for Design and Load Capacity Evaluation of Highway Bridges.
UNIT 2: INTRODUCTION TO LOADS
Introduction to Load and Resistance Factor Design (LRFD) Philosophy. Bridge Loads. Influence
Lines.
UNIT 3: GRILLAGE ANALYSIS
Grillage Analysis of Bridges. Reinforced and Prestressed Concrete Bridges.
UNIT 4: COMPOSITE STEEL BRIDGES
Composite Steel Bridges. Bridge Substructures. Load Rating.
UNIT 5: INTRODUCTION TO SEISMIC
Introduction to Seismic Analysis and Design. SUGGESTED READINGS:
Richard Barker & Jay Puckett, Design of Highway Bridges; Wiley Interscience AASHTO LRFD Bridge Design Specifications, SI Units – 2nd Edition, 1998. Publisher: AASHTO – Washington DC
3 November 2016 (6)
Course Number: CEM705, Course Title: BUSINESS MANAGEMENT AND MANAGERIAL ECO.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: INTRODUCTION
Historical evolution of Business Management in the past, present and its future. Characteristics,
function and importance. Forms of Ownership.
Strategic Management: Strategy Planning. Business Vision. Business Strategies. Levels of Strategy.
Porter’s Generic Strategies. Core Competencies.
Business Organization: Definitions & importance. Organizational structure. Types of Organizational
structures: Functional, Divisional, Line and Matrix. Delegation & Elements of Delegation. Authority.
Types of Authority Relationships.
UNIT 2: INVENTORY MANAGEMENT
Principles of Inventory Management. Economic Order Quantity. Integrated Logistics and Supply
Chain Management. The Value Chain Concept. Information technology for Inventory Management
Enterprise Resource Planning and Management Information & Decision Support Systems.
Quality Management: Total Quality Management. Quality Specifications and Cost of Quality. Zero
Defects. Continuous Improvement. The Shingo System. ISO 9000 Specifications.
UNIT 3: MARKETING MANAGEMENT
The Marketing vs. Selling Concept. Marketing Mix. Market Research. Product Development and
Sales Promotion.
Human Resource Management: Importance of the Human Resource. Staffing the Organization.
Leadership & Motivation. Manpower and Employee Development. Incentives for Effective
Performance.
UNIT 4: ECONOMIC MODELS AND DEMAND ANALYSIS
Circular flow of economic activity, Nature of firm, Concept of economic profit, Economics and
decision making, Functional relationships and Economic Models; Total Average and Marginal
functions; Money, Bank and Exchange.
Meaning of demand. Type of demand. Determinants of demand. Demand elasticities. Factors
influencing demand.
UNIT 5: PRODUCTION FUNCTION, COST ANALYSIS AND PRICING
Input output relationship, Least cost combination of inputs, factor productivities and return to scale.
Managerial uses of production functions.
Economic concept of cost; Production and Cost; Cost functions. Perfect Competition; Monopoly;
Profit maximization price and output in short run and long run.
Definitions. Determinants of price. Pricing under different market structures.
SUGGESTED READINGS: Mote VL & Paul Samuel: MANAGERIAL ECONOMICS CONCEPTS AND CASES DN Dwivedi: MANAGERIAL ECONOMICS Vasudevan & Ghosh: MANAGERIAL ECONOMICS HC Peterson & WC Lewis: MANAGERIAL ECONOMICS KH Chung: MANAGEMENT-CRITICAL SUCCESS FACTORS. Allyn & Becon, 1987 P Drucker: MANAGING IN TURBULENT TIMES. Harper & Row, 1980 H Koontz, C O’Donnel, H Weirich: MANAGEMENT. McGraw Hill, 1984 P Kotler: MARKETING MANAGEMENT. PHI, 1995. TJ Peters, RH Waterman: IN SEARCH OF EXCELLENCE. Harper & Row, 1982 RJ Schonberger: JAPANESE MANUFACTURING SYSTEMS. Free Press, 1982
3 November 2016 (7)
Number: CEM708, Title: SMART BUILDING/INTELLIGENT BUILDING DSGN.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: INTRODUCTION
Automation, communication and security; Mechanical, electrical, electronic subsystems and their
integration with the building envelope; Environment, energy and sustainability; Configuration and
operational characteristics; performance specifications; Analytical models; design methods; case
studies.
UNIT 2: MATERIALS IN BUILT ENVIRONMENT
Overview of materials issues in indoor environment as related to the structural and environmental
performance of buildings, including organic sources of pollution. Detailed coverage on the materials
science of building materials will be covered from not only from the physical and chemical
perspective, but also from the performance and pollution perspective. The learned materials
science will be illustrated using practical cases studies on structural, thermal and environmental
performance.
UNIT 3: INDOOR AIR QUALITY TECHNOLOGY AND MANAGEMENT
Discussion of the various air contaminants in the indoor environment and their transport
phenomena, sick building syndrome, building related diseases, thermal comfort, ventilation theory,
advanced ventilation systems, air treatment systems, indoor air quality assessment and mitigation
strategy, indoor air quality management in intelligent buildings.
Occupational Safety and Health Issues in Buildings:
This course introduces various occupational safety health issues in buildings, particularly those
required by the Occupational Safety and Health Ordinance and other local regulations. Emphasis
will be on the practical aspects of fire and life safety, lighting, general ventilation, exhaust
ventilation, occupational hygiene, and hazardous material management.
UNIT 4: FINANCIAL ASSESSMENT OF INTELLIGENT BUILDING SYSTEMS
Modern technological advancements of intelligent building systems could provide safe, healthy and
comfortable living with conveniences. The success of deploying these systems that are technically
feasible requires accurate financial assessment. Basic tools and methods of financial assessment
will be introduced to analyze the state-of-the-art technologies that could make the buildings
inspirational in the contemporary and life cycle analyses of these inventions and power logistics
offer solutions to secure sustainability for the humanity.
UNIT 5: ENERGY MANAGEMENT IN BUILDINGS
Renewable and non-renewable energy resources, review of energy conversion technologies, energy
use in domestic/non-domestic buildings, energy economics, design guides, energy management
and energy auditing.
SUGGESTED READINGS: Anil Ahnja M/E Integrated Design Building Systems Engineering, Chapman & Hall,115 Fifth Avenue, New York, NY 10003 Albert Ting-pat So Intelligent Building System, Boston: Kluwer Academic, c1999 CIDB intelligent Building Singapore: Construction Industry Manual. Development Board, 1998 Carlson, Reinhold A Understanding Building Automation Systems. Kingston, MA: R.S.Means, Co., c1991 O. Gassmann, H. Meixer Sensors in Intelligent Building, Weinheim, Singapore: Wiley- VCH, 2001 Boed, Viktor Controls and Automation for Facilities Managers: Boca Raton, Fla: CRC Press, c1999 Chen, Kao Energy Effective Industrial Illuminating Systems: Libum, GA: Fairmont Press; Englewood Gliggs NJ: Distributed by PTR Prentice Hall, c1999 http://www.sengpp.ust.hk/programs/ibtm/en/curriculum.html#IBTM5050 “Intelligent Building Technology and Management”, Department of Mechanical and Aerospace Engineering, The Hong Kong University of Science and Technology.
3 November 2016 (8)
Course Number: CEM709, Course Title: TUNNEL ENGINEERING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: TUNNELING
Introduction about tunnels, advantages and disadvantages of tunnels compared to open cuts,
Criteria for selection of size and shape of tunnels, Advantages of twin tunnels and pilot tunnels,
portals and adits, construction of shaft. Factors affecting methods of tunneling.
UNIT 2: GEOMETRIC DESIGNSMETHODS OF DRIVING TUNNELS IN SOFT GROUND
General characteristics of soft ground, needle beam method and NATM method of tunneling in
practice, TBM.
UNIT 3: DRIVING TUNNELS IN HARD GROUND
General sequence of operation and typical distribution of time for each operations, meaning of the
term ‘Faces of Attack’, Mucking, methods of removal of muck.
UNIT 4: VENTILATION AND LIGHTING
Methods of Ventilation, Lighting and aspects of drainage. Guniting, industrial flooring, Production of
crushed sand and crushed aggregates, pneumatic drilling equipment, Use of RMC plants and jet
grouting techniques.
UNIT 5: DOCKS AND HARBORS
Introduction, Requirements of harbors and ports, classification of harbors with examples, selection
of site for harbor. Definitions/ methods of Breakwater, Wet and Dry Dock, Quay, Bulkhead,
Wharves, Jetty, Dolphines, Dock fenders, use of Tetrapods, Triars, Quadripads and Hexapods
SUGGESTED READINGS: 1. Tunnel Engineering S.C.Saxena 2 Tunnel Engineering Handbook John o. Bickel,Thomas R.Kuesel,Elwyn H.king 2 nd edition 3 Tunnel and Harbour Dock Engineering B.L. Gupta & Amit Gupta 2004 4 Bridge Tunnel and Railway Engineering S.P.Bindra 5 Harbour, Dock and Tunnel Engineering R.Srinivasan 26th edition, 2013 6 Roads, Railways, Bridges and Tunnel Engineering T.D.Ahuja & G.S.Birdi 16th edition, 2012 7 Engineering In Rocks for Slopes, Foundations and Tunnels Prof. T.Ramamurthy (Ed.) 2nd edition, 2011 8 Roads, Railways, Bridges, Tunnels & Harbour Dock Engineering B.L.Gupta & Amit Gupta Reprint 2011 9 Method of measurement of building and civil engineering works: Part 25 tunneling (IS 1200 : Part 25) Bureau of Indian Standards (BIS), Govt. of India 1971 10 Low-Speed Wind Tunnel Testing (PB) Barlow 2010
Course Number: CEM710, Course Title: ADVANCED BUILDING SERVICES DESIGN
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: FUNCTIONAL PLANNING OF BUILDINGS
The process of identifying activity area & linkages–drawing built diagrams – checking for
circulation, ventilation, structural requirements and other constraints – preparing sketch plans and
working drawing–site plants. Consideration of comfort factors such as acoustics, lighting,
ventilation and thermal aspects.
UNIT 2: SUSTAINABLE BUILDINGS
Design of safe and sustainable buildings
UNIT 3: SERVICES LAYOUT
Integrated services layout in design documentation
UNIT 4: RESIDENTIAL BUILDINGS
Design solutions for residential buildings
UNIT 5: COMMERCIAL BUILDINGS
Design solutions for commercial buildings
SUGGESTED READINGS: Roger Greeno, Building Services HandbookFred Hall,
Butterworth-Heinemann, 2001 – Building Roger Greeno, Building Services, Technology and Design (Chartered Institute of Building), 1997 ISBN-13: 978-0582279414 ISBN-10:
0582279410
Asif Syed, Advanced Building Technologies for Sustainability, 2012
ISBN-13: 978-0470546031 ISBN-10: 0470546034 Edition: 1st
W. Otie Kilmer and Rosemary Kilmer, Ted Buchholz, Designing Interior, Thomas Learning, Inc.1992 ISBN-13:978-0-03-032233-4; ISBN-10:0-
03-032233-2
Francis D. K. Ching, Foundation of 2-D Design Architectural Graphics, Fifth Edition 2009, John Wiley & Sons, ISBN 978-0470-39911-8
http://www.taylorandfrancis.com/buildingconstruction/textbooks/
3 November 2016 (9)
Course Number: CEM711, Course Title: SUSTAINABLE GREEN BLDG DSGN & ECO VILL.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: PRINCIPLES OF SUSTAINABLE TACHNOLOGY
UNIT 2: ECONOMICS AND ENVIRONMENT
Green Building Basics, The Economics of Green Buildings; Selecting Environmentally and
Economically Balanced Building Materials
UNIT 3: BUILDING RATING SYSTEM
UNIT 4: PRE-DESIGN ISSUES
Green Building Design Pre-Design , Local Government Information, Sustainable Site Design, Water
Issues, Site Materials and Equipment
UNIT 5: BUILDING DESIGN
Passive Solar Design, Daylighting, Building Envelope, Renewable Energy
UNIT 6: BUILDING SYSTEMS
Indoor Environmental Quality, HVAC, Electrical, and Plumbing Systems, Indoor Air Quality,
Acoustics, Building Commissioning, Materials and Specifications, Improving Indoor Air Quality,
Materials, Specifications, Environmental Construction Guidelines
UNIT 7: EVOLUTION OF ECO-VILLAGES
Community strengthening practices, organic food production, ecology SUGGESTED READINGS: How to Build or Remodel Energy Efficient Homes and Businesses, VOLUNTARY GREENBUILDING MANUAL, Southern California Edison, Coachella Valley Association of Governments, Terra Nova Planning & Research and Interactive Design Corporation GREEN BUILDING GUIDE: Design Techniques, Construction Practices & Materials for Affordable Housing, Principal Author Craig Nielson, LEED AP, Rural Community Assistance Corporation. SUSTAINABLE BUILDING TECHNICAL MANUAL, Green Building Design, Construction, and Operations, Public Technology Inc. n US Green Building Council Sponsored by U.S. Department of Energy n U.S. Environmental Protection Agency. Eco-villages: Lessons for Sustainable Community, Karen T. Litfin (Univ. of Washington) Sustainable Construction: Green Building Design and Delivery, 3rd Edition
Course Number: CEM712, Course Title: Auto-CAD CIVIL
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:1+T:0+P:3+S:0), Min.pds./sem.: 52
AutoCAD Civil engineering design software is a civil design and documentation solution that
supports Building Information Modeling (BIM) workflows. Using AutoCAD Civil 3D, infrastructure
professionals can better understand project performance, maintain more consistent data and
processes and respond faster to change.
Course Number: CEM713, Course Title: GIS APPLICATIONS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:1+T:0+P:3+S:0), Min.pds./sem.: 52
GIS software is interoperable, supporting the many data formats used in the infrastructure life
cycle and allowing civil engineers to provide data to various agencies in the required format while
maintaining the data’s core integrity. GIS technology provides a central location to conduct spatial
analysis, overlay data, and integrate other solutions and systems. Built on a database rather than
individual project files, GIS enables civil engineers to easily manage, reuse, share, and analyze
data, saving time and resources.
Course Number: CEM714, Course Title: ECOTECT
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:1+T:0+P:3+S:0), Min.pds./sem.: 52
Autodesk Ecotect Analysis sustainable design analysis software is a comprehensive concept-to-
detail sustainable building design tool. Ecotect Analysis offers a wide range of simulation and
building energy analysis functionality that can improve performance of existing buildings and new
building designs.
3 November 2016 (10)
Course Number: CEM715, Course Title: HISTORY OF STRUCTURES
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods(55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: HISTORICAL DEVELOPMENT OF STRUCTURES
UNIT 2: SURVEYING MATERIALS & CONSTRUCTION DETAILS
UNIT 3: STRUCTURAL SYSTEMS
UNIT 4: CASE STUDIES OF HISTORICAL STRUCTURES AS EVOLVED (Early periods upto Concrete
Structures)
UNIT 5: STUDY OF HISTORICAL BUILDINGS OF DAYALBAGH AND AGRA.
SUGGESTED READING: Nathan Holth, HistoricBridges.org, Researching Historic Metal Structures: Unlocking the Treasure of Free Online Digitized Texts. T. M. Charlton, A History of the Theory of Structures in the Nineteenth Century: 1st Edition (7/8/2002), Publisher: Cambridge University Press. Tadaki Kawada, History of the Modern Suspension Bridge: Solving the Dilemma Between Economy and Stiffness (4/30/2010), Publisher: American Society of Civil Engineers. Andrew Charleson, Structure As Architecture: A Source Book For Architects And Structural Engineers: 1st Edition (8/11/2005), Publisher: Taylor & Francis. Eda Kranakis, Constructing a Bridge: An Exploration of Engineering Culture, Design, and Research in Nineteenth-Century France and America (3/2/2000), Publisher: MIT Press
Course Number: EEM701, Course Title: POWER SYSTEM II
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods (55 mts. Each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: FAULT ANALYSIS
Per Unit system, symmetrical and unsymmetrical faults on a synchronous machine, fault clearing
process, Faults in power systems. Reactors: Current limiting reactors. Their use and location.
UNIT 2: RELAYS
Importance and requirements of protective relaying in power systems, primary and back up
protection, Classification of relays, Constructional (Electro-mechanical and static relays) and
functional (over current, directional, differential, distance relays) their principles and applications,
current trend in protective relaying.
UNIT 3: CIRCUIT BREAKERS
Functions and duties of switch gear. Classification of switch gear, arching phenomenon and
principles of arc interruption, terms associated with circuit breakers. Recovery and re-striking
voltages. AC and DC circuit breakers, different types of circuit breakers and their constructional
features, testing and selection of circuit breakers.
UNIT 4: PROTECTION OF DEVICES
Protection of alternators transformers, bus bar and transmission lines.
Protection of Feeders, Over current and earth fault protection, time graded and distance protection,
power line communication and carrier aided distance protection scheme.
UNIT 5: EARTHING AND SUBSTATIONS
Neutral Earthing: Necessity and methods of neutral earthing.
Voltage control: tap changing transformers, Booster transformers, power factor control methods.
Protection against over voltages: Causes of over voltages, protection against over voltages and
lighting.
Substations: Introduction, Classification and advantages and disadvantages of substations,
selection and location of site, equipments for substations, substations auxiliaries supply and
earthing.
SUGGESTED READING: Graingner & D Stevenson Jr.: POWER SYSTEM ANALYSIS Soni, Gupta & Bhatnagar: A COURSE IN ELECTRICAL POWER CL Wadhwa: ELECTRIC POWER SYSTEMS Ravindernath & Chander: POWER SYSTEMS PROTECTION AND SWITCHGEAR
Course Number: EEM702, Course Title: POWER SYSTEMS LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2006-07
Total Credits:2, Total pds. (55 mts each)/week:3 (L:0+T:0+P:3+S:0), Min. pds./sem.: 39
LIST OF EXPERIMENTS:
1. To determine Xd and Xq for salient pole alternator.
2. To determine the Positive, Negative and Zero Sequence reactance of a synchronous machine.
3. To determine the transient, sub-transient and synchronous impedance of a synchronous
machine
4. To draw the power angle curve of a synchronous m/c.
5. To verify the IDMT characteristics of an over voltage relay.
To determine the positive (+ve), negative (-ve) and zero sequence impedance of a x-mer.
3 November 2016 (11)
Course Number: EEM703, Course Title: COMMUNICATION ENGINEERING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2006-07
Total Credits:3, Total pds. (55 mts each)/week:4(L:3+T:1+P:0+S:0), Min. pds./sem.: 52
UNIT 1: AMPLITUDE MODULATION
Review of Modulation Theorems in Fourier Transforms. Baseband and Carrier Communication. DSB,
AM, SSB, and VSB systems. Carrier acquisition, Superhetrodyne, AM receiver, Television.
UNIT 2: ANGLE MODULATION & SAMPLING AND PULSE CODE MODULATION
Angle Modulation: Concept of instantaneous frequency, Bandwidth of Angle Modulated waves.
Generation of FM waves. Demodulation of FM signals. Interference in Angle Modulated Systems. FM
Receiver.
Sampling & Pulse Code Modulation: Sampling Theorem. The interpolation formula for signal
reconstruction. Aliasing. Pulse Code Modulation. Differential Pulse Code Modulation. Delta
Modulation.
UNIT 3: DIGITAL DATA TRANSMISSION
Digital Communication system. Line coding. Pulse shaping. Scrambling. Regenerative repeater.
Digital Carrier Systems. Digital Multiplexing.
UNIT 4: RANDOM SIGNALS & PROCESSES, PROBABILITY DISTRIBUTION AND DENSITY FUNCTIONS
Statistical Independence, Random & Stochastic Processes, Stationary & Ergodic Processes, Auto
and Cross-Correlation Spectral Density and its relation with auto-correlation, Mean-Square value,
White Noise, Gaussian Processes, Response of Linear Systems to Random inputs.
UNIT 5: BEHAVIOUR OF ANALOG & DIGITAL SYSTEMS IN THE PRESENCE OF NOISE
AM and FM systems. Pre-emphasis and De-emphasis in FM/PM systems. Pulse modulated systems.
Optimum threshold detection. Carrier systems- ASK, FSK, PSK, and DPSK.
SUGGESTED READINGS: BP Lathi: MODERN DIGITAL AND ANALOG COMMUNICATION SYSTEMS Taub & Schilling: PRINCIPLES OF COMMUNICATION SYSTEMS K Sam Shanmugam: DIGITAL AND ANALOG COMMUNICATION SYSTEMS S Haykin: COMMUNICATION SYSTEMS
Course Number: EEM704, Course Title: COMPUTER TECHNOLOGY LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:2, Total pds. (55 mts. each)/week:3(L:0+T:0+P:3+S:0), Min. pds./sem.: 39
List of Experiments
1. Familiarization with the parts of a computer.
2. Familiarization and Understanding of PC Processors (Intel, AMD, Cyrix, etc.) and their features.
3. Familiarization with different types of Motherboards, Memories & Storage Devices.
4. Familiarization and Understanding of Scanner, different types of Printers (impact & non-impact
printers) and Modems.
5. Assembling a PC.
6. General Maintenance of a PC.
7. Design and implementation of a sequence generator.
8. Design and implementation of an arbitrary sequence detector.
9. Study and use of a 4-bit comparator IC 7485.
10. Implementation of an 8-bit comparator by cascading two 4-bit comparators.
11. Study and implementation of a 4x4 First In First Out (FIFO) buffer.
Course Number: EEM705, Course Title: ELECTRICAL ENGINEERING PROJECT I
Class: B.Tech., Status of Course: HALF COURSE,, Approved since session: 2015-16
Total Credits:3, Periods (55 mts. Each)/week:3(L:3+T:0+P:0+S:0), Min.pds./sem.: 39
Project involves Design and Development of Hardware and Software of a given system under a
supervisor.
3 November 2016 (12)
Course Number: EEM706, Course Title: ELECTRO-MAGNETIC FIELD THEORY
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: ELECTROSTATICS
Coulomb's law, Gauss law and its applications. Electrostatic dipole. Energy of an Electrostatic
system. Capacitance. Dielectrics. Electrostatic boundary conditions. Laplace's equation. Methods of
images. Poisson's equation. Solution of Electrostatic problems in planar, cylindrical and spherical
geometries.
UNIT 2: ELECTRIC CURRENT & MAGNETOSTATICS
Derivation of Ohm's law. Equation of Continuity. Relaxation time. Resistance of arbitrary
conductors. Ampere's law. Biot-Savart's law. Forces in steady magnetic fields. Analogy between
Electric current and magnetic dipoles. Energy in a Magnetostatics system. Fields in conductors and
magnetic materials.
UNIT 3: TIME VARYING FIELDS & PLANE WAVES
Electromagnetic induction. Motional E.M.F. Self and Mutual Inductance. Displacement current.
Maxwell's equations. Wave equation and its solution. Sinosoidal Time variation. Plane waves.
Intinsic Impedance. Polarization. Reflection and refraction of plane waves at conductor and
dielectric boundaries at normal incidence. Poynting's vector.
UNIT 4: WAVEGUIDE FUNDAMENTALS
Basic Waveguide Operation, Plane Wave Analysis of the Parallel-Plate Waveguide, Parallel Plate
Guide Analysis using the Wave Equation, Rectangular Waveguides, Dielectric Waveguides.
UNIT 5: PRINCIPLES OF RADIATION AND ANTENNAS
Basic Antenna Principles, Hertzian Dipole, Radiation Resistance and Directivity, Linear Antennas,
Antenna Arrays, Aperture Antennas, Receiving Properties.
SUGGESTED READINGS: William Hayt: ENGINEERING ELECTROMATICS Corson & Lorrain: INTRODUCTION TO ELECTROMAGNETIC FIELDS & WAVES Jordan & Balmain: ELECTROMAGNETIC WAVES & RADIATING SYSTEMS
Course Number: EEM708 Course Title: COMMUNICATION LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:2, Periods (55 mts. each)/week:2 (L:0+T:0+P:2+S:0), Min.pds./sem.: 30
LIST OF EXPERIMENTS
1. To study MATLAB, especially Communication Tool Box & SIMULINK and make a brief report
about its capabilities to carry out experiments in Communication Engineering.
2. To simulate sampling theorem using MATLAB and study the effect of (a) Under sampling
(b) Change in the cut-off Frequency of Low-Pass Filter (LPF).
3. To study DSP Board DSK 6713, Code Composer Studio (CCS) and interfacing of the board with
computer.
4. To perform simple computation experiments on DSP Board, first through C-Code and then
downloading the same into the board.
5. To generate sine wave on DSP Board DSK 6713 by interfacing it with MATLAB/CCS.
6. To design an FIR Filter and implement the same on DSK 6713. Observe the response on CRO.
7. To design an IIR Filter and implement the same on DSK 6713. Observe the response on CRO.
8. To generate echo using DSK 6713 and observe the response for audio signal.
9. To implement modulation/demodulation schemes on hardware/kit (DSK 6713) and study the
effect of varying parametric such on modulation index & filter coefficients.
3 November 2016 (13)
Course Number: EEM710, Course Title: SOFTWARE DESIGN
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:5, Periods (55 mts. each)/week:5(L:4+T:1+P:0+S:0), Min.pds./sem.: 65
UNIT 1: INTRODUCTION TO SOFTWARE ENGINEERING
Software and software engineering, phases in software engineering, software engineering
paradigms- waterfall, prototype, Spiral model.
Structural Modeling Techniques: Basic Building Blocks – Objects and classes, Structural
Composition Techniques, Design Scaling issues.
Introduction to Unified Modeling Language
UML Behavioral Modeling Techniques: Use Case Diagrams, Interaction Diagrams, Event State
Diagrams, Action Matrices, Business Lifecycle Diagrams, Activity Diagrams, Collaboration Diagrams,
Rule Specification Techniques, Behavioral Model-Based Reference Architecture for Component
Specification, Component View and Deployment View.
Lab: Learning a Visual Modeling Tool
UNIT 2: SOFTWARE REQUIREMENTS & SPECIFICATION
Analysis tasks and the analyst, analysis principles, methods of information gathering; requirements
specification; characteristics, components, validation.
Structured Analysis: Methodology, data flow diagrams and data dictionary, SA extensions – ER
models and state transition diagrams
Object Oriented Analysis:
Lab: Using CASE Tools for Requirements Analysis
UNIT 3: SOFTWARE DESIGN
System Design: Objectives, principles, modular design, common design heuristics; modules
specifications, verification, metrics
Structured Design Methodology: Structure charts, transform analysis, transaction analysis, Detailed
design; procedural design, verification.
Object Oriented Design Methodology
Lab: Using CASE Tools for Software Design
UNIT 4: COADING AND TESTING
Coding: Programming practice, Structured Programming, Programming style, Internal
Documentation, verification; goals approaches;
Testing: Fundamentals, White Box testing: Statement Coverage, Edge Coverage, Condition
Coverage, Path Coverage Criterion; Black Box Testing Strategy; Levels of Testing: Unit Testing,
Integration Testing, System Testing and Acceptance Testing; Analysis – Reviews, walkthroughs,
Software Quality, Representative Quality Metrics.
Lab: Learning Software Testing Tools
UNIT 5: SOFTWARE PROJECT MANAGEMENT
The software management process: measuring software–size-oriented metrics and function
oriented metrics; cost estimation; decomposition techniques–LOC and FP estimation–an overview;
empirical estimation models–COCOMO and Putnam models–an introduction, staffing and personnel
planning, team structure; risk management–an overview; software configuration management;
quality assurance plans project monitoring plans.
Lab: Using COCOMO- I and COCOMO-II software
SUGGESTED READINGS:
Jalote P.: AN INTEGRATED APPROACH TO SOFTWARE ENGINEERING, Narosa. James Rumbaugh etal: “OBJECT ORIENTED MODELING AND DESIGN”, PHI. Booch Grady: “OBJECT ORIENTED ANALYSIS & DESIGN WITH APPLICATION 3/E”, Pearson Education, New Delhi. Pressman RS: SOFTWARE ENGINEERING: A PRACTITIONER’S APPROACH, McGraw Hill. Fairley RE: SOFTWARE ENGINEERING CONCEPTS, McGraw Hill. Maryhauser AV: SOFTWARE ENGINEERING METHODS AND MANAGEMENT, Academic Press. Yourdon E: MODERN STRUCTURED ANALYSIS AND DESIGN, Prentice Hall. IEEE TRANSACTIONS ON SOFTWARE ENGINEERING, IEEE Software.
3 November 2016 (14)
Course Number: EEM711, Course Title: ELECTRICAL MACHINE DESIGN
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:5, Total pds. (55 mts each)/week:5 (L:5+T:0+P:0+S:0), Min. pds./sem.: 65
UNIT 1: DESIGN PARAMETERS [14 Pds]
Design factor, Magnetic material, Property and type of Insulating, materials, Construction of
Rotating Machines. Cooling of Rotating Machines, Choice of Electrical and Magnetic Loading.
UNIT 2 : TRANSFORMER CONSTRUCTION [11 Pds]
Construction of Core type and Shell type Transformer, Distribution and Power Transformer, Core
cross-section, Transformer Winding Cooling method for Transformer, Transformer Tapping, Output
Equation for Core & Shell Type Transformer, Variation of output with linear dimensions.
UNIT 3: TRANSFORMER DESIGN [12 Pds]
Main dimension, core design, window design, winding resistance and leakage reactance, no-load
current, iron losses and copper losses, efficiency regulation, temperature rise, tank design.
UNIT 4: INDUCTION MACHINE DESIGN [14 Pds]
Output equation, Main Dimension, turn per phase, siator slot, siator teeth, srator eore, air-gap,
rotor slot, rotor teeth, rotor bartend ring, rotor teeth, rotor core, no-load current winding
resistance, leakage reactance, dispersion coefficient, losses, efficiency, harmonic reduction,
Temperature Rise.
UNIT 5: SYNCHRONOUS MACHINE DESIGN [14 Pds]
Output equation, Main Dimension, Short circuit ratio, Shape of pole Faces, armature turn per
phase. Leakage reactance, regulation, fields poles field winding, losses, efficiency, Temperature
Rise.
SUGGESTED READING: M.G. SAY: PERFORMANCE AND DESIGN OF AC MACHINES A.K. Sawhney: ELECTRICAL MACHINE DESIGN. R.K. Agarwal: ELECTRICAL MACHINE DESIGN. J & P TRANSFORMER BOOK.
Course Number: EEM712, Course Title: DIGITAL DESIGN
Class: B.Tech., Status of Course: Major, Approved since session: 2011-12
Total Credits:5, Total pds. (55 mts each)/week:5 (L:5+T:0+P:0+S:0), Min. pds./sem.: 65
UNIT 1: INTRODUCTION
Logic families and their salient features, specifications. Fan-in, Fan-out Considerations, Noise
Margins Propagation Delays, Wires, Inter-Connect parameters, Capacitance, Resistance &
Inductance.
UNIT 2: DESIGNING COMBINATIONAL LOGIC GATES IN CMOS
CMOS Inverter, Evaluating robustness of the CMOS inverter; Dynamic behavior static CMOS
Design, Complementary CMOS. Ratioed Logic, Pass Transistor Logic. Dynamic CMOS Design; basic
principles.
UNIT 3: DESIGNING SEQUENTIAL LOGIC CIRCUITS
Timing metrics for sequential circuits, Classification of Memory elements. Static Latches and
Registers. Multiplexer Based latches. Low voltage static latches. Dynamic Latches and Register;
Transmission- Gate Edge Triggered Registers. C²MOS- a clock-skew insensitive approach.
UNIT 4: VHDL PROGRAMMING
VHDL: Introduction. Structure and components. Behavioural, structural models. Concurrent,
sequential parts. Data types. Subprograms and packages.
UNIT 5: XILINX FOUNDATION SERIES SOFTWARE
Introduction. Overview of the package. Implementation of digital designs using XILINX foundation
series software.
SUGGESTED READINGS: JM Rabaey, A Chandrakasan, & B Nikolic: DIGITAL INTEGRATED CIRCUITS: A DESIGN PERSPECTIVE RC Jaeger: MICROELECTRONIC CIRCUIT DESIGN
VA Pedroni: CIRCUIT DESIGN WITH VHDL
3 November 2016 (15)
Course Number: EEM715, Course Title: COMPUTER METHODS IN POWER SYSTEMS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2008-09
Total Credits:3, Total pds. (55 mts each)/week:3 (L:3+T:0+P:0+S:0), Min.pds./sem.: 39
UNIT 1: LOAD FLOW ANALYSIS
Introduction, Network model formulation, YBUS formulation, ZBUS formulation, Load flow problem,
Gauss-Seidel methods, Newton Raphson method, Decoupled load flow, Fast decoupled load flow,
Comparison of load flow methods, control of voltage profile, Load flow under power electronic
control, impact of load and tap changers.
Unit 2: AUTOMATIC GENERATION CONTROL
Elementary concept of voltage-VAR and load frequency control, load frequency control elements,
voltage control elements, tie line flow, real and reactive power control loops in generation.
UNIT 3: INTRODUCTION TO STATE ESTIMATION IN POWER SYSTEM
Power systems state estimation, maximum likelihood concept, weighted least square state
estimation techniques, introduction to detection and identification of bad measurement, network
observability.
Unit 4: OPTIMAL OPERATION OF ELECTRIC POWER SYSTEM
Introduction of Unit commitment and Economic Load Dispatch, Optimal Power Flow, Modeling of
fuel cost for thermal generation, Optimal operation of all thermal systems, equal incremental cost
loading, accounting for transmission losses, security constrained optimization.
Unit 5: FLEXIBLE AC TRANSMISSION SYSTEMS
Concept of reactive power support and voltage stability, Compensation at bus and over a line,
synchronous condenser, SVC, Static phase shifter, Statcon.
SUGGESTED READINGS: T Gonen: ELECTRIC POWER TRANSMISSION SYSTEM ENGINEERING, John Wiley & Sons, 1988. IJ Nagrath & DP Kothari: POWER SYSTEMS ENGINEERING, Tata McGraw Hill, 1994. Glover & Sharma: POWER SYSTEM ANALYSIS AND DESIGN, 2e, PWS Publishing Company, 1994. AJ Wood & BF Wollenberg: POWER GENERATION, OPERATION AND CONTROL,John Wiley & Sons, NY, 1996. Arrilaga & Arnold: COMPUTER ANALYSIS OF POWER SYSTEMS, John Wiley & Sons, 1990. FC Schwappe, MC Caramanis, PD Tabors & RE Bohn: SPOT PRICING OF ELECTRICITY, Kluwer Academic Publishers, 1988. M.E.El. Hawary: ELECTRICAL POWER SYSTEMS-DESIGN AND ANALYSIS, Reston Publishing Inc., Virginia.
Course Number: EEM716, Course Title: COMPUTER AIDED NETWORK DESIGN
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Total pds. (55 mts each)/week:3 (L:3+T:0+P:0+S:0)Min. pds./sem.: 39
UNIT 1: INTRODUCTION
Introduction to solution of linear equations. Gaussian elimination and LU Factorization techniques
for matrix inversion. Pivoting for simplifying analysis of Sparse Matrices.
UNIT 2 : NODAL ANALYSIS
Nodal analysis of Linear Networks. Sparse Tableau analysis. Modified Nodal analysis. Network
reduction techniques. Comparison of computational requirements of various methods.
UNIT 3: COMPUTER AIDED ANALYSIS
Computer aided analysis of networks containing non-linear elements like Diodes and Transistors.
UNIT 4: NETWORK FORMULATION
Companion Network formulation for linearization. Analysis of networks with energy storage
elements.
UNIT 5: SENSITIVITY ANALYSIS
Sensitivity analysis by Incremental Network approach. Review of Tellegen’s Theorem. Adjoint
network approach for sensitivity analysis of linear and non-linear energy storage elements and two
port networks.
SUGGESTED READINGS: Donald Callahan: COMPUTER AIDED NETWORK DESIGN
3 November 2016 (16)
Course Number: EEM717, Course Title: SEMICONDUCTOR CONTROLLED DRIVES
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Total pds. (55 mts. each)/week:3(L:3+T:0+P:0+S:0), Min.pds./sem.: 39
UNIT 1: PERFORMANCE PARAMETERS
DC motor performance parameters and input supply performance parameters.
Single phase separately excited dc motor drives: Continuous and discontinuous armature current,
general analysis, performance evaluation.
DC series motor drives: waveforms, defining equations performance characteristics.
UNIT 2: POWER FACTOR IMPROVEMENT, DUAL CONVERTER AND DC CHOPPER DRIVES
Power factor improvement: phase angle control, extinction angle control, symmetrical angle
control, PWM control.
Dual converter: Ideal dual converter, non-ideal dual converter, circulating current, discontinuous
load current, firing control schemes and their comparative study.
DC chopper drives: Chopper control of dc motor, mathematical analysis of chopper fed dc drives.
UNIT 3: CLOSE LOOP CONTROL OF DC DRIVES
Transfer function of dc motor, close loop speed control and current control with proportional (P)
and proportional integral(PI) controllers, design of P & PI controller. Phase locked loop control of dc
motor.
UNIT 4: VSI FED AC DRIVES AND PWM TECHNIQUES
Comparative study of variable voltage variable frequency sources for ac drives. Speed control of
induction motor by VSI, constant v/f control.
PWM inverter: sinusoidal PWM, harmonic elimination method, minimum current ripple method,
adaptive current control, phase shift PWM.
UNIT 5: CSI AND LCI FED AC DRIVES
Current sources inverter fed induction motor drive. Load commutated inverter fed induction and
synchronous motor drive, starting drawback of load commutated inverter fed induction and
synchronous motor drives. Auto sequential commutated inverter, design and operation.
SUGGESTED READINGS: PC Sen: THYRISTOR DC DRIVES BK Bose: POWER ELECTRONICS AND AC DRIVES BK Bose: ADJUSTABLE SPEED AC DRIVES GK Dubey: ADVANCED POWER SEMICONDUCTOR DRIVES
3 November 2016 (17)
Course Number: EEM719, Course Title: VLSI DESIGN TECHNIQUES
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Total pds. (55 mts each)/week:3(L:3+T:0+P:0+S:0), Min. pds./sem.: 39
[SAME AS PHM911]
UNIT 1: MOSFET DESIGN FUNDAMENTALS
MOS Transistor Fundamentals: MOS structure and operation, C-V characteristics, scaling and small
geometry effects, capacitances. SPICE Modeling of MOS transistors and their comparisons.
Fabrication of MOS: Fabrication Process flow, CMOS n-well process, Layout design rules, Full
custom Mask layout design.
CMOS inverters: Static characteristics. Switching characteristics and interconnect effects. Power
dissipation. Super buffer design. Low power design fundamentals.
UNIT 2: STATIC CMOS DESIGN
Static CMOS Logic: Combinational complex logic circuits, transmission gate logic. Sequential logic
circuits, bistable elements, SR latch, clocked flip flops.
Input-Output circuits: ESD protection, Latch and its prevention, Design of bi-directional I/O pads.
Clock generation and distribution.
UNIT 3: DYNAMIC CMOS DESIGN
Dynamic CMOS Logic: Pass transistor principles, voltage bootstrapping, charge sharing,
synchronous dynamic circuits, high performance dynamic CMOS circuits.
Semiconductor memories: SRAM, DRAM(6-T, 3-T, 1-T), operation principles, read write cycles,
sense amplifiers.
UNIT 4: VLSI DESIGN METHODOLOGIES
VLSI Design flow (Y-chart), hierarchy, regularity, modularity and locality.
VLSI design styples: Standard Cell, PLA, MUX-based, Sea of Gates and Gate Array, PLD, FPGA.
CAD tools: Layout tools, Simulation and verification tools. Synthesis tools.
Introduction to HDL: Instruction set of HDL and exercises for programming ASIC/FPGA/CPLDs.
UNIT 5: DESIGN FOR TESTABILITY
Design quality: testing yield, manufacturability, reliability. Manufacturing test faults, Fault models,
Observability, controllability. Scan based techniques, BIST techniques, IDDQ technique.
SUGGESTED READING: NHE Weste & K Eshraghian: PRINCIPLES OF CMOS VLSI DESIGN SM Kang & Y Leblebici: CMOS DIGITAL INTEGRATED CIRCUITS RJ Baker, HW Li & D Boyce: CMOS-CIRCUIT DESIGN, LAYOUT AND SIMULATION J Rabaey: DIGITAL INTEGRATED CIRCUITS-A DESIGN PERSPECTIVE M Abramovici, MA Breuer & AD Friedman: DIGITAL SYSTEMS TESTING & TESTABLE DEISGN J Bhaskar: VHDL PRIMER Sameer Palnitkar: VERILOG HDL
Course Number: EEM720, Course Title: COMPUTER NETWORKS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:3, Total pds. (55 mts each)/week:3(L:3+T:0+P:0+S:0), Min. pds./sem.: 39
UNIT 1: INTRODUCTION [8 pds]
Evolution and uses of Computer Networks, Network structure, concepts of data transmission,
Analog and digital data transmission. Transmission Media: Twisted pair, Coaxial cable, Optical
Fibre, Terrestrial and Satellite Microwave, Radio.
UNIT 2: THE OSI REFERENCE MODEL [8 pds]
Design Issues for various layers, OSI Layers and their functions, Data Transmission in OSI Model,
OSI Terminology. Delay models in Networks, Little’s Theorem, M/M/1 queues.
UNIT 3: MEDIUM ACCESS SUBLAYER [7 pds]
Static and Dynamic channel allocation in LANs, CSMA, CSMA/CD. IEEE Standard 802.3, 802.4,
802.5, Comparison of 802 standards. Link level control (IEEE802.2): Stop and wait and sliding
window protocols, Error control.
UNIT 4: NETWORK LAYER [8 pds]
Design issues, Routing Algorithms, Congestion control algorithms, Internetworking: Bridges,
Gateways, Internet Protocol (IP).
UNIT 5: TRANSPORT LAYER [8 pds]
Design Issues, services provided to the Session layer, Quality of Service. Transport Protocols: TCP
and UDP, Applications: TELNET, FTP, E-Mail, www.
SUGGESTED READING: AS Tanenbaum: COMPUTER NETWORKS W Stallings: DATA AND COMPUTER COMMUNICATIONS Gallagher and Bertsekas: DATA NETWORKS
3 November 2016 (18)
Course Number: EEM721, Course Title: POWER SYSTEMS MANAGEMENT
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2009-10
Total Credits:3, Total pds. (55 mts each)/week:3 (L:3+T:0+P:0+S:0), Min. pds./sem.: 39
UNIT 1: THE CONCEPT AND METHODS OF DEMAND SIDE MANAGEMENT
Load control, Energy efficiency, Load management, DSM Planning, Design marketing, Impact
assessment.
UNIT 2: CUSTOMER LOAD CONTROL
Direct, distributed and local control, interruptible load, configuration of control systems for load
control, assessment of impact on load shape.
UNIT 3: DISTRIBUTION SYSTEMS AND ITS FEATURES
Distribution system, distribution primary feeders, bus-bar arrangements, Unit substations. Power
Quality, voltage drop and solutions to improve voltage drops, line loss definitions, calculations of
line losses, functions of capacitors and its placements.
UNIT 4: POWER SYSTEM HARMONICS
Harmonic Analysis, harmonic sources- the static converters, transformer magnetization and non-
linear ties, rotating machines, arc furnaces, fluorescent lighting. Harmonic effects and elimination.
UNIT 5: SYSTEM MONITORING
Computer Aided Systems Monitoring and Communication, SCADA and System Monitoring,
Architecture and functions of Energy Management Systems and Control Centres, Communication
Requirements.
SUGGESTED READINGS: CW Gellings & JH Chamberline: DEMAND SIDE MANAGEMENT-CONCEPTS & METHODS, Fairmont Press, 1988. CW Gellings & JH Chamberline: DEMAND SIDE MANAGEMENT PLANNING, Fairmont Press, 1993. CO Bjork: INDUSTRIAL LOAD MANAGEMENT- THEORY, PRACTICE AND SIMULATIONS, Amsterdam, 1989. DR Limaye & V Rable: INTERNATIONAL LOAD MANAGEMENT-METHODS TO PRACTICE, Fairmont Press, 1988.
Course Number: EEM722, Course Title: DIGITAL IMAGE PROCESSING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2011-12
Total Credits:3, Total pds.(55 mts each)/week:3(L:3+T:0+P:0+S:0)Min. pds./sem.: 39
UNIT 1: IMAGE FUNDAMENTALS
Visual perception by human eye, Brightness Adaptation and Discrimination, Image Models,
Sampling and quantization, Colour models, File formats.
UNIT 2: IMAGE ENHANCEMENT IN SPATIAL DOMAIN
Point Operations: Image negative, contrast stretching, Brightness, Grey level slicing, Bit plane
slicing, Histogram Processing.
Spatial Operations: Smoothing filters, Median Filter, Sharpening filters, High boost filtering,
derivative filtering, Robert, Previtt, Sobel operators, Second order derivatives, Laplacian Mask.
