(Duration: TWO Years)
(Effective from year 2008-2009)
|
|
SEMESTER I |
|
|
|
SEMESTER II |
|
|
|
Course code |
Name of subject |
L-P |
Credits |
Course code |
Name of subject |
L-P |
Credits |
|
IE 5101 |
Advanced Mathematics |
3-0 |
3 |
IE 5106 |
Advanced Control System |
3-0 |
3 |
|
IE 5102 |
Transducer Design |
3-0 |
3 |
IE 5107 |
Instrumentation on Chip |
3-0 |
3 |
|
IE 5103 |
Advanced Electronic Instrumentation |
3-0 |
3 |
IE 5108 |
Advanced Process Instrumentation |
3-0 |
3 |
|
CS |
Institutional Elective |
3-0 |
3 |
IE 5109 |
Comprehensive II |
0- 8 |
4 |
|
IE 5105 |
Comprehensive I |
0-10 |
5 |
|
Elective I |
3-0 |
3 |
|
|
Total |
12-10 |
17 |
|
Elective II |
3-0 |
3 |
|
|
|
|
|
|
|
15- 8 |
19 |
|
|
|
|
|
|
|
|
|
|
|
SEMESTER III |
|
|
|
SEMESTER IV |
|
|
|
IE 5114 |
Pre Project Seminar |
|
4 |
IE 5116 |
Pre submission Seminar (With Demonstration) |
|
8 |
|
IE 5115 |
Progress Seminar for stage I |
|
5 |
IE 5117 |
Final examination |
|
15 |
|
|
Total |
|
9 |
|
|
|
23 |
|
|
|
|
|
|
|
|
|
|
IE 5110 |
Process Dynamics & Identification |
|
IE 5111 |
Batch Process Control |
|
IE 5112 |
Instrumentation for Strategic Applications |
|
IE 5113 |
Building Automation |
(Duration: TWO Years)
(Effective from year 2008-2009)
|
|
SEMESTER I |
|
|
|
SEMESTER II |
|
|
|
Course code |
Name of subject |
L-P |
Credits |
Course code |
Name of subject |
L-P |
Credits |
|
IE 5101 |
Advanced Mathematics |
3-0 |
3 |
IE 5106 |
Advanced Control System |
3-0 |
3 |
|
IE 5102 |
Transducer Design |
3-0 |
3 |
IE 5107 |
Instrumentation on Chip |
3-0 |
3 |
|
IE 5103 |
Advanced Electronic Instrumentation |
3-0 |
3 |
IE 5108 |
Advanced Process Instrumentation |
3-0 |
3 |
|
CS |
Institutional Elective |
3-0 |
3 |
IE 5109 |
Comprehensive II |
0- 8 |
4 |
|
IE 5105 |
Comprehensive I |
0-10 |
5 |
|
Elective I |
3-0 |
3 |
|
|
Total |
12-10 |
17 |
|
Elective II |
3-0 |
3 |
|
|
|
|
|
|
|
15- 8 |
19 |
|
|
|
|
|
|
|
|
|
|
|
SEMESTER III |
|
|
|
SEMESTER IV |
|
|
|
IE 5114 |
Pre Project Seminar |
|
4 |
IE 5116 |
Pre submission Seminar (With Demonstration) |
|
8 |
|
IE 5115 |
Progress Seminar for stage I |
|
5 |
IE 5117 |
Final examination |
|
15 |
|
|
Total |
|
9 |
|
|
|
23 |
|
|
|
|
|
|
|
|
|
|
IE 5110 |
Process Dynamics & Identification |
|
IE 5111 |
Batch Process Control |
|
IE 5112 |
Instrumentation for Strategic Applications |
|
IE 5113 |
Building Automation |
Teaching Scheme: Lectures : 3 hrs/week
Examination Scheme: Mid-sem. test – 30 marks
End sem. Exam – 50 marks
Quizzes & Assignments – 20 Marks
PART A:
Introduction to Nonlinear systems
Methods of analysis
Lyapunov Stability
Introduction to Feedback Linearization
Input-State Linearization
Input-Output Linearization
Design of controllers using Feedback Linearization
Robust Feedback Linearization
PART B:
Introduction to variable structure control system, sliding mode control (SMC), uncertain systems, continuous and discrete sliding mode control, delta transform, model following SMC, estimation methods, time delay control and inertial delay control, sliding mode observer
Texts/References
1. H. Nijmeijer and AVD Schaft, Nonlinear Dynamical Control Systems, Springer Verlag, New York, 1990.
2. JJE Slotine and W. Li, Applied Nonlinear Control, Prentice Hall, New Jersey, 1991.
3. B. Friedland, Advanced Control System Design , Prentice Hall, New Jersey, 1996.
4. HK Khalil, Nonlinear Systems , Prentice Hall, New Jersey, 2002.
5. R.H.Middleton and G.C.Goodwin, Digital control and estimation: A unified ap-
proach. Prentice Hall, New Jercy, 2 ed., 1990.
6. Sliding Mode Control: Theory And Applications, C. Edwards and Spurgeon, Springer US
7. U. Itkis, Control system of variable structure, Wiley, New York (1976).
IE 5103 Advanced Electronics Instrumentation
Waveform measuring instruments, advanced digital oscilloscopes, analyzing recorders, oscillographic recorders, Arbitrary waveform generator, Data acquisition system, Advanced universal counters, timers and their applications, Digital measuring instruments, Digital field testers, applications related to use of instruments for process and biomedical like signal generation, and simulation. Test and calibration standards, traceability, EMI\EMC, documentation for test and calibration.
Reference Books
1. Electronics Handbook By Coombs
2. Electronics Measurement By Carr, Brown
3. Introduction to instrumentation and measurements by Northrop R. B., CRC Press
4. Safety Standard for Electrical and Electronic Test, Measuring, Controlling and Related Equipment - General Requirements, 1999, ISA
IE 5101 Advanced Mathematics
Numerical Methods to ordinary differential equations:
Numerical solutions to ordinary differential equations of first & second order with initial & boundary conditions, Picard’s method, Taylor series methods, Euler’s method & modified Euler’s method, Plilne’s method & Runge Kutta methods.
Numerical Solutions to partial differential equations:
Finite difference equivalence to partial derivatives, elliptic, parabolic & hyperbolic equations, applications to one dimensional & two dimensional equations, Schmidt’s & Cronk Nicholson’s method.
Linear Programming Problems:
Introduction & formations of the problems, graphical method, simplex method, duality concept in LPP & solution of the dual.
Statistical Quality Control:
Introduction, control charts of all types, ISO 9000 series & their importance, OC curves, advantages & limitations of SQL in industries.
Random Variables & theoretical distributions:
Discrete & continuous frequency distributions, Stochastic process, Marovian chain, simulation techniques.
Reliability Theory:
Theory of reliability, maintainability, availability, failure distribution, MTTF, MTBF, Hazard rate, Bath tub curve, state dependent systems, series & parallel connection, redundancy of systems.
Reference Books
Lab. Practices
IE 5120 Instrumentation lab II (Term II)
Laboratory work should be based on the design and development of new system/ instrument or modifications of existing systems/instruments
IE 5119 Instrumentation lab I (Term I)
Laboratory work should be based on the design and development of new system/ instrument or modifications of existing systems/instruments
Project
IE 5124 Project Seminