ITM UNIVERSITY Naya Raipur, Raipur...1 ITM UNIVERSITY Naya Raipur, Raipur B.Tech (Bachelor of...
Transcript of ITM UNIVERSITY Naya Raipur, Raipur...1 ITM UNIVERSITY Naya Raipur, Raipur B.Tech (Bachelor of...
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ITM UNIVERSITY
Naya Raipur, Raipur
B.Tech (Bachelor of Technology)
Fourth Year Engineering Syllabus
Eighth Semester
Electrical and Electronics Engineering
2016
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Department of Electrical and Electronics Engineering
B.Tech Eighth Semester Syllabus Teaching and Examination Scheme
Course
Code Course Name
Teaching
Scheme Examination Scheme
Th.+Tut (L+T)
Pr. (P)
Theory Marks
Term
Work
(Internal)
Practical
(External) Total
Internal
Assessment End
Sem.
Exam CT‐1 CT‐ 2
CT
AVG
302801 Solar Electrical Energy 04 ‐ 30 30 30 70 ‐ ‐ 100 302802 Power Plant
Engineering
04 ‐ 30 30 30 70 ‐ ‐ 100
302803 Utilization Electrical
Engineering
04 ‐ 30 30 30 70 ‐ ‐ 100
302804 Elective- II 04 ‐ 30 30 30 70 ‐ ‐ 100 302805 Elective – III 04 ‐ 30 30 30 70 ‐ ‐ 100 302806 Mi Power ‐ 02 ‐ ‐ ‐ ‐ 15 35 50 302807 Solar Electrical Energy
Lab
‐ 02 ‐ ‐ ‐ ‐ 15 35 50
302808 Programmable Logic
Controllers Lab ‐ 02 ‐ ‐ ‐ ‐ 15 35 50
302809 General Proficiency-II 04 - - - - - 30 70 100
302810 Project ‐ VI - 06 - - - - 50 200 250 24 12 150 350 125 375 1000
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Elective – II S.N.
Elective ‐ II
Subject Code Subject Name 1 302804 A Energy Management System 2 302804 B Smart Grid Technology 3 302804 C Substation Automation 4 302804 D Non-Conventional Sources of Energy 5 302804 E Conventional Sources of Energy
Elective – III S.N.
Elective ‐ III
Subject Code Subject Name 1 302805 A Programmable Logic Controllers 2 302805 B Intelligent Systems and Control 3 302805 C Design of Electrical Machines 4 302805 D Artificial Neural Network & Fuzzy Systems 5 302805 E Introduction to Hybrid and Electric Vehicles
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Subject Code: 302801 Subject Name: Principles of Solar Engineering
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I-Solar Energy Conversion: Photo voltaic system, Photo electrochemical system,
Photo thermal system, Thermoelectric systems.
Unit–II- Photo Voltaic: Types of solar Cells, semi conducting materials, band gap Theory,
absorption of Photon, PV recombination and other losses, PV I-V characteristics, output
power, Single junction and triple-junction solar panels, semi conducting materials for solar
cells.
Unit‐III- Solar Cell Applications and Engineering: PV cell and Modules Interconnection,
Equivalent circuits, load matching, efficiency, fill factor and optimization for maximum
power, on-site storage and grid connections, surface structures for maximum light absorption,
operating temperature vs. conversion efficiency, Types of solar energy concentrators. Current
trends in photo voltaic research and applications, nano technology applications.
Unit–IV-Solar Thermal conversion and Thermoelectric systems: types of solar energy
collectors, heat exchangers and applications of stored energy, Thermo electricity, Peltier
effect, See beck effect, Thermoelectric materials.
Unit–V-Cost analysis and environmental Issues: Cost analysis and pay back calculations,
installation and operating costs, Environmental and safety issues, protection systems,
performance monitoring.
Recommended Books:
1. Non Conventional Energy Resources, B Khan, 2nd
, Tata McGraw Hill, India.
2. Principles of Solar Engineering, D. Yogi Goswami, Taylor & Francis.
3. Semiconductor Devices, Physics, and Technology, S. M., Sze, Wiley Eastern,New York.
4. Non Conventional Energy Resources, G. D. Rai, Khanna Publishers
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Subject Code: 302802 Subject Name: Power Plant Engineering
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Fundamental of Power Plant: Concept of Power Plants, Classification of Power Plants.
Power Development in India, Resources for Power Generation, Present Power Position in India, Future
Planning for Power Generation, Power Corporations in India, Classification of Power Plant Cycle.
Fuels and Combustion, Steam Generators, Steam Prime Movers, Steam Condensers, Hydraulic
Turbines.
Unit–II: Steam Power Plant: Essentials of Steam Power Plant Equipment, Coal Handling, Fuel
Burning Furnaces, Method of Fuel Firing, Automatic Boiler Control, Pulverized Coal, Pulverized Coal
Firing, Pulverized Coal Burners, Ash Disposal, Smoke and Dust Removal, Types of Dust Collectors.
Unit‐III: Boiler and Turbine Monitoring: Combustion control Boiler, Drum level control Boiler,
Deaerator control Boiler, Interlocks Boiler, Turbine monitoring and control, Cooling system of turbine,
Speed and temperature monitoring of turbine Boiler.
Unit–IV: Introduction to Instrumentation: smoke density measurement Analyzer, flue gas oxygen
analyzer, Radiation detector, pollution monitoring instruments, flow of feed water and steam,
Importance of instrumentation in power plants, Flow of steam, maintenance of measuring Equipment.
Unit–V: Power Plant Economics and Variable Load Problem: Terms and Factors, Factor Effecting
Power Plant Design, Effect of Power Plant Type on Costs- Initial Cost, Rate of Interest, Depreciation,
Operational Costs, Cost of Fuels, Labour Cost, Cost of Maintenance and Repairs, Cost of Stores,
Supervision, Taxes, Effect of Plant Type on Rates, Effect of Plant Type on Fixed Elements,
Economics in Plant Selection.
Recommended Books: 1. Power Plant engineering, A.K. Raja, Manish Dwivedi, New Age International Publication.
2. Power Plant instrumentation, K. Krishnaswamy, M.Ponni Bala, PHI (Pretice Hall India)
3. Power Plant engineering, G.R. Nagpal,
4. Power Plant Engineering by P.K. Nag, Tata Mc Graw Hill Education Publication
5. Power Plant Engineering by Rajput, Laxmi Publication.
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Subject Code: 302803 Subject Name: Utilization of Electrical Energy
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics Unit–I: Electric Heating and Welding: Advantages and methods of electric heating, resistance
heating induction heating and dielectric heating, Arc heating.
Welding: Electric welding, resistance and arc welding, electric welding equipment, comparison
between A.C. and D.C. Welding.
Unit–II: Illumination Fundamentals and Methods: Introduction, terms used in illumination, laws of
illumination, polar curves, photometry, integrating sphere, sources of light .Discharge lamps, MV and
SV lamps – comparison between tungsten filament lamps and fluorescent tubes, Basic principles of
light control, Types and design of lighting and flood lighting.
Unit-III: Electric Drive: Introduction: Overview of DC drives system, AC drive system and basics of
motor drives, Dynamic of electric drives.
Unit‐IV: Electric Traction – I: System of electric traction and track electrification. Review of existing
electric traction systems in India. Special features of traction motor, methods of electric braking-
plugging rheostat braking and regenerative braking, Mechanics of train movement. Speed-time curves
for different services – trapezoidal and quadrilateral speed time curves.
Unit–V: Electric Traction – II: Calculations of tractive effort, power, specific energy consumption for
given run, effect of varying acceleration and braking retardation, adhesive weight and braking
retardation adhesive weight and coefficient of adhesion.
Recommended Books: 1. Utilisation of Electric Energy – by E. Openshaw Taylor, Orient Longman.
2. Art & Science of Utilization of electrical Energy – by Partab, Dhanpat Rai & Sons.
3. Utilization of Electrical Power including Electric drives and Electric traction – by
N.V.Suryanarayana, New Age International (P) Limited, Publishers, 1996.
4. Generation, Distribution and Utilization of electrical Energy – by C.L. Wadhwa, New
AgeInternational (P) Limited, Publishers, 1997
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Subject Code: 302804A Subject Name: Energy Management System
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: EMS: Introduction to EMS, Objectives, Evolution of EMS, Evolution of SCADA, Function
and Benefits of EMS, EMS Architecture, Practical EMS, Working of EMS, Power System Security:
Introduction, Static Security Assessment, Operating states of Power System. Real Time or Online
Application : Control Function, Protection Function, Operating States of Power System
Unit–II:, Network Analysis Function of EMS: Real Time Function, Extended Real Time Function,
State Estimation: Introduction, Conventional State Estimation, Linear state estimation. Economic
Dispatch and Optimal Power Flow: Introduction, Economic Dispatch, Generation Model, Economic
Dispatch Problem, Optimal Power Flow problem Formulation
Unit‐III: SCADA: Introduction to SCADA, Evolution of SCADA, Benefits of SCADA, Function of
SCADA, SCADA in Process control, SCADA Application, Usage of SCADA, Real-Time Monitoring
and Control using SCADA, Data Acquisition, Data Communication, Data Presentation, Control.
Unit–IV: SCADA Hardware: Introduction, SCADA hardware Functions, Remote Terminal Units,
SCADA RTU, Basic Functions, RTU Standards, Difference Between RTU and PLC, Features of
SCADA. SCADA Software and Protocols: Introduction to ISO Model, DNP3 Model, Important
Features of DNP3, IEC60870 PROTOCOL, HDLC, Modbus Protocol
Unit–V: Power System Automation: Benefits Of Power System Automation, Power System
Automation, Architecture For Power System Automation, Classification of Power system Automation,
Implementation of Power System Automation and Protection Using SCADA, SCADA Based Model
for Automation and Digital Protection.
Recommended Books:
1. Energy Management Systems”, Handschin, E. Springer Verlag,1990.
2. Real Time Control of Electric Power Systems”, Handschin, E Elsevier, 1972.
3. Electric Power Substation Engineering”, John D Mc Donald, CRC press, 2001.
4. Power Generation Operation and Control”, Wood, A. J and Wallenberg, B. F, 2nd
Edition John
Wiley and Sons, 2003.
5. Control and Automation of Electric Power Distribution Systems, Green, J. N, Wilson, R
6. Energy Management Handbook, Turner, W. C 5th
Edition, Taylor and Francis
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Subject Code: 302804 B Subject Name: Smart Grid Technology
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Introduction to Smart Grid : Evolution of Electric Grid, Concept of Smart Grid,
Definitions, Need of Smart Grid, Functions of Smart Grid, Opportunities & Barriers of Smart
Grid, Difference between conventional & smart grid, Concept of Resilient & Self Healing
Grid, Present development & International policies in Smart Grid. Case study of Smart Grid.
CDM opportunities in Smart Grid.
Unit–II: Smart Grid Technologies: Part 1:Introduction to Smart Meters, Real Time
Prizing, Smart Appliances, Automatic Meter Reading(AMR), Outage Management
System(OMS), Plug in Hybrid Electric Vehicles(PHEV), Vehicle to Grid, Smart Sensors,
Home & Building Automation, Phase Shifting Transformers.
Unit‐III: Smart Grid Technologies: Part 2: Smart Substations, Substation Automation,
Feeder Automation. Geographic Information System(GIS), Intelligent Electronic
Devices(IED) & their application for monitoring & protection, Smart storage like Battery,
SMES, Pumped Hydro, Compressed Air Energy Storage, Wide Area Measurement
System(WAMS), Phase Measurement Unit(PMU).
Unit–IV: Micro grids and Distributed Energy Resources: Concept of micro grid, need &
applications of micro grid, formation of micro grid, Issues of interconnection, protection &
control of micro grid. Plastic & Organic solar cells, Thin film solar cells, Variable speed wind
generators, fuel cells, micro turbines, Captive power plants, Integration of renewable energy
sources.
Unit–V: Power Quality Management in Smart Grid: Power Quality & EMC in Smart
Grid, Power Quality issues of Grid connected Renewable Energy Sources, Power Quality
Conditioners for Smart Grid, Web based Power Quality monitoring, Power Quality Audit,
Information and Communication Technology for Smart Grid.
Recommended Books: 1. Ali Keyhani, Mohammad Dai “Integration of Green and Renewable Energy in Electric Power
Systems”, Wiley
2. Clark W.Gellings, “The Smart Grid: Enabling Energy Efficiency and Demand Response”, CRC
Press
3. Janaka Ekanayake, “Smart Grid: Technology and Applications”, Wiley
4. Jean Claude Sabonnadière, Nouredine Hadjsaïd, “Smart Grids”, Wiley Blackwell
5. Peter S.“Smart Power: Climate Changes, the Smart Grid, and the Future of Electric Utilities”, Island
Press;
6. S. Chowdhury, “Microgrids and Active Distribution Networks.” Institution of Engineering and
Technology,2009
7. Stuart Borlase, “Smart Grids (Power Engineering)”, CRC Press
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Subject Code: 302804 C Subject Name: Substation Automation
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Distribution System Planning And Automation: Power Sector Reforms, Basic
Distribution Systems, Short-Term Load Forecasting, Long-Term Energy Forecasting,
Technological Forecasting, Problems of existing Distribution System, Need for Distribution
Automation, Characteristics of Distribution System, Distribution Automation (Objectives,
Functions, Benefits), Feeder Automation, Communication Requirements for DA, Remote
Terminal Unit (RTU), Communication Technologies for DA.
Unit–II: SCADA System: Introduction, Block Diagram, Components of SCADA, Functions
of SCADA, SCADA applied to Distribution Automation, Advantages of DA through
SCADA, Requirements and Feasibility, DA Integration Mechanisms, Communication
Protocols in SCADA Systems.
Unit‐III: Substation Automation: Introduction, Definition of Substation Automation,
Functions of Substation Automation System, State and Trends of Substation Automation,
Intelligent Affordable Substation Monitoring and Control, Advantages of an EEM (Enterprise
Energy Management) Substation
Automation Solution.
Unit–IV: Feeder Automation : Losses in Distribution Systems, System Losses and Loss
Reduction, Network Reconfiguration, Improvement in Voltage Profile, Capacitor Placement
in Distribution System for Reactive Power Compensation, Algorithm for location of
capacitor.
Unit–V: Remote Metering And Energy Management: Background for Automatic Meter
Reading (AMR) for Utility, Components of AMR Systems, Communications Methods used
for Meter Reading, AMR System, Services and Functions, Financial Analysis, Planning for
AMR Implementation. Energy Management, Need Based Energy Management (NBEM),
Demand Side Management (DSM).
Recommended Books: 1. D. Bassett, K. Clinard, J. Grainger, S. Purucker, and D. Ward, “Tutorial Course: Distribution
Automation”, IEEE Tutorial Publication 88EH0280-8-PWR, 1988.
2. James Northcote-Green, Robert Wilson, “Control and Automation of Electrical Power Distribution
Systems” CRC Press, Taylor and Francis Group, 2007
3. James A. Momoh, “Electric Power Distribution, Automation, Protection, and Control”, CRC Press,
Taylor and Francis Group, 2007.
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Subject Code: 302804 D Subject Name: Non-Conventional Sources of Energy
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I:Introduction: Fossil fuel based systems, Impact of fossil fuel based systems, Non
conventional energy – seasonal variations and availability, Renewable energy – sources and
features, Hybrid energy systems, Distributed energy systems and dispersed generation (DG).
Unit–II: Traditional Energy Systems: Sources, Features and characteristics, Applications:
Transport – bullock cart, horse carriage, camels, Agriculture – ox plough, water lifting
devices, Human power – bicycle, cycle rickshaw etc, House hold – cooking (bio mass),
lighting etc.
Unit‐III: Solar Thermal Systems: Solar radiation spectrum, Radiation measurement,
Technologies, Applications: Heating, Cooling, Drying, Distillation, Power generation. Solar
Photovoltaic systems: Operating principle, Photovoltaic cell concepts, Cell, module, array,
Series and parallel connections, Maximum power point tracking, Applications: Battery
charging, Pumping, Lighting, Peltier cooling.
Unit–IV: Microhydel: Operating principle, Components of a microhydel power plant, Types
and characteristics of turbines, Selection and modification, Load balancing. Wind: Wind
patterns and wind data, Site selection, Types of wind mills,
Characteristics of wind generators, Load matching. Biomass: Learning objectives, Operating
principle, Combustion and fermentation, Anaerobic digester, Wood gassifier, Pyrolysis,
Applications: Bio gas, Wood stoves, Bio diesel and Combustion engine.
Unit–V: Hybrid Systems : Need for Hybrid Systems, Range and type of Hybrid systems,
Case studies of Diesel-PV, Wind-PV, Microhydel-PV, Biomass-Diesel systems, electric and
hybrid electric vehicles. Costing: Life Cycle Costing (LCC), Solar Thermal System LCC,
Solar PV System LCC, Microhydel LCC, Wind system LCC, Biomass system LCC.
Recommended Books:
1. Non-conventional Energy Sources and Utilization, R.K Rajput, S.Chand Publication.
2. Non-Conventional Energy Resources, SAWHNEY, G. S, PHI Learning.
3. Non conventional energy resources, G.D. Rai, Khanna Pubilisher.
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Subject Code: 302804 E Subject Name: Conventional Sources of Energy
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Thermal Power Plant: Conventional Sources of Energy, Layout and working of
steam Generators, Basic Types of Steam generators, Fire Tube Boilers, Water Tube Boilers,
Economizers, Super Heaters, Reheaters, Steam generator Control, Air Preheater, Electrostatic
Precipitator, Ash Handling System, Feed Water Treatment.
Unit–II:Hydro Electric Power Plant: Introduction, Advantage and Disadvantage of Hydro
Power, Optimization of Hydro- Thermal Mix, Selection of Site for a Hydro- Electric Plant,
Hydrological Cycle, Hydro Graphs, Storage and Pondage, Essential Elements of a
Hydroelectric Power Plant. Classification of a Hydroelectric Power Plant. Hydraulic
Turbines, Turbine Size, Governing of Hydraulic Turbines, Governing of Reaction Turbines,
Surge Tank, Performance of Reaction Turbines, Selection of Turbines.
Unit‐III: Nuclear Power Plant: Structure of the Atom, Chemical and Nuclear Reaction,
Nuclear Stability and Binding Energy, Radio Active Decay and Half Life period, Layout and
working of Nuclear Power Plant, Nuclear Fission and Chain Reaction, Neutron Life Cycle,
Heat Transfer and Fluid Flow in Nuclear Reactors, Types of Reactors, Pressurized water
Reactor, Boiling Water Reactor, Gas- Cooled Reactors, Heavy Water Reactors, Fusion Power
Reactors.
Unit–IV: Diesel Engine and Gas Turbine Power Plant: Application of Diesel Engines in
Power Field, Advantage and Disadvantage of Diesel Engine Power Plant, Types of Diesel
Plants, General Layout, Performance Characteristics, Layout of Diesel Engine Power Plant,
Gas Turbine Power Plant, Components of gas Turbine power Plant, Gas Turbine Fuels, gas
Turbine Materials.
Unit–V: Energy Storage: Pumped Hydro, Compressed Air Energy Storage, Fly wheel
Energy Storage, Electrochemical Energy Storage, Magnetic Energy Storage, Thermal Energy
Storage, Chemical Energy Storage, Hydrogen Energy.
Recommended Books:
1. Power Plant Engineering, P.K. Nag.3rd
Edition, Mc Graw-Hill.
2. Principles of Power System, by V.K. Metha, S Chand Publications.
3. Power plant engineering, A.K. Raja, Manish Dwivedi, New Age International Publication
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Subject Code: 302805 A Subject Name: Programmable Logic Controllers
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: :- Basic about PLC: History of Programmable Controllers , Need for PLC’s , What
Is PLC , PLC development stages from earlier to existing , Advantages of PLC , Areas of
Applications.
Unit–II: Design consideration for PLC: PLC design comparison from first developed
model with an existing models, PLC sizes and general classification, Different manufacturers
of PLC with brief product description , Basic architecture of PLC , Different components
within a PLC , Basic PLC Structure.
Unit‐III: Input, CPU and Output consoles for PLC: Input –Output Configurations, Input
module (fixed and modular) , DC input Module , AC input module, Programming module ,
Output module (fixed and modular) , DC/AC output module, Input devices and Output
devices , PLC operating cycle.
Unit–IV: Types of PLC Programming: Introduction to PLC programming, Different types
of PLC programming, Brief about Boolean logic gates and truth tables (Basic AND OR NOT
NOR NAND EXOR EXNOR) , Logic diagram formulation and basic programming for
Siemens PLC , Different programming examples in ladder logic to be implemented , Basic
about LOGO-DEMO test kit and S7-1214 C test kit of Siemens for developing and testing
ladder logic.
Unit–V: Logic Gates in PLC: Logic gates representation of ladder logic , Timer LOGIC ,
Counter Logic, Arithmetic operations like addition , subtraction , division , multiplication,
Comparative analysis like greater than , lesser than , greater than or equal to , lesser than or
equal to , etc. Different functional block calculations in brief. Examples related to above logic
and ladder logic implementation in test kit.
Recommended Books:
1. Programmable Logic Controllers: Principles & Applications, John w.webb, 5th
, 2008, Prentice Hall.
2. Programmable Controllers, l. A. Bryan and E. A. Bryan, 2nd
edition, an Industrial Text Co
publication
3. Programmable Logic Controllers Programming Methods and Applications, John r. Hackworth, 1st
Edition, Pearson Publication.
4. Programmable Logic Controllers, w. bolton, 5th
edition, 2009, Elsevier.
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Subject Code: 302805 B Subject Name: Intelligent Systems and Control
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Linear Neural Networks: Multi Layered Neural Networks, Back Propagation
Algorithm revisited, Non Linear System Analysis Part-I, Non Linear System Analysis Part-
II, Radial Basis Function Networks, Adaptive Learning Rate, Weight Update rules,
Recurrent networks back Propagation through time, Recurrent networks Real Time recurrent
Learning, Self organising Map- Multidimensional Network.
Unit–II: Fuzzy: Fuzzy Sets-A primer, Fuzzy Relations, Fuzzy Rule base and Approximation
Reasoning, Introduction to Fuzzy Logic Control.
Unit‐III: A review on Neural Control: Network inversion and control, Neural Model of a
Robot Manipulator, Indirect Adaptive Control of a Robot manipulator, Adaptive neural
control for Affine Systems SISO, Adaptive neural control for Affine Systems MIMO
Unit–IV: Motor Coordination: Visual Motor Coordination with KSOM, Visual Motor
Coordination quantum clustering, Direct Adaptive Control of manipulator introduction,
Neural Network based back steeping control.
Unit–V: A review on Fuzzy control, Mamdani Type flc and parameter optimization,
Fuzzy control of a PH Reactor, Fuzzy lyapunov controller- computing with words, Controller
design for a T-S Fuzzy Model, Linear controllers using T-S Fuzzy Model
Recommended Books:
1. Neural Networks, Fuzzy logic, Genetic algorithms: synthesis and applications by Rajasekharan and
Rai, PHI Publication.
2. Introduction to Neural Networks using MATLAB 6.0 -S.N.Sivanandam, S.Sumathi, S.N.Deepa,
TMH, 2006
3. Neural Networks, James A Freeman and Davis Skapura, Pearson Education, 2002.
4. Neural Networks, Simon Hakins, Pearson Education
5. Neural Engineering by C.Eliasmith and CH.Anderson, PHI
6. Neural Networks and Fuzzy Logic System by Bart Kosko, PHI Publications.
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Subject Code: 302805 C Subject Name: Design of Electrical Machines
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Principles of design of Machines: Factors and limitations in design, Review of
Magnetic and insulating Materials, Specific magnetic and electric loadings, Output, real and
apparent flux densities, Separation of main dimensions for D.C., induction and synchronous
machines.
Unit–II: Heating, Cooling and Ventilation: Temperature rise Calculation, Continuous, short
time and intermittent ratings, Types of ventilation, Hydrogen cooling and its advantages.
Unit‐III: Design of Transformers: General considerations, Output equation, Main
dimensions, Leakage reactance, Winding design, Tank and cooling tubes, Calculation of
magnetizing Current, Losses, Efficiency and regulation of Transformers.
Unit–IV: Design of Three-phase induction motors: General considerations, (Output
equation, Choice of specific electric and magnetic loadings, No. of slots in stator and rotor,
Elimination of harmonic torques, Design of stator and rotor windings, Leakage reactance,
Equivalent resistance of squirrel cage rotor, Magnetizing current, Temperature rise and
efficiency.
Unit–V: Design of Alternator: Classification and their Comparison, Specific loadings,
Output Coefficient, Main Dimensions, Short circuit ratio, Elimination of harmonics in
generated EMF, Stator winding design, Introduction to computer aided electrical machine
design.
Recommended Books:
1. A Course in Electrical Machine Design, A. K Sawhney , 2014, Dhanpat Rai Publications.
2. Generalised Machine Theory, Dr. P.S Bimbhra, Khanna Pubilishers
3. Principles of Electrical Machine Design, Dr. H.M. Rai, 5th
Edition, Satya Prakashan
4. The Performance and Design of A.C. Machines, SAY MG, CBS Publishers & Distributors Pvt.
Ltd.
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Subject Code: 302805 D Subject Name: Artificial Neural Network & Fuzzy System
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Introduction to ANN: Introduction to Network Architecture, Learning Processes,
Single Layer Perceptions and Multilayer Perceptions.
Unit–II: Supervised Learning Network: Radial –Basis Function Networks, Support Vector
Machines, Committee Machines
Unit‐III: Unsupervised Learning Network: Principal Components Analysis, Self-
Organizing Maps, Information-Theoretic Models
Unit–IV: Stochastic Machines & their Approximates Rooted: Statistical Mechanics, Euro-
dynamic Programming, Temporal Processing Using feed-forward Networks, Neuro-
dynamics, and Dynamically Driven Recurrent Networks.
Unit–V: Fuzzy System: Fuzzy Systems, Fuzzy sets & Relations, Fuzzy-To –Crisp
Conversion, Simple Application of Fuzzy Systems.
Recommended Books:
1. Neural Networks, A Comprehensive foundation,2nd Edition by: Simon Haykin, Pearson
Education.
2. Zimmerman, H.J.”Fuzzy Set Theory & its Applications,” Allied Publishers, New Delhi, 1996.
3. Bart Kosko, Neural networks and Fuzzy Systems,.;Prentice Hall of India, 1990.
4. Jacek M. Zurada.; Introduction to artificial neural Systems, Jaico Pub.House, 2003.
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Subject Code: 302805 E Subject Name: Introduction to Hybrid and Electric Vehicles
Lectures: 4 hours per week End Semester Examination: 3 hours
Detailed Syllabus
Topics
Unit–I: Introduction to Hybrid Electric Vehicles: History of hybrid and electric vehicles, social and
environmental importance of hybrid and electric vehicles, impact of modern drive-trains on energy
supplies. Conventional Vehicles: Basics of vehicle performance, vehicle power source characterization,
transmission characteristics, and mathematical models to describe vehicle performance.
Unit–II: Hybrid Electric Drive-trains: Basic concept of hybrid traction, introduction to various hybrid
drive-train topologies, power flow control in hybrid drive-train topologies, fuel efficiency analysis.
Electric Drive-trains: Basic concept of electric traction, introduction to various electric drive-train
topologies, power flow control in electric drive-train topologies, fuel efficiency analysis
Unit‐III: Electric Propulsion Unit: Introduction to electric components used in hybrid and electric
vehicles, Configuration and control of DC Motor drives, Configuration and control of Induction Motor
drives, configuration and control of Permanent Magnet Motor drives, Configuration and control of
Switch Reluctance Motor drives, drive system efficiency.
Unit–IV: Energy Storage: Introduction to Energy Storage Requirements in Hybrid and Electric
Vehicles, Battery based energy storage and its analysis, Fuel Cell based energy storage and its analysis,
Super Capacitor based energy storage and its analysis, Flywheel based energy storage and its analysis,
Hybridization of different energy storage devices.
Sizing the Drive System: Matching the electric machine and the internal combustion engine (ICE),
Sizing the propulsion motor, sizing the power electronics, selecting the energy storage technology,
Communications, supporting subsystems
Unit–V: Energy Management Strategies: Introduction to energy management strategies used in hybrid
and electric vehicles, classification of different energy management strategies, comparison of different
energy management strategies, implementation issues of energy management strategies.
Case Studies: Design of a Hybrid Electric Vehicle (HEV), Design of a Battery Electric Vehicle (BEV).
Recommended Books: 1. Iqbal Hussein, Electric and Hybrid Vehicles: Design Fundamentals, CRC Press, 2003.
2. Mehrdad Ehsani, Yimi Gao, Sebastian E. Gay, Ali Emadi, Modern Electric, Hybrid Electric and
Fuel Cell Vehicles: Fundamentals, Theory and Design, CRC Press, 2004.
3. James Larminie, John Lowry, Electric Vehicle Technology Explained, Wiley, 2003.
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Subject Code: 302806 Subject Name: Mi Power Lab
Practical: 2 hours per week
Term work: Term work shall consist of record of the following experiments:
List of Experiment:
Any experiment related to Electrical Machines, Control system, Power System, Power Electronics can
be performed in this software.
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Subject Code: 302807 Subject Name: Solar Electrical Energy Lab
Practical: 2 hours per week
Term work: Term work shall consist of record of the following experiments:
List of Experiments:
1. Interconnection of Solar PV Cells as a Module.
2. Interconnection of Solar PV Module as a Series Connection in a Solar Panel.
3. Interconnection of Solar PV Module as a Parallel Connection in a Solar Panel.
4. Measuring of Voltage, Current and Power of a Solar Panel.
5. Determination of Fill Factor and Efficiency of a Solar Panel.
6. Connection Scheme of Battery, Charge Controller and Inverter.
7. Installation of Stand-alone Solar PV System.
8. Installation of Grid-Interactive Solar PV System.
9. Maintenance of Solar PV System.
10. Determination of collector efficiency of a Parabolic Trough Collector.
11. Performance and Testing of a Parabolic Focusing Collector.
12. Measurement of collector efficiency of a Flat Plate Collector.
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Subject Code: 302808 Subject Name: PLC Lab
Practical: 2 hours per week
Term work: Term work shall consist of record of the following experiments:
List of Experiments:
1) To study basics about the Siemens LOGO-DEMO kit SOFTWARE and S7-1214C SOFTWARE
kit.
2) Verify basic logic gates (AND OR NOT NAND NO EXOR EXNOR) in LOGO DEMO test – kit.
3) Perform above logic gates in all the three types of PLC programming i.e. Ladder, Functional Block
Diagram , Statement list in the SIEMENS LOGO software.
4) To study about the TIMER AND COUNTER OPERATION IN LOGO-DEMO TEST KIT.
5) Solve the following objectives in a below given problem :
INDUSTRIAL ALARM SYSTEM
THERE ARE 4 INPUTS (I1, I2, I3 & I4) AND 3 (Q1, Q2 & Q3) OUTPUTS
A) IF any of the one input is ON, nothing happens.
B) IF any two of the inputs are ON, Output-1(red light) Q1 goes ON.
C) IF any of the three inputs are ON , Output-2 Q2 goes ON
D) IF al; the four inputs are ON, then Output-3 Q3 goes ON.
6) Develop a two-way switch code in ladder logic problem and test the same on LOGO DEMO-test
kit with the Input (I1, I2) and one output Q1.
7) To perform the same Boolean logic gates mentioned above in TIA (Total Integrated Automation)
Software of Siemens on S7-1214C kit.
8) Perform the Timer and Counter Operations in TIA and also verify in each case by taking same
appropriate Inputs and outputs variables.
9) To perform the Delay Operations like ON-DELAY, OFF-DELAY, RETENTIVE ON-DELAY,
etc on TIA.
10) To perform basic Arithmetic operations given in functional block using the TIA software and
verify the results.
11) Develop the Conveyor belt –motor operation problem using TIA and verify the ON – OFF
operations for both the conveyor and Motor.
12) To develop the traffic light problem in real time domain taking appropriate inputs and outputs
and also verify the same in S7-1214C Siemens Test kit via TIA.
13) To perform fruit mixing problem of two different juices ( A and B) with necessary delay time of
stirring , insertion of juices and extraction of juices from the system called FRUIT MIXER.
Text Book/Reference /Handouts:
1) LOGO MANUAL BY SIEMENS
2) TIA MANUAL BY SIEMEN
3) ANY other relevant handout and reference provided during the LAB by the instructor.
20
Subject Code: 302809 Subject Name: General Proficiency-II
Practical: 4 hours per week
UNIT I: English Proficiency for Technical Writing: Writing Technical Reports,
Scientific Terminology, Format of Research Paper and Various Citations Formats,
Plagiarism. Reconstruction and Translation of Scientific Documents.
UNIT II : Leadership and HR Skills: Individually and Team Dynamics, Synergy,
Leadership concepts, skills and Quality, Team work & Team building, Conflict
Management.
UNIT III: Advanced Reasoning Proficiency: Verbal: Blood relations, Direction sense
test, Input output, Coding-decoding, Number ranking, and Making judgments. Non
Verbal: Figure Matrix, Figure Formation and Analysis, Rule Detection, Paper Cutting.
UNIT IV: IV Advanced Mathematical Proficiency: Allegation, Problem on trains,
Ratio and Proportions, Unitary Method, Races, Algebra, Average, Probability, Geometry,
Simple and Compound Interest, Data Interpretation (Tabulation, Pie chart, Line
chart, Line graph and Bar graph), Banker’s Discount, Percentage, Time and Work.
UNIT V: Advanced Skills : Etiquettes, IQ and EQ, Time Management, Public Speaking,
Negotiation Skills, Body language, Interview Skills.
Recommended Books: 1. Sharma RC & Mohan K – "Business Corresponding and Report Writing", Tata McGraw Hill, New
Delhi, 1994.
2. Alok Jain, P S Bhatia & A M Shiekh – "Professional Communication Skills; S. Chand & Company
Ltd. 2005.
3. R.S. Aggarawal, Quantitative Aptitude For Competitive Examinations (English) 7th Edition.
4. Emily Kittle Morrison, Leadrship skills: Developing volunteers for organizational success, perseus
books group.
5. R.S. Aggarawal, A Modern Approach To Verbal & Non-Verbal Reasoning (English), Revised
Edition.
6. Barun K. Mitra, Personality development and soft skills (English), Oxford University press, New
Delhi
7. Clare Dignall, Negotiation Skills in 7 simple steps (English), Harper Collins publications.
8. Dr. S. K. Mandal, How to Succeed in Group Discussions & Personal Interviews (English) 1st
Edition, Jaico publishing house.
21
Subject Code: 302810 Subject Name: Project - VI
Practical: 6 hours per week
Term work: Term work shall consist of report submitted based on the topic of one good
Engineering / Research based problem.
1. Formation of team, selection of topic: Presentation on different project topics, Team formation
including students and guide, Literature review in Library and internet on different project topics,
Selection of Project topic and objectives
2. Site Visits (If required): Before undertaking the project design, team should visit sites where the
project is already implemented and get acquainted with different perspectives. They should meet
experienced personalities in the area and take their advice.
3. Preliminary Design: After selection of topic, the team should carry out further literature review
and then come out with the preliminary design of the project in the form of drawing and
explanation.
4. Semester Project Progress Report: A semester project progress report should be prepared
comprising the work done as said above. The report should be presented before the Department
faculty and subject experts.
The Report / Thesis must contain the following:‐
1. Introduction
2. Literature Review
3. Methodology
4. Result and Discussion
5. Application of the Project Work
6. Conclusion
7. Future Scope
References
Please Note: Based on the above work a power point presentation must be given by the
candidate and defended with positive attitude. The candidate will be appreciated if he / she
present his / her work in a Conference or publish his / her work in a reputed Journal.