UNIT 3: IMAGE ENHANCEMENT IN FREQUENCY DOMAIN
Review of Fourier Transforms, Discrete Fourier Transforms, 2-dimensional DFT, Low pass
(smoothing) filters, High pass filters.
UNIT 4: IMAGE SEGMENTATION
Point detection, line detection, edge detection, combined detection, Edge linking and boundary
detection-Hough transforms, Thresholding.
UNIT 5: IMAGE COMPRESION
Fundamentals: Coding redundancy, Inter-pixel redundancy, Psycho-visual redundancey, Fedility
criterion.
Compression Models: Source encoder and decoder, Channel encoder and decoder.
Lossless compression: Variable length coding, bit plane coding, lossless predictive coding.
Lossy compression: Lossy predictive coding, Transform coding.
SUGGESTED READINGS: RC Gonzalez & RE Woods: DIGITAL IMAGE PROCESSING, Pearson Education AK Jain: FUNDAMENTALS OF DIGITAL IMAGE PROCESSING, PHI COMPUTER VISION HOME PAGE: Http://www.cs.cmu, edu/~cil/txtvision. html
3 November 2016 (19)
Course Number: EEM723, Course Title: SYSTEM LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:2, Total pds. (55 mts. each)/week:2 (L:0+T:0+P:2+S:0), Min. pds./sem.: 26
LIST OF EXPERIMENTS
1. Familiarization with the Ethernet cable colour code standards and crimping of straight and
cross cables.
2. Familiarization with the IP Addressing Schemes.
3. Configuring and testing the LAN.
4. Configuring a Wireless Router, setting up and testing a Wireless Lan.
5. Learning Router Configuration using Router Simulator.
6. Socket Programming:
(i) Looking up Internet Addresses.
(ii) Testing the characteristics of an IP address.
(ii) Write a program to trace the port of a particular host.
(iv) Write a program to implement the daytime protocol.
(v) Write a program to implement the echo client.
(vi) Demonstration of TCP/IP protocol.
(vii) Implementation of a chat server using TCP/IP
7. Implementation of Apache server and web hosting.
8. Implementation of a simple client-server program using C/ Java.
Course Number: EEM724, Course Title: FUZZY SYSTEMS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2004-05
Total Credits:3, Periods (55 mts. each)/week:3(L-+T-0+P/S-0), Min.pds./sem.: 39
UNIT 1: INTRODUCTION
Introduction to fuzzy concepts; fuzzy systems; modelling vague, imprecise and uncertain
information; comparison of binary logic and fuzzy logic; historical development of fuzzy logic.
UNIT 2: BASICS OF FUZZY SET THEORY
Introduction to fuzzy sets; representation of fuzzy sets; fuzzy set theory; basic operations on fuzzy
sets like union, intersection, complementation, compensation, intensification, dilation and
concentration; methods for drawing membership functions.
UNIT 3: FUZZY LOGIC AND APPROXIMATE REASONING
Uncertainty measure; fuzzy logic and resolution principle; fuzzy modus ponens; knowledge
representation; truth tables and linguistic approximations.
UNIT 4: FUZZY CONTROL
Introduction to fuzzy control; comparison of fuzzy and classical controllers; design parameters of
fuzzy controllers; optimisation of fuzzy controllers.
UNIT 5: OTHER APPLICATIONS
Applications of fuzzy systems in various domains including decision making, system identification
modelling and simulation.
SUGGESTED READINGS R Kruse, Gebhart and F Klawonn: FOUNDATION OF FUZZY SYSTEMS
HJ Zimmerman: FUZZY SET THEORY AND ITS APPLICATIONS
GJ Klir and TA Folger: FUZZY SETS, UNCERTAINTY AND INFORMATION
AT Ross: FUZZY SYSTEMS AND ITS ENGINEERING APPLICATIONS
B Kosoko: NEURAL NETWORKS & FUZZY LOGIC SYSTEMS: DYNAMIC SYSTEMS APPROACH TO MACHINE INTELLIGENT
3 November 2016 (20)
Course Number: MEM701, Course Title: MECHANICS OF MACHINES II
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2012-13
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem: 52
UNIT 1: MECHANICAL VIBRATIONS - SINGLE DEGREE
Review of systems with damping. Harmonic excitation. Viscous & coulomb damping.
Transmissibility. Measuring instruments. Vibration isolation.
UNIT 2: 2-DEGREE SYSTEMS
Simple systems. Torsional systems. Forced vibration. Vibration absorbers.
WHIRLING OF SHAFTS: Shafts with single disc without damping. Vibration of 2 rotor, 3 rotor and
geared systems.
UNIT 3: VIBRATION ANALYSIS:-NUMERICAL METHODS
Rayleigh’s, Dunkerley’s and Holzer’s methods (only applications of formulas for problem solving)
GYROSCOPIC ACTION: Review of Euler’s equation of motion. Precession of a symmetric rotor. Gyro
dynamics (Unsymmetrical gyroscope to be excluded). Gyroscopic effects in machines. Gyroscopic
stabilisation.
UNIT 4: BALANCING
Static and dynamic balancing of rotating masses in a single plane and in more than one plane.
Locomotive balancing. Primary, secondary balancing of multi-cylinder in-line engines. Direct and
reverse crank method. Applications to V and radial engines.
UNIT 5: CAMS
Classification of cams and followers. Nomenclature. Cam profile synthesis. Follower motion
analysis. Cams with specified contours.
SUGGESTED READINGS: Ghosh Mallik: THEORY OF MECHANISMS AND MACHINES PL Ballaney: THEORY OF MACHINES GK Grover: MECHANICAL VIBRATIONS Shigley: THEORY OF MACHINES Tse Morse Hinkle: MECHANICAL VIBRATIONS-THEORY & APPLICATIONS Bevan: THEORY OF MACHINES
Course Number: MEM702, Course Title: MECHANICS OF MACHINES LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:1, Periods (55 mts. each)/week:2(L:0+T:0+P:1+S:1), Min.pds./sem.: 26
List of Experiments.
1. Vibration Exciter.
2. Universal Vibration Apparatus.
3. Gyroscope.
4. Universal Governor.
5. Whirling of Shafts.
6. Balancing Apparatus.
3 November 2016 (21)
Course Number: MEM703, Course Title: REFRIGERATION AND AIR CONDITIONING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: REFRIGERATION
Introduction. Methods of Refrigeration (change in phase, expansion of liquids, adiabatic expansion
of a gas, thermoelectric cooling, adiabatic demagnetization, ice refrigeration, evaporative
refrigeration, steam jet refrigeration). Carnot refrigeration cycle, COP, concept of heat pump, Unit
of refrigeration Capacity. Applications of refrigeration.
Air refrigeration: Air refrigeration cycle. Bell Coleman air refrigerator, Advantages of using air
refrigeration in Aircraft. Simple, Bootstrap, Regenerative and reduced ambient type systems.
Performance of air refrigeration systems, Comparison of different air cooling systems for aircraft.
UNIT 2: SIMPLE VAPOUR COMPRESSION CYCLE
Simple vapour compression refrigeration system, different compression processes (wet, dry and
saturated compression, super heated compression), Coefficient of performance with and without
superheating and under-cooling. Compressor volumetric efficiency. Application of T-S diagram and
P-H charts. Effects of operating conditions on the performance of the system. Advantages and
disadvantages of vapour compression system over air refrigeration system.
Important refrigerants, nomenclature and their properties. Insulating materials and their properties
and applications. Leak detection. Charging of refrigerants.
UNIT 3: COMPOUND VAPOUR COMPRESSION SYSTEM
Methods of improving COP, flash chamber, flash inter cooler, Compound vapour compression
system with and without inter-cooling for single and multi evaporators. Cascading. Manufacturing of
dry ice. Refrigeration equipment-expansion/throttling devices. Refrigeration load calculations.
Absorption system: Simple and improved absorption systems. COP of absorption system, Electrolux
system, Lithium bromide water absorption system.
UNIT 4: PSYCHROMETRY
Psychrometric properties of air. Adiabatic saturation temperature. Psychrometric charts. Locating
state points. Process of heating, cooling, humidification and de-humidification on charts. Chemical
de-humidification.
AIR CONDITIONING: Factors affecting air conditioning systems. Industrial and comfort air
conditioning. Human requirements of Comfort. Comfort charts. Ventilation requirements.
Applications of air conditioning, Automotive Air-Conditioning.
UNIT 5: EQUIPMENTS AND CONTROLS
Air conditioning equipments and system layout. Distribution of air through ducts, grills, filters, etc.
Simple automatic system for temperature and humidity using face and bypass damper and reheat
method.
INDUSTRIAL AND COMMERCIAL APPLICATION: Transport air conditioning, evaporative condensers,
cooling towers, heat pumps. SUGGESTED READING: S Domkundwar & SC Arora: A COURSE IN REFRIGERATION & AIR CONDITIONING Stoecker: REFRIGERATION AND AIR CONDITIONING Manohar Lal: REFRIGERATION AND AIR CONDITIONING Sparks & Dillo: MECHANICAL REFRIGERATION CP Arora: REFRIGERATION AND AIR CONDITIONING
Course Number: MEM704, Course Title: THERMAL ENGINEERING LAB. II
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:1, Periods (55 mts. each)/week:2(L:0+T:0+P:1+S:1), Min.pds./sem.: 26
1. Study of Heat pump.
2. Study of refrigerators sealed unit and open unit.
3. Study of AC tutor
4. To determine COP of house hold refrigerator.
5. To determine COP of AC tutor.
6. Study of ice plant and cold storage.
7. Study of cooling tower.
3 November 2016 (22)
Course Number: MEM705, Course Title: POWER PLANT ENGINEERING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits:3, Periods (55 mts. each)/week:5 (L:3+T:1+P:0+S:1), Min.pds./sem: 65
UNIT 1: INTRODUCTION
Power and energy, Background of power study, Sources of energy
DIESEL POWER PLANT
General layout, Site selection of diesel power plant, Components of diesel power plant, Performance
of diesel power plant, Fuel feed system, Fuel storage, Lubrication system, Diesel plant operation,
efficiency and maintenance.
UNIT 2: THERMAL POWER PLANT
Layout of plants, Handling of coal, Pulverization of coal, Burners, Stokers, Feed water treatment,
Ash disposal, Water walls, Flue gas treatment. Combined cycle and Cogeneration cycle.
UNIT 3: NUCLEAR POWER PLANT
Layout, types of reactors, Fuel elements, Moderator, Heat exchangers, Coolant and cooling system,
Shielding problems, Waste disposal, Fuel enrichment, Comparative study with steam, diesel and
other power plants.
NON-CONVENTIONAL SOURCES OF ENERGY
Brief idea of solar, wind, tidal and geothermal energy, Coal gasification, Fuel cells, Clean coal
technology. Integrated gasification combined cycle (IGCC).
UNIT 4: POWER PLANT ECONOMICS
Choice of type, Capacity, Load curve, Demand Diversity, Plant capacity factor, Power plant
economics and tariffs, Initial and running costs, Load division, Heat and incremental rate curve,
Sharing of load.
UNIT 5: AIR POLLUTION (Industrial & Vehicular)
Introduction to air pollution, Pollutants and their formation, Pollution from Gasoline engines, Effect
of mode of operation on emissions Gasoline engine emission control, Diesel engines, Emissions and
their control, Instruments for measurement of Pollutants, Emission standards for Transportation
vehicles, Engines, Industries. SUGGESTED READINGS: PK Nag: Power Plant Engineering
Morse FT: POWER PLANT ENGINEERING R Yadav: Steam & Gas Turbines and Power Plant Engineering Vopat: POWER PLANT ECONOMICS
Course Number: MEM706, Course Title: MECHANICAL ENGINEERING DESIGN II
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2010-11
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem: 52
UNIT 1: PRESSURE VESSELS & SPRINGS
Pressure Vessels: Cylinders, pipes and tubes. Cylinder heads. Cover plates. Pipe joints.
Springs: Helical compression and extension springs. Surge. Concentric helical springs. Torsion
helical springs. Leaf springs.
UNIT 2: BEARINGS & LUBRICATION
Introduction, Lubrication theory, Material Combinations. Rolling-element bearings. Comparison with
sliding bearings. Types of rolling-element bearings. Basic static and dynamic load ratings. Radial
and thrust loads. Selection of rolling element bearings.
UNIT 3: GEAR DESIGN
Introduction, Spur gears. Nomenclature, Materials, Design, Helical gears, Bevel gears. Wormsets.
Indian standards.
UNIT 4: IC ENGINE PARTS
Piston, Connecting rod, Valve gear mechanism.
UNIT 5: CAM DESIGN & PRODUCTION DESIGN
Introductory concepts of Design for manufacture and assembly, Design for environment and Design
for robustness.
SUGGESTED READINGS: Sadhu Singh: MACHINE DESIGN Khurmi Gupta: MACHINE DESIGN Pandya Shah: MACHINE DESIGN Sharma Agarwal: MACHINE DESIGN Patel & Pandya: MACHINE DESIGN Shigley: MACHINE DESIGN
3 November 2016 (23)
Course Number: MEM707, Course Title: MECHANICAL ENGG. DESIGN PRACTICE II
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2012-13
Total Credits:2, Periods (55 mts. each)/week:4(L:0+T:0+P:4+S:0), Min.pds./sem.: 52
Four or five of the following are designed & their assembly & detail drawing are made:
(1) Gear Box (2) Connecting Rod (3) Piston (4) Valve gear mechanism
(5) Combination Punch and shear machine (6) ARBOR Press (7) Car Puller.
Course Number: MEM708, Course Title: MANAGERIAL ECO. & INDUSTRIAL ORGAN.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2002-03
Total Credits:3, Periods (55 mts. each)/week:4 (L:3+T:1+P:0+S:0), Min.pds./sem: 52
UNIT 1: INTRODUCTION
Circular flow of economic activity, Nature of firm, Concept of economic profit, Economics and
decision making, Functional relationships and Economic Models; Total Average and Marginal
functions; Money, Bank and Exchange.
UNIT 2: DEMAND ANALYSIS
Meaning of demand. Type of demand. Determinants of demand. Demand elasticities. Factors
influencing demand.
UNIT 3: PRODUCTION FUNCTION
Input output relationship, Least cost combination of inputs, factor productivities and return to scale.
Managerial uses of production functions.
UNIT 4: COST ANALYSIS AND MARKET STRUCTURE
Economic concept of cost; Production and Cost; Cost functions. Perfect Competition; Monopoly;
Profit maximization price and output in short run and long run.
UNIT 5: PRICING
Definitions. Determinants of price. Pricing under different market structures. SUGGESTED READINGS: Mote VL & Paul Samuel: MANAGERIAL ECONOMICS CONCEPTS AND CASES DN Dwivedi: MANAGERIAL ECONOMICS Vasudevan & Ghosh: MANAGERIAL ECONOMICS HC Peterson & WC Lewis: MANAGERIAL ECONOMICS
Course Number: MEM711, Course Title: MACHINE TOOL DESIGN & CONTROL
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem: 52
UNIT 1: INTRODUCTION
Machine tool as an aid to production. General requirements of the machine tools.
DESIGN PRINCIPLES: Stiffness and rigidity of constructional elements. Materials for construction.
Static and dynamic stiffness. Static deformation of machine tool structure. Equations for thin walled
box structure. Deformation of bed of machine tool. Check for stiffness of a lathe bed. Static
stiffness of column of a milling machine. Design of power screws for machine tools.
UNIT 2: KINEMATICS OF MACHINE TOOLS
Standardization of spindle speed and feed rates. Layout of kinematic scheme of machine tools.
Design of stepped and stepless drives. Electrical, mechanical and hydraulic drives.
UNIT 3: DESIGN OF BEARINGS AND SLIDEWAYS
Slideways for tables. Saddles, Cross slides, Columns, their requirements. Forces in slideways. Wear
of slideways. Its effect on accuracy.Compensation of wear. Lubrication of bearings and slides.
Introduction to the design of antifriction and hydrostatic slideways.
UNIT 4: MACHINE TOOL CONTROLS
Functions of control system. Mechanical, hydraulic and electrical controls. Controls for slide and
feed movements.
UNIT 5: NUMERICAL CONTROL OF MACHINE TOOLS
Principles of numerical control. N.C. System. N.C. machines. Programming of N.C. machines.
Machining centres. SUGGESTED READINGS: Sen & Bhattacharya: PRINCIPLES OF MACHINE TOOLS VOL II Acherkan: MACHINE TOOLS DESIGN VOL. 1-4 Wilson Frank W: NUMERICAL CONTROLS IN MANUFACTURING Basu: MACHINE TOOLS DESIGN Koenigsberger: DESIGN PRINCIPLES OF METAL CUTTING MACHINE TOOLS
3 November 2016 (24)
Course Number: MEM712, Course Title: FOUNDRY ENGINEERING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
UNIT 1: SOLIDIFICATION
Effect of mould and mould variables on progressive and directional solidification. Heat transfer
through moulds and dies after pouring. Thermal gradients.
UNIT 2: MOULDING AND CORE MATERIALS
Comparative study of sands, clays and additives. Cavitated clays. Selection of materials for moulds,
cores and dies for various processes.
UNIT 3: DESIGN AND LOCATION OF GATES AND RISERS
Application of theory of gate and riser design to actual castings.
UNIT 4
MECHANIZATION IN FOUNDRY: Modern developments in mechanization of foundry. Modern
developments in foundry processes. Application of industrial engineering principles in foundry.
FLUIDITY: Measurement of fluidity. Effects of various parameters on fluidity.
TESTING OF SAND: Recent developments such as mulling index, mouldability index,
compactability, mould wall movements, etc.
UNIT 5
MELTING: Selection and control of melting furnaces. Melting, refining and pouring. Recent trends in
cupola design.
INSPECTION AND QUALITY CONTROL: Why and how to detect. Analysis of defects.
SUGGESTED READING: Hane Loper & Rosenthal: PRINCIPLES OF METAL CASTING Flinn: FUNDAMENTALS OF METAL CASTING
Course Number: MEM714, Course Title: GAS DYNAMICS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
BASIC CONCEPTS: The integral form of the equations of conservation of mass, momentum and
energy as applied to control volumes. Applications to steady, invescid, compressible one
dimensional flow. Adiabatic and isentropic flows. Karman’s rules of supersonic flows. Critical and
stagnation conditions.
SHOCK WAVES: Normal shock waves. Formation of shock waves. Governing equations. The
Rankine-Hugonict relations. The Prandtl relation. Shock strength. Very strong and weak shocks.
Propagating shock waves. Supersonic pitot tubes. Flow in shock tubes.
FLOW THROUGH NOZZLES AND DUCTS: Area velocity relationship. Isentropic flow of a perfect gas
through converging nozzle. Effect of friction of nozzle and diffuser performance. Normal shock
waves in nozzle and diffuser. Supersonic wind tunnel performance. Flow through constant area
ducts with friction but without heat transfer. Governing equations. Fanno lines. Critical length.
Effects of the increase of inlet Mach Numer and duct length. Choking due to friction. Performance of
long adiabatic ducts fed by converging and converging-diverging nozzles. Isothermal flow through
constant area ducts with friction Governing equation. Hypothetical critical length and limiting Mach
number. Change of isothermal to adiabatic flow as Mach Number approaches limiting value. Flow
through constant area ducts with heat transfer but without friction. Governing equations. Rayleigh
lines. Change in stagnation temperature due to heating and colling. Choking effects due to heating.
Generalised flow with friction. Heat transfer and variable area. Influence co-efficients.
SUGGESTED READING: Shapiro: THE DYNAMICS AND THERMODYNAMICS OF COMPERESSIBLE FLUID FLOW VOL. I Yaha: GAS DYNAMICS Liepman & Roshko: ELEMENTS OF GAS DYNAMICS Kaufmann: FLUID MECHANICS Pai: INTRODUCTION TO THEORY OF COMPRESSIBLE FLUID FLOW Cambel & Johnings: GAS DYNAMICS
3 November 2016 (25)
Course Number: MEM715, Course Title: THEORY OF ELASTICITY & PLASTICITY
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
STRESS AND STRAIN: 3-D Stress. Infinitesimal and finite strains. Strain-displacement
relationships. Compatibility.
STRESS-STRAIN RELATIONSHIPS: Elastic Constants, Stress and Displacement functions. Plane
problems in cartesian and polar coordinates.
ELEMENTS OF PLASTICITY: Theories of failure & Yield Criteria. Flow rule. Velocity field. Plastic
stress-strain relations. Incremental plasticity. Slip line field theory.
SUGGESTED READING: Timoshenbo & Goodier: THEORY OF ELASTICITY Borg: CONTINUUM MECHANICS Green & Zerna: THEORETICAL ELASTICITY Love: MATHEMATICAL THEORY OF ELASTICITY Hill: THEORY OF PLASTICITY Kachauov: FUNDAMENTAL OF THE THEORY OF PLASTICITY
Course Number: MEM716, Course Title: FINITE ELEMENT METHODS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem: 52
UNIT 1: GENERAL CONCEPTS & MATHEMATICAL PRELIMINARIES
Review of theory of Elasticity, Stress, Strain, Stress-Strain relations. Plane stress. Plane Strain.
Matrices and Matrix operation methods of solution of simultaneous equations. Brief history and over
view of finite element method. Shape functions & their derivation.
UNIT 2: DIRECT STIFFNESS METHOD
Introduction to direct stiffness method and its application to springs, electrical networks, flow in
pipes and bars. Truss analysis with direct approach. Determination of local element characteristics,
Assemblage of Global element characteristics, Application of the prescribed displacements and
loads & solution.
UNIT 3: VARIATIONAL FORMULATION
Introduction to boundary value problems and variational calculus. Variational approach to Boundary
value problems. The weak formulation. The Euler-Lagrange equation. One dimensional axial
deformation and heat conduction problems. Geometric and Natural boundary conditions.
UNIT 4: INTRODUCTION TO WEIGHTED RESIDUAL METHODS
Galerkin’s approach to one dimensional problems. Completeness requirements, Isoparametric
elements and concepts of numerical integration
UNIT 5: APPLICATION TO SOLID MECHANICS
Principle of virtual displacements, Plane stress and Plane strain problems, Axi-Symmetric and three
dimensional stress analysis.
