GANPAT UNIVERSITY FACULTY OF ENGINEERING ... UNIVERSITY FACULTY OF ENGINEERING & TECHNOLOGY TEACHING AND EXAMINATION SCHEME Programme Bachelor of Technology Branch/Spec. Mechanical

GANPAT UNIVERSITY

FACULTY OF ENGINEERING & TECHNOLOGY

TEACHING AND EXAMINATION SCHEME Programme Bachelor of Technology Branch/Spec. Mechanical Engineering

Semester VIII

Effective from Academic Year 2017-18 Effective from the batch Admitted in July 2014

Subject Code

Subject Name

Teaching scheme Examination scheme (Marks)

Credit Hours (per week) Theory Practical

Lecture(DT) Practical(Lab.) Lecture(DT) Practical(Lab.) CE SEE Total CE SEE Total

L TU Total P TW Total L TU Total

P TW Total

2ME801 Alternate Energy Sources

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

2ME802 Production & Operations Management

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

2ME803 Computer Aided Manufacturing

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

2ME804 Major Project 0 0 0 4 0 4 0 0 0 8 0 8 0 0 0 100 100 200

2ME805/1 Welding Technology

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

2ME805/2 Automobile Engineering

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

2ME805/3 Air Conditioning Engineering

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

2ME805/4 Industrial Automation

3 0 3 1 0 1 3 0 3 2 0 2 40 60 100 25 25 50

Total 12 0 12 8 0 8 12 0 12 16 0 16 160 240 400 200 200 400

GANPAT UNIVERSITY

FACULTY OF ENGINEERING & TECHNOLOGY Programme Bachelor of Technology Branch/Spec. Mechanical Engineering

Semester VIII Version 2.0.0.0


Subject code 2ME801 Subject Name Alternate Energy Sources


(Per week) Lecture(DT) Practical(Lab.) Total CE SEE Total

L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100

Hours 3 0 2 0 5 Practical 25 25 50

Pre-requisites:

Learning Outcome:

After learning this course, student should be able to: Describe the fundamentals and main characteristics of renewable energy sources and their

differences compared to fossil fuels.

Describe the main components of different renewable energy systems and compare different renewable energy technologies and choose the most appropriate based on local conditions

Design renewable/hybrid energy systems that meet specific energy demands, are economically feasible and have a minimal impact on the environment

Suggest the best combination of technological solutions to minimize the emission of greenhouse gases and perform simple techno-economical assessments of renewable energy systems

Theory syllabus

Unit Content Hrs

1 Solar radiation and its Measurements: Solar radiation geometry, Empirical equations for predicting the availability of solar radiation, Instruments for measurement of radiation, Ratio of beam radiation on tilted surface to that on horizontal surface, Ratio of total radiation on tilted surface to that on horizontal surface.

6

2 Solar Thermal energy collectors: Liquid flat plate collectors, Performance analysis, Transmissivity of cover system, Transmissivity and absorptivity product, Overall loss coefficient and heat transfer correlation, Collector efficiency factor, Collector heat removal factor, effects of various parameters on performance, Analysis of collectors similar to the conventional collector, Transient analysis, testing procedures, Alternative to the conventional collector, Concentrating Collectors, Cylindrical parabolic collector, Compound parabolic collector, Parabolic dish collector, Central receiver collector.

12

3 Solar energy storage and application: Sensible heat storage, Latent heat storage, Thermo chemical storage, Solar water heater, Solar air heater, Solar refrigeration, Solar pond solar heating and cooling of buildings, Industrial and rural application, Solar cooker, Solar lighting , Direct conversion of solar energy into electricity.

6

4 Energy from wind: Energy in wind, Wind energy conversion, Horizontal and Vertical axis wind mills, Analysis of aerodynamic forces acting on the blade, Use of meteorological data for site selection, Materials of construction of wind turbines.

6

5 Other energy sources: Elementary studies of tidal energy power plants, ocean thermal energy conversion plants, Geothermal energy plants, Biomass and Biogas Plants, Magneto hydro dynamics plants, Chemical energy (fuel cells), Gasification.

8

6 Energy Management: Energy economics, Energy conservation, Energy audit, General concept of total energy system. Information about GIDA

7

Practical content

The term work shall be based on experimental and analytical work on topics mentioned above

Text Books

1 Sukhatme, S.P and Nayak J. K. “Solar Energy: Principles of Thermal Collections and Storage” McGraw Hill Publishing Co, 3rd Edition.

2 G.D. Rai, “Non -Conventional Energy Sources”, Khanna Publisher, New Delhi. 2004.

Reference Books

1 H.P. Garg, “Solar Energy Fundamentals and Applications”, Tata McGraw Hill, New Delhi. 1st Revised Edition.

2 B H KHAN Non-Conventional ENERGY Resources, Tata McGraw Hill, New Delhi. 2nd Edition.

3 D.P Kothari ,K.C. Singal ,RakeshRanjan , Renewable Energy Sources and Emerging TechnologiesPHI Learning Pvt. Ltd, 2nd Edition.

4 Chetan Singh Solanki, Solar Photovoltaics - Fundamentals, Technologies and Applications, PHI, 2008.

GANPAT UNIVERSITY




Subject code 2ME802 Subject Name Production & Operations Management



L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100


Pre-requisites:

Learning Outcome:

After learning this course, student should be able to: Identify and develop operational research models from the verbal description of the real system.

Understand the mathematical tools that are needed to solve optimisation problems.

Use mathematical software to solve the proposed models.

Develop a report that describes the model and the solving technique, analyse the results and

propose recommendations in language understandable to the decision-making processes in

Management Engineering.

Theory syllabus

Unit Content Hrs

1 Introduction to Operation Research: History of OR, Approach, Techniques & tools, Typical application of OR, Scope of OR, Limitations of OR.

3

2 Linear Programming: General L.P. Format, Formulation of production problems, Method of solution: Graphical, Simplex, Modified simplex, Big M and 2 phase methods, Application of L.P. to solve problems of production systems.

6

3 Transportation Model: Formulation, methods of solution: North West Corner, Least cost and Vogel’s approximation methods; Optimality tests: Stepping stone and MODI methods; Degenerate and unbalanced transportation problems, Application to production systems.

4

4 Assignment Model: Formulation; Methods of solution: Enumeration, transportation, Hungarian methods; Areas of application in the solution of production problems.

4

5 Project Management: CPM and PERT in project management, Concept of slack/float and its significance; Project cost analysis, Crashing, Resource smoothing and leveling, Applications in production systems.

6

6 Inventory Control: Inventory parameters and properties; Deterministic and probalistic, Inventory models; Concept of zero inventory; Application to production problems.

4

7 Queuing Models: Concepts relating to Queuing systems, types of queuing system (use of six character code), Basic elements of Queuing Model, Role of Poison & Exponential Distribution, Concepts of Birth and Death process, Steady state measures of performance, M/M/1 model with and without limitation of q-size M/G/1, single channel with Poisson arrival rate and general service time

4

8 Production Planning and control: Introduction: Types of Production systems (Mass production, process production, batch production, job production ), Characteristics, Function and objective of Production planning control-product design and development including standardization and simplification-sales forecasting:- Concept, Techniques, application,- Process planning and routing, Material control, Loading, scheduling, Dispatching, Progress reporting, Expediting, Preplanning Use of computer in PPC.

6

9 Inspection and Quality Control: Inspection: Function, Types, Objectives and benefits. Quality control: - Principles, Introduction to concepts of quality circles, Total quality management and quality assurance. Statistical quality control: - Concept, Variable and attributes, Normal distribution curves, Its property charts for variable and attributes and their application, Interpretation (analysis) process capability, Sampling plans, Acceptance sampling, OC curves and AOQ curves.

6

10 Value Engineering and value Analysis: What is value engineering, Its types, Approach and analysis, Techniques, Procedures, Advantages and application of value engineering and value control?

4

Practical content


Text Books

1 J. K. Sharma, . “Operation Research “ , Macmillan, New Delhi. 4th Edition.

2 V. K. Kapur, . “Operation Research “ , S Chand & Sons, Delhi, 2012.

3 Elwood S. Buffa & Rakesh K. Sarin, “Modern Production / Operations Management”, Wiley India Pvt. Limited, New Delhi. 8th Edition.

Reference Books

1 Wilkes Michael, “Operational Research, Analysis and Applications”, Tata McGraw Hill, New Delhi. 2012.

2 Richard Levin et.al. “Quantitative approaches to Management” Tata McGraw Hill, New Delhi.2014.

3 Vohra D.N. “Quantitative Techniques in Management”, Tata McGraw Hill, New Delhi. 4th Edition.

4 O.P. Khanna., “Industrial Engineering and Management” Dhanpat rai Publications Ltd. Delhi. 2013.

5 K. K. Ahuja, “Industrial Management”, Khanna Publishers, Delhi. 2012.

6 S.S. Rao, “Engineering Optimization”, New age international Ltd, New Delhi. 2009.

GANPAT UNIVERSITY




Subject code 2ME803 Subject Name Computer Aided Manufacturing



L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100


Pre-requisites:

Learning Outcome:

After learning this course, student should be able to: Understanding of Computer Aided Manufacturing (CAM) systems.

Learn the fundamental of CNC Codes and Programming on CNC Machines

Understand the introduction to Computer Aided Process Planning (CAPP) Systems, Robotic

Systems, Group Technology and Cellular Manufacturing Systems

Students will cultivate understanding about Automated Material Handling Systems, Automated

Inspection Systems, Flexible Manufacturing Systems( FMS )

Theory syllabus

Unit Content Hrs

1 Computer Numerical Controls: Introduction, Definition, Merits and demerits of NC, CNC & DNC & VNC. Basic components, Types of controls, Axis designation, Tooling, Automatic Pallet changer mechanism, Adaptive control of machine tool, Manual programming (offline) ISO codes (Basic G and M. codes) Programming Turning centre and Machining centre APT language, Inter facing with CNC programming software. Canned Cycle, Macros & sub routine.

12

2 Material Handling and Storage: Types, Characteristics, AGV system, Guidance, Rating and control, AS/RS, Components, Controls and applications, Integrating automated material handling and storage system to manufacturing environment. Bar code Render, Walking Beam theory.

8

3 Group Technology: Introduction, Part families, Part classification and coding, Machine cells, Benefits of group technology.

5

4 Flexible Manufacturing System & Automation: Introduction to FMS, components, FMS cell, layout, design and operation, Integration, Introduction to automation

4

5 CAPP: Need, Types, Benefits, CAPP and expert system, computerized database machinist system.

4

6 Industrial Robotics: Configuration, Types of robot control, End effectors, Sensors, Robot programming, types, Languages, Integration and application in manufacturing

6

7 Rapid prototyping: 6

Introduction, Methods of rapid prototyping (subtraction, addition), Stereo lithography, rapid tooling, FDM, 3-D Printing, LOM and SLS.

Practical content

The term work shall be based on experimental and analytical work on topics mentioned above.

Text Books

1 Mikell P.Groover, "Automation, Production Systems and Computer Integrated Manufacturing" Pearson Education Asia, 4th Edition.

2 Radhakrishnan, “CAD/CAM /CIM””- Tata McGraw Hill, New Delhi. 3rd Edition.

Reference Books

1 T.K. Kundra, P.N. Rao and N. Tewari, “Numerical Control and Computer Aided Manufacturing”, Tata McGraw Hill, New Delhi. 2009.

2 Peter Smid, “CNC Programming”, New York. 3rd Edition.

3 HMT “Mechatronics” Tata McGraw Hill, New Delhi. 2008.

GANPAT UNIVERSITY




Subject code 2ME804 Subject Name Major Project



L TU P TW

Credit 0 0 4 0 4 Theory 00 00 00

Hours 0 0 8 0 8 Practical 100 100 200

Pre-requisites:

Learning Outcome:

After learning this course, student should be able to: Demonstrate knowledge of contemporary issues in their chosen field of Project.

Demonstrate an ability to present and defend their Project work to a panel of experts.

Demonstrate a depth of knowledge of Mechanical Engineering.

Theory syllabus

Unit Content Hrs

1 The Student will have to prepare a thorough project report/ literature review based on practical work or experimental work or Analysis, Simulation, Design & Development of a product, using CAD – CAM software and will have to give a presentation based on it.

40

2 The project may be carried out either in Institute or Industries or Research organization. Concerned guide & Head of the Department should approve project. The examiners will evaluate project at the end of the term.

80

Practical content

The students will have to submit the project report with thorough literature review and presentation of the subject matter.

Text Books

GANPAT UNIVERSITY




Subject code 2ME805/1 Subject Name Welding Technology



L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100


Pre-requisites:

Knowledge of Metal Forming And Fabrication Technology

Learning Outcome:

After learning this course, student should be able to: Understand the basic of various process of welding

Learn and Evaluate metallurgical and mechanical aspect of welding processes.

Learn and implementation testing of welded components.

Learn about the welding codes and standards.

Learn about WPS, PQR and WPQR.

Theory syllabus

Unit Content Hrs

1 Welding processes, principles & equipment study: Manual metal arc welding, Tungsten inert gas welding, Metal Inert gas welding, Submerged Arc welding, Electron Beam welding, Friction Welding, Plasma welding, Under water welding, Selection of processes & Selection of electrode, welding defects. Effect of Process Parameters.

10

2 Metallurgical aspects of welding: Heat affected zone, Metal solidification, stresses residual and thermal, Distortion of parts, Dilution, Pre heat and post heat treatment

7

3 Automation in welding: Types of Weldment Holding Devices, equipment productivity in welding, Temperature consideration & duty cycle of drives.

4

4 Weld joint design and repair of weldments: Position, groove and edge preparation, design consideration for best weld, repair process for defects

6

5 Destructive &Non-destructive testing: Various tests like Tensile, Impact, Bend, Hardness, Non-destructive test like Visual, dye penetrant test, magnetic particle test, radiography test, ultrasound test as per standards

6

6 Welding Codes and Standards: Weld Procedure Specification, Procedure Qualification Record understanding, importance of various Essential, Supplementary Essential, Non-Essential Variable

6

7 Advanced welding process: Friction stir welding, Narrow gap welding, Activated TIG welding

6

Practical content


Text Books

1 R.S. Parmar, “Welding Technology”, Khanna Publisher, Delhi. 2nd Revised Edition.

2 Rechard L. Little, “Welding and Welding Technology”, Mc Graw Hill, New Delhi. 2004.

Reference Books

1 Newnes, “Fusion Welding and Brazing of Copper Alloys”, Buttchworths, London, 2006.

2 H. G. Ranjon, “Welding Metallurgy”, Jaico Publishing House, Mumbai.2007.

3 L. M. Goyrd, “Principle of Welding Technology”, Viva Books Pvt. Ltd, New Delhi.2006.

4 David Widgery, “Tubular Wire Welding”, Jaico Publishing House, Mumbai. 2009.

5 Larry Jeffus, “Welding Principles and Applications”, Cengage Learning International Edition, USA. 7th Edition.

6 Howard Cary, “ Modern Welding Technology”, Prentice Hall, USA. 6th Edition.

GANPAT UNIVERSITY




Subject code 2ME805/2 Subject Name Automobile Engineering



L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100


Pre-requisites:

Basic Knowledge of I.C Engines and Thermal Engineering

Learning Outcome:

After learning this course, student should be able to: Understand anatomy of the automobile in general and importance of each part.

Get the knowledge of various parts like engine, transmission, clutch, brakes, the steering and the suspension systems operate.

Get the Knowledge of vehicle dynamics and electronic system of automotive.

Understand about Emissions controls and Vehicle Maintenance.

Theory syllabus

Unit Content Hrs

1 Introduction: Vehicle specifications, Classifications, Chassis layout, Frame, Main components of automobile and articulated vehicle, Materials and their properties. Forces acting on vehicle in motion, Weight transfer due to various resistance acting on a vehicle , Power requirements , Motion resistance and power loss; Tractive efforts and vehicle performance curves, Stability of a vehicle in motion around the curve.

4

2 Transmission System: Clutch: Function of Clutch Constructional features & Components of each type of clutch, Clutch Linkage, Dual clutch Transmission, Effect of misalignment and miss-adjustment of components. Gear Box: Sliding, Constant mesh and Synchromesh type gear box, Automatic gear transmission, fluid coupling torque converter, Over speed drive and its working. Propeller Shaft: Universal joints, Slip joint, Constant velocity joint, Hotchkiss & Torque tube Drives. Final Drive and Rear Axle: Types of front drive, Differential

10

3 Axle, Suspension and Steering System: Front Axle: Types, Construction, Components and their functions. Suspension System: Principle, Type of suspension system, Conventional and independent front and rear axle, Air suspensions, Automatic/Hydro suspension system. Steering System: Steering Layout, Types of steering gears, Steering linkages, Steering mechanism, Definitions, and Significance of camber, Caster, king pin inclination, Toe in and toe out on turn. Measurement and adjustment of various steering system layouts, Steering ratio, Under steering and over steering,

10

4 Brakes, Wheels and Tyres: Brakes: Need, Types, Mechanical, Hydraulic and pneumatic brakes, Disc and drum types, Their relative merits, Details of components, Brake adjustments and defects, Power brakes. Wheels and Tyres: Types, Tyre construction, Specification, Tyre wear and cause, Wheel balancing

5

5 Electrical and Electronics System:- Battery: Construction, working, methods of rating, faults, charging methods, test, construction, faults and diagnosis, voltage and current regulator, purpose, typical circuit, layout, working principle, voltage setting. Lighting system: Wiring system, head lights, aiming of head lights, indicating lights. Accessories like direction indicators, hazard flashes, horn, speedometer, tachometer, wind screen wiper, wind screen washer, central locking system, power windows, and vehicle tracking system. Safety provisions:- air bags/ safe

5

6 Silencer - Mufflers types: Baffle type, Wave cancellation type, Resonance type, Absorber type, Combined resonance and absorber type, Their construction and capacity to damp high and low frequency waves

3

7 Vehicle Testing, Maintenance and Regulation: Need of vehicle testing, Vehicle tests standards, Different vehicle tests. Maintenance and trouble shooting and service procedure, Over hauling ,Engine tune up, Tools and equipment for repair and overhaul ,Organization and management of service station , Testing equipment, Selection of power unit and engine performance characteristics troubleshooting and rectification, Engine tuning and servicing, Motor Vehicle act etc

4

8 Emission of Automotive Engines: Emission formation in S.I. engines – Hydrocarbons – Carbon monoxide – Nitric Oxide, Controlling of pollutant formation in engines , After-treatment Devices DOC,SCR, EGR Systems Valve types , EGR Circuit types , EGR Cooler types, EGR- Types Internal , Low pressure , High pressure, Controlling of emissions, Exhaust gas recirculation, Air injection

4

Practical content

The term work shall be based on experimental and analytical work on topics mentioned above Field work.

Text Books

1 Dr.K. M. Gupta, “Automobile Engineering Vol- I & II”, Umesh Publications, Delhi. 2002.

2 Dr. Kirpal Singh, “Automobile Engineering Vol- I & II”, Standard Pub. & Dist. New Delhi. 2008.

Reference Books

1 William Crouse, “Automotive Mechanics”, Tata McGraw Hill, New Delhi. 2006.

2 G. B. S. Narang, “Automobile Engineering”, Khanna Pub, Delhi. 2005.

3 H. G. Katariya, “Automobile Engineering”, J.P. Hadiya, Books India, Ahmedabad. 1st Edition 2012.

4 R. B. Gupta, “Automobile Engineering”, Satya Prakashan, New Delhi. 2015.

GANPAT UNIVERSITY




Subject code 2ME805/3 Subject Name Air Conditioning Engineering



L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100


Pre-requisites:

Basic Thermodynamics Heat and Mass Transfer

Learning Outcome:

After learning this course, student should be able to: Appreciate and understand the concepts and components of air conditioning systems and

applications.

Applied the general knowledge of indoor thermal comfort and environmental health and will get the

knowledge of moist air properties and conditioning processes.

Know about the heating and cooling load required for a building.

Understand design of duct, selection of fan and measuring instruments used In air conditioning

system.

Theory syllabus

Unit Content Hrs

1 Psychometrics: Concept of Psychometric and Psychometrics, Psychometric relations, Adiabatic Saturation process, Psychometric charts and Processes, Psychrometers.

6

2 Human Comfort: Thermodynamics of human body, factors affecting comfort, effective temperature, factors governing optimum effective temperature.

4

3 Air conditioning Systems: Air conditioning cycle, Classification of Air conditioning systems, control system, Zoned system, Unitary system, Unitary central system, Ice system of air conditioning , Room sensible heat factor, grand sensible heat factor, Application of air conditioning.

6

4 Air conditioning Equipment, Components and Controls: Package units, Central units , Filters, Fans, Air washer, Radiator and Connector, Manually controlled system, Automatic system, Semi-automatic system, Automatic humidity control, Air movement control, Automatic temperature control, Limit switches and Noise control

7

5 Duct and Air distribution Systems: Duct size, shape, material and construction, continuity and Bernoulli’s equations for ducts, pressure losses in circular and rectangular duct, Dynamics losses in duct and Duct design. Principles of air distribution system, Air handling system, Room air distribution, Types of air distribution system with application.

8

6 FAN: Types of Fans, Fan air power, Fan efficiencies, Velocity triangle for moving blades of centrifugal fan, Fan similarity laws, Fan performance.

8

7 Load Estimation and Measuring instruments: Cooling load estimate, Heating load estimate, Solar heat gain through glass, Thermal barrier, Infiltration, Internal heat gains, System heat gain , Design of cold storage, Measurement of Humidity, infiltration, Pressure , Air flow and Temperature.

6

Practical content

The term work shall be based on experimental and analytical work on topics mentioned above Field work.

Text Books

1 P.S.Desai, “Modern Refrigeration and Air conditioning”, Khanna Publication, Delhi. 2nd Edition.

2 Domkundwar, “Refrigeration & Air Conditioning”, Dhanpatrai& Co., Delhi. 2012.

Reference Books

1 Roy J. Dossat, “Principles of Refrigeration”, Publisher Prentice Hall, USA, 5th Edition.

2 C.P.Arora, “Refrigeration and Air conditioning”, Tata McGraw Hill, New Delhi. 3rd Edition.

3 Bellany, “Refrigeration & Air Conditioning”, Khanna Publication, Delhi. 3rd Edition.

4 Shan K. Wang, “Handbook of Air Conditioning and Refrigeration” McGraw-Hill, New York, 2nd Edition.

GANPAT UNIVERSITY



Effective from Academic Year 2017-18 Effective from the batch Admitted in

Subject code 2ME805/4 Subject Name Industrial Automation



L TU P TW

Credit 3 0 1 0 4 Theory 40 60 100


Pre-requisites:

Student should have:

Knowledge of Basic Electrical Engineering

Basic Electronics

Digital Electronics

Electronics Measurement and Instrument

Learning Outcome:

After the successful completion of this course, the student will be able to :

Understand concept of automation and used of Mechanism of low cost Automation and component used for Automation.

Choose the appropriate Sensor, Microprocessor, controller & PLC and Machine vision system for a given application.

Explain the basic principles of programming and apply it and Identify suitable automation hardware for the given application.

Theory syllabus

Unit Content Hrs

1 General Concepts: General concepts of the industrial production. Concepts of production systems and production Processes, Automation production systems and their classification.

4

2 Low Cost Automation: Application of Cam, Linkages, Conveyors and Feeders, Rotary Indexing Systems and GENEVA mechanisms etc.

3

3

Sensor Technology: Terminology, classification of sensors, sensor characteristics, General Input-Output Configuration, Static Characteristics, Dynamic Characteristics, Physical Principles of Sensing, sensors in different areas, Sensor Materials, sensor applications in various fields, calibration

7

4

Microprocessor and Microcontrollers: Microprocessor evolution, overview of architecture of 8-bit microprocessor (8085), overview of 8051 microcontroller architecture, PIC Microcontroller architecture, features, Pin diagram, ports and circuits, basic concepts for programming, Interfacing overview with peripheral devices and Applications.

7

5

Programmable Logic Controller (PLC): Architecture by block diagram, I/O modules- analog-digital input and output modules, PLC programming, Ladder diagram, Sequential flow chart, PLC Communication and networking, PLC selection, PLC Installation, Advantage of using PLC for Industrial automation, Application of PLC to process control industries, PLC ports, Memory and storage, programming language- ladder diagram and its application

10

6 Distributed Control System: Overview of DCS, DCS software configuration, DCS communication, DCS Supervisory Computer Tasks, DCS integration with PLC and Computers, Features of DCS, Advantages of DCS

7

7

Human-Machine interface: man-machine interface, process control hardware, process related interfaces, networking protocols, Industrial communication systems, Data transfer techniques, data acquisition system, Internet of things (IOT) for plant automation

7

The Practical/term work shall be based on the topics mentioned above and will be defended by the candidates.

Text Books

1 Jon S Wilson, “Sensor Technology Handbook”, Newness Publishers, 2004.

2 R.S. Gaonkar “Microprocessor Architecture, Programming and Applications with 8085” Penram international Publication, 3rd Edition.

3 Garry Duning, “Programmable Logic Controller”, Cengage Learning, 3rd Edition.

4 Automation, Production Systems and Computer Integrated Manufacturing-M. P. Groover, Pearson Education.5th Edition.

Reference Books

1 J. Fraden, “Handbook of Modern Sensors: Physical, Designs, and Applications”, AIP Press, Springer. 4th Edition.

2 Kenneth J. Ayala “The 8051 micro controller-Architecture, programming and application.” Thomson learning 2nd Edition.

3 Muhammad Ali Mazidi “PIC Microcontroller and Embedded systems” Pearson Publication Edition. 1st

Edition.

4 W. Bolten, “Programmable Logic Controller”, Elsevier Newness Publication, 4th Edition.

5 B. R. Mehta, Y. Jaganmohan Reddy, “Industrial process automation systems” . 1st Edition.

https://www.google.co.in/search?tbo=p&tbm=bks&q=inauthor:%22Y.+Jaganmohan+Reddy%22

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GANPAT UNIVERSITY FACULTY OF ENGINEERING ... UNIVERSITY FACULTY OF ENGINEERING & TECHNOLOGY TEACHING AND EXAMINATION SCHEME Programme Bachelor of Technology Branch/Spec. Mechanical