SUGGESTED READINGS:
Paul Allaire: INTRODUCTION TO FINITE ELEMENT METHOD William B Bickford: FINITE ELEMENT METHOD
Frank L Stasa: APPLIED FINITE ELEMENT ANALYSIS FOR ENGINEERS Zinkiewicz OC: THE FINITE ELEMENT METHOD
Desal & Abel: INTRODUCTION TO THE FINITE ELEMENT METHOD Huebner KH: THE FINITE ELEMENT METHOD FOR ENGINEERS
Course Number: MEM717, Course Title: MECHANICS OF COMPOSITE MATERIALS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem: 52
UNIT 1: INTRODUCTION
Introduction, classification, difference in behaviour from conventional materials, Manufacturing
processes and materials used. Advantages
UNIT 2: LAMINA BEHAVIOUR
kStress strain relation. Engineering constants, restrictions on constants, stress strain relations in
principal directions and in general, strength. Micromechanical behaviour, determination of material
properties, rule of mixtures.
UNIT 3: LAMINATE BEHAVIOUR
Constitutive relations (A), (B) and (D) matrices. Behaviour of laminate based on values of (A), (B)
and (D) matrices. Symmetric laminates, Angle ply laminates, General laminates.
UNIT 4: TEST METHODS
Quality Assessment, Physical Properties, Mechanical Property, Characterization.
UNIT 5: FAILURE AND DAMAGE
Failure mechanism, failure theories, Laminate failure. Damage mechanisms.
SUGGESTED READINGS: RM Jones: MECHANICS OF COMPOSITE MATERIALS CT Herakovich: MECHANICS OF FIBROUS COMPOSITES
3 November 2016 (26)
Course Number: MEM719, Course Title: STOCHASTIC PROCESSES
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2009-10
Total Credits:3, Periods (55 mts. each)/week:4(L-3+T-1+P-0+S-0), Min.pds./sem: 52
UNIT 1: REVIEW OF PROBABILITY THEORY
Basic sample space and events. Probabilities defined on events. Conditional probability. Stochastic
independence. Bay’s theorem. Law of large numbers. Chebychev's inequality. The Central Limit
Theorem.
UNIT 2: RANDOM VARIABLES
Random variables. Probability mass function. Bernoulli, Binomial, Geometric and Poisson random
variables. Continuous Random variables. Probability density functions. Uniform, Exponential.
Gamma. Normal, Lognormal, Weibull & Beta random variables. Jointly distributed random
variables. Moment generating functions. Relationship between the exponential distribution & the
Poisson process.
UNIT 3: DISCRETE MARKOV CHAINS
Introduction. Chapman-Kolmogorov equations. Classification of states Limiting probabilities.
Branching processes. Time reveriable Markov chains. The Gambler's ruin problem. A model for
algorithmic efficiency. Markov decision processes and applications.
UNIT 4: CONTINUOUS MARKOV CHAINS
Introduction, Continuous-time Markov chains. Birth and death processes. Kolmogorov differential
equations. Limiting probabilities. Time reversibility. Transition probabilities. Applications in real life.
UNIT 5: BROWNIAN MOTION AND STATIONARY PROCESSES
Brownian motion. Variations on Brownian motion. Stationary and weakly stationary processes.
Applications in business/engineering.
SUGGESTED READINGS: A Papoullis: PROBABILITY, RANDOM VARIABLES AND STOCHASTIC PROCESS, McGraw Hill Book Co. S Ross: STOCHASTIC PROCESSES, John Wiley N.Y. 1983. S Ross: INTRODUCTION TO PROBABILITY MODELS, Academic Press, Fifth edition 1993. E Parzen: STOCHASTIC PROCESSES, Holden Day 1962 W Feller: AN INTRODUCTION TO PROBABILITY THEORY AND ITS APPLICATIONS, Vol.1, John Wiley 1957.
Course Number: MEM720, Course Title: MATERIALS MANAGEMENT
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2009-10
Total Credits:3, Periods (55 mts. each)/week:4(L-3+T-1+P-0+S-0), Min.pds./sem: 52
UNIT 1: INTRODUCTION
Introduction, Relevance of Materials Management, purchasing function, organization of purchase
department, deterministic models, EOQ, EPQ, discount, backlogging, multi-item models.
UNIT 2: SYSTEM OF INVENTORY
Basic system of inventory management, inventory costing, stock control system, ordering
procedure, cyclic reordering, reorder quantity, single period model, role of uncertainty, selective
inventory models.
UNIT 3: FORECASTING
Sales forecasting, inventory control.
UNIT 4: MRP AND JIT
MRP concepts, logic, implementation issues, JIT philosophy, Case studies.
UNIT 5: STORE ORGANISATION AND FUNCTION
Store keeping, function of store organization, location of store organization, centralized and
decentralized storing, vendor selection and evaluation, vendor relations, consolidation of vendor
base, e-procurement and internet based purchasing, organizational issues and evaluation of
materials function.
3 November 2016 (27)
Course Number: MEM721, Course Title: DESIGN & SIMULATION OF WORK SYSTEMS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits:3, Periods (55 mts. each)/week:4(L-3+T-1+P-0+S-0), Min.pds./sem: 52
UNIT 1: INTRODUCTION
A Science of Manufacturing; Descriptive vs. Prescriptive Models; Performance Measures of
Manufacturing Systems.
UNIT 2: BASIC FACTORY DYNAMICS
Basic definitions and Parameters; Simple relationships, Little’s Law; Bottleneck Rates and Cycle
Times; Labour Constrained Systems.
UNIT 3: INTRODUCTION TO SIMULATION MODELLING
Introduction to Simulation Modelling; Input data analysis. Data collection, parameter estimation,
distributional assumptions and hypothesis testing. Chi-square and Kolmogorov-Smirnov Goodness-
of-fit tests.
UNIT 4: SIMULATION MODELLING & ANALYSIS OF WORK SYSTEMS
Modelling and Analysis of Work Systems Using ARENA / SIMIO; Output data analysis of terminating
and non-terminating systems. Variance reduction techniques.
UNIT 5: DESIGN OF PUSH & PULL-BASED SYSTEMS
Key differences between Push & Pull-based Systems; Design of Push-based Systems using
Simulation; Design of Pull-based Systems (including CONWIP and Kanban) using Simulation.
SUGGESTED READINGS: JA White: PRODUCTION HANDBOOK, Wiley, 1987 TE Wollmann, WL Berry & DC Whybark: MANUFACTURING PLANNING AND CONTROL SYSTEM, McGraw Hill, 1997 WJ Hopp & ML Spearman: FACTORY PHYSICS, McGraw Hill, 2000 WD Kelton, RP Sadowski & NB Swets: SIMULATION WITH ARENA, McGraw Hill, 2000
Course Number: MEM722, Course Title: DESIGN & SIMULATION OF WORK SYSTEMS LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits:2, Periods (55 mts. each)/ week:4(L-0+T-0+P:4+S-0), Min.pds./sem.: 52
• Simulation modelling and analysis of Single / Multi-Server Queuing Systems.
• Verification of Little’s Law in simple / complex production/work systems.
• Design and analysis of simple / complex production work systems using ARENA/SIMIO.
• Simulation modelling and analysis of Pull/Push-based Manufacturing Systems using ARENA/
SIMIO.
Course Number: MEM723, Course Title: INDUSTRIAL KINESIOLOGY
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2012-13
Total Credits:2, Periods (55 mts. each)/week:2(L-2+T-0+P-0+S-0), Min.pds./sem: 26
UNIT 1: INTRODUCTION
Definition, Need & Users, Kinesiological Developments, Developments in Biomechanical Modelling,
the Structure and Function of Musculoskeletal System, Joints.
UNIT 2: ANTHROPOMETRY AND WORK CAPACITY EVALUATION
Measurement of Physical properties of Body Segments, Anthropometric Data for Kinesiological
Studies in Industry, Mechanical Work capacity Evaluation: Joint Motion; Muscle Strength
Evaluation.
UNIT 3: MEASUREMENT OF HUMAN MOTIONS
Human Motion Analysis Systems, Muscle Activity Measurements. Kinesiological/Biomechanical
Models, Planar Static Models: Single Body Segment Model; Two-Body Segment Model. Special
Purpose Models of Occupational Tasks.
UNIT 4: WORK CLASSIFICATION AND EVALUATION
Methods of Classifying and Evaluating Manual Work, Traditional Methods, Work Analysis System,
Kinesiological Job Analysis, Musculoskeletal Injury Problems, Risk Factors, EMGs in Job Evaluation.
UNIT 5: APPLICATIONS
Lifting Limits, NIOSH Work Practices Guide for Manual Lifting, Pushing and Pulling Capabilities,
Recommendations for Improving MMH Tasks. General Considerations related to Sitting Postures. SUGGESTED READINGS: Hamilton N. & Luttgens, K. (2002), Kinesiology: SCIENTIFIC BASIS OF HUMAN MOTION (10th ed.), Boston, McGraw Hill. Thompson, C.W. & Floyd, R.T. (2004): MANUAL OF STRUCTURAL KINESIOLOGY (15th ed.), Boston, McGraw, Hill. Enderle, Blanchard & Bronzino (2000): INTRODUCTION TO BIOMEDICAL ENGINEERING, Academic Press.
3 November 2016 (28)
Course Number: MEM724, Course Title: INDUSTRIAL KINESIOLOGY LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:1, Periods (55 mts. each)/ week:2(L-0+T-0+P:2+S-0), Min.pds./sem.: 26
EXPERIMENT 1: Biomechanical Modeling.
EXPERIMENT 2: Musculoskeletal System.
EXPERIMENT 3: Anthropometric Analysis.
EXPERIMENT 4: Muscle Strength Evaluation.
EXPERIMENT 5: Muscle Activity Measurement.
EXPERIMENT 6: Work Analysis System.
EXPERIMENT 7: MMH Task Analysis.
EXPERIMENT 8: Posture Analysis.
Course Number: MEM725, Course Title: OPERATIONS RESEARCH
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits:3, Periods (55 mts. each)/ week:4(L-3+T-1+P:0+S-0), Min.pds./sem.: 52
UNIT 1: INTRODUCTION & LINEAR PROGRAMMING
Art and Science of O.R., Types of O.R. Models, Phases of O.R. Study, Applications of O.R. to
Industrial Problems. Linear programming: Formulation, Simplex Algorithm, Duality, Sensitivity
Analysis.
UNIT 2: DECISION MODELS
Introduction, Decisions Under Risk, Decision Trees, Decisions Under Uncertainty
UNIT 3: GAME THEORY
Introduction and scope of game problems in business and industry, Von Neuman’s MiniMax &
MaxiMin criterion. Two-Person Zero-Sum Games. Pure and Mixed Strategy Games. Game problem
as a special case of the Simplex Method.
UNIT 4: QUEUING THEORY
Queuing systems and concepts, Classification of Queuing Models: Kendall’s Notation. Performance
measures. Birth & Death Process. Solution of M/M/1, M/M/c, M/M/1/N, and M/M/c/N models.
Priority Queues. Simulation of queuing systems.
UNIT 5: INTEGER PROGRAMMING
Introduction, Gomory’s Cutting Plane Algorithm, Branch & Bound Technique, Binary Integer
Programming, Mixed Integer Programming.
SUGGESTED READING: Hiller FS & Lieberman GJ: OPERATIONS RESEARCH, HOLDEN-DAY.
Taha HA: OPERATIONS RESEARCH-AN INTRODUCTION.
3 November 2016 (29)
Course Number: MEM727, Course Title: PROJECT ENGINEERING & MANAGEMENT
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits:3, Periods (55 mts. each)/week:4(L:3+T:1+P:0+S:0), Min.pds./sem.: 52
[Same as PME114]
UNIT 1: INTRODUCTION, NETWORK PLANNING/SCHEDULING & NETWORK ALGORITHMS
Introduction to Project Engineering & Management. Project Planning. Work Breakdown Structure.
AOA/AON diagrams. Network Scheduling: Dummy activities, Redundant Predecessor. Analysis of
Networks. Algorithms. The Shortest Path Problem. The Minimum Spanning Tree Problem. The
Maximum Flow Problem. Ford-Fulkerson Method.
UNIT 2: CPM MODEL & TIME COST TRADEOFF PROCEDURES
CPM Computational Procedure. Time-Cost Tradeoffs. Linear and Nonlinear Time-Cost Relationships.
LP Formulation of Scheduling Computations. LP Formulation of Time-Cost Tradeoffs. Siemens
Algorithm. Economic Implications of TCTs.
UNIT 3: PERT MODEL & PRECEDENCE DIAGRAMMING NETWORKS
PERT model. Probability Concepts. Time Estimates in PERT System. Scheduled Date Probability.
Cumulative Probability. Precedence Diagramming. Precedence Diagramming Computational
Procedures.
UNIT 4: RESOURCE CONSTRAINTS IN PROJECT SCHEDULING
Complexity of Project Scheduling with limited resources, Multiproject scheduling, Resource loading,
Heuristic in Scheduling, Resource Levelling, Network characteristics in Resource-Constrained
Scheduling. Burgess Levelling Procedure. Branch and Bound Method.
UNIT 5: GRAPHICAL EVALUATION AND REVIEW TECHNIQUE (GERT) & PROJECT COST CONTROL
Introduction, Development, Nomenclature, Procedural Steps, Specialized versions of GERT,
Applications. Problems in Network-Based Cost Control, Development of Cost/Schedule Control
System Criteria, Monitoring Project Costs.
SUGGESTED READING: PROJECT MANAGEMENT WITH CPM, PERT, AND PRECEDENCE DIAGRAMMING: Joseph J Moder, Cecil R Philips, & Edward W Davis, Van Nostrand Reinhold Co., New York. A MANAGEMENT GUIDE TO PERT/CPM WITH GERT/PDM/DCPM & OTHER NETWORKS: Jerome D West & Ferdinand K Levy, PHI. PROJECT MANAGEMENT: A SYSTEM APPROACH TO PLANNING, SCHEDULING, AND CONTROLLING: Harold Kerzner, Van Nostrand Reinhold Co., New York.
Course Number: MEM728, Course Title: ADDITIVE MANUFACTURING FOR 3D PRINTING
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:2, Periods (55 mts. each)/ week:2(L-2+T-0+P:0+S-0), Min.pds./sem.: 26
UNIT 1: INTRODUCTION TO ADDITIVE MANUFACTURING
History and Technology background. Design principles for Additive Manufacturing. Technology
impact on society and novel applications.
UNIT 2: TYPES OF AM PROCESSES
Solid-Based Processes- Fused Deposition Modelling (FDM) and Polyjet; Light-Based Processes-
Polyjet; Powder-Based Processes-Selective Laser Sintering (SLS), Liquid-Based Processes-
Stereolithography (SLA).
UNIT 3: PRODUCTION ECONOMICS
Rate, dimensions, cost and flexibility. Control of mechanical, thermal, and other functional
properties. Materials for AM & issues. Design rules for AM; Process and quality control in additive
manufacturing: Accuracy, repeatability, Fabrication speed.
UNIT 4: 3D CONTENT EDITING:
AM Process Chain; Application Workflow; 3D modeling; STL Data Structure, Error and Repair;
process planning, and measurement. CAD systems for additive manufacturing. 3D content creating:
Scanning. Post processing for additive manufacturing.
UNIT 5: MICRO AND NANOSCALE ADDITIVE PROCESSES
Applications, including examples from aerospace, biomedical, architecture, energy, consumer
devices and others. Future trends and implications of additive manufacturing. Emerging materials.
SUGGESTED READINGS:
Gebhardt: UNDERSTANDING ADDITIVE MANUFACTURING, Hanser. Lipson & Kurman: FABRICATED: THE NEW WORLD OF 3D PRINTING, Wiley.
Gibson, Rosen, Stucker: ADDITIVE MANUFACTURING TECHNOLOGIES: RAPID PROTOTYPING TO DIRECT DIGITAL MANUFACTURING. Springer. Hopkinson, Hague, Dickens: RAPID MANUFACTURING: AN INDUSTRIAL REVOLUTION FOR THE DIGITAL AGE. Wiley. Gibson: ADVANCED MANUFACTURING TECHNOLOGIES FOR MEDICAL APPLICATIONS. Wiley. NSF Report: FRONTIERS OF ADDITIVE MANUFACTURING RESEARCH AND EDUCATION AN NSF ADDITIVE MANUFACTURING WORKSHOP REPORT, 2013
3 November 2016 (30)
Course Number: MEM729, Course Title: ADDITIVE MANUFACTURING LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2015-16
Total Credits:1, Periods (55 mts. each)/ week:2(L-0+T-0+P:2+S-0), Min.pds./sem.: 26
EXPERIMENTS:
1. Anatomy of 3d Printer
2. Assembly of 3D Printer
3. Fused deposition Modeling (FDM)
4. Polyjet Modeling
5. 3D Scanning exercise
6. Design and printing exercise
Course Number: MEM730, Course Title: METHODS ENGINEERING & ERGONOMICS
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2016-17
Total Credits: 3, Periods (55 mts. each)/week: 4(L-3+T-1+P-0+S-0), Min.pds./sem: 39
UNIT 1: METHOD STUDY
Productivity & Work study. Methods Engineering: Origin & Approaches; Tools for methods analysis.
Process charts; Activity charts; Micromotion study; Menomotion study; Principles of motion
economy; Elements of motion-Therbligs; Job enlargement and enrichment; Value analysis & Value
engineering. Principles of Un-Measurable Work- Incidental elements, Extraneous elements.
UNIT 2: WORK MEASUREMENT
Basic Concepts of Work Measurement: Selection of Elements, Qualified worker, Rating, Relaxation
Allowances, Standard Data
Work Measurement Techniques: Time Study, Work Sampling, Analytical Estimating. Work
Sampling: Definition, Procedure, advantages/Disadvantages, Errors, Application.
UNIT 3: ADVANCED TIME & MOTION STUDY
Predetermined Motion Time Analysis (PMTS), Method Time Analysis (MTA), Work Factor System
(WFS), Method-Time-Measurement (MTM-1, MTM-2, MTM-3 & Other MTM systems), Maynard’s
Operation Sequence Technique.
UNIT 4: ERGONOMICS
Ergonomics: Definition, Scope, Objectives, Principles. Body Measurements, Posture & Movement,
Man-Machine system. Workplace Design: Design Considerations, Design of Information Displays,
Design of controls; Office Ergonomics. Modern Ergonomic Topics: Green Ergonomics, Unfocused
Ergonomics.
UNIT 5: OCCUPATIONAL ERGONOMICS: HUMAN FACTORS ENGINEERING
Working Environment: Types & Needs. Working Environment & Ergonomics: Effect of Thermal
conditions, Noise, Vibration, Illumination, Hazardous Work. Industrial Fatigue; Boredom; Monotony;
Job Evaluation & Merit Rating; Wages & Incentives; Occupational stress & Occupational health
management.
SUGGESTED READINGS: W Krick: METHODS ENGINEERING, Willey Publications RM Barnes: MOTION & TIME STUDY, 7TH EDITION 2007, Willey Publications RS Bridger: INTRODUCTION TO ERGONOMICS, 3RD EDITION 2008, Taylor & Francis ILO, Geneva: WORK STUDY, 4TH EDITION, ILO
3 November 2016 (31)
Course Number: MEM731, Course Title: METHODS ENGINEERING & ERGONOMICS LAB.
Class: B.Tech., Status of Course: MAJOR COURSE, Approved since session: 2013-14
Total Credits: 1, Periods (55 mts. Each)/ week: 2(L-0+T-0+P:2+S-0), Min.pds./sem.: 26
EXPERIMENTS: 1. To conduct studies on Sitting & Standing Anthropometry.
2. To conduct Range of Motion Studies using Goniometers.
3. To measure Angular Movements of Limbs using computerized Goniometers.
4. To conduct studies on Primary, Secondary & Tertiary Work Zones.
5. To conduct studies on Effective Vertical Work Surface.
6. To perform Stop Watch Time Studies.
7. To perform Work Sampling Studies.
8. To conduct SIMO chart Studies.
Course Number: MEH701, Course Title: MECHANICAL ENGINEERING PROJECT I
Class: B.Tech., Status of Course: HALF COURSE,, Approved since session: 2000-01
Total Credits:3, Periods (55 mts. Each)/week:6(L:3+T:0+P:6+S:0), Min.pds./sem.: 78
At the final year level the students in a group of 3 or 4 undertake project work in different area of
specialisation as I.C. Engines, Refrigeration, Production Engineering, Industrial Engineering, Finite Element Methods, Simulation etc. This involves fabrication & testing of software development and their application etc.
Course Number: MEH702, Course Title: SEMINARS
Class: B.Tech., Status of Course: HALF COURSE,, Approved since session: 2000-01
Total Credits:1, Periods (55 mts. Each)/week:2 (L:0+T:0+P:0+S:2), Min.pds./sem.: 26
Students prepare term papers on topics allotted to them by their respective supervisor. They
present it in Seminars.
Course Number: EGC781, Course Title: CO-OP INTERNSHIP
Class: B.Tech., Status of Course: CORE COURSE, Approved since session: 2000-01
Total Credits:4
The students are expected to undergo practical training in different industries allotted to them at
different places, in order to acquaint themselves. The various shop floor activities, industrial
environment, problems faced in industries. They are required to submit a report on the training and
the evaluation through internal and external viva voce.
Course Number: GKC781, Course Title: SC. METH., G.K. & CURRENT AFFAIRS III
Class: B.Tech., Status of Course: CORE COURSE, Approved since session: 2000-01
Total Credits:1, Periods (55 mts. Each)/week:1 (L:1+T:0+P:0+S:0), Min.pds./sem.: 13
Geography: Our Solar system- Sun and Nine plannets. Earth-Rotation and Revolution. Latitude and
longitude. World-Continents. Oceans. Seas. Islands. Highest Peaks. Major Rivers.
History: Main civilizations of ancient times and their main features. World Wars- First and Second-
Causes. Some important world & Indian personalities (Historical & Political).
Political Science: Important Indian news papers. Important political parties in India.
Economics: Some impportant International Monetary Organisations.
Currencies of different countries.
Literature and Art: Important Indian writers and their works.
Current Affairs: From News papers. SUGGESTED READING: NCERT- Text books on History, Geography, Civics and General Science for Secondary Schools
Publication Division Government of India- India; Times of India- Directory; Manorama Year Book; Vikas General Knowledge Encyclopaedia; Readers Digest- Great World Atlas; Guinness- Book of World Records News Papers and Magazines: India Express; Hindustan Times; India Today; Science Digest; Sunday; Readers Digest; Competition Success Review; Careers and Competitions; Time; Newsweek; Illustrated Weekly of India.
Course Number: RDC781, Course Title: RURAL ENGINEERING PROJECT
Class: B.Tech., Status of Course: CORE COURSE, Approved since session: 2000-01
Total Credits:1, Periods (55 mts. Each)/week:2 (L:0+T:0+P:2+S:0), Min.pds./sem.: 26
In order to implement the knowledge gained through the course related to village industries and
entrepreneurship, the students undertake project related to establishment of small scale industries.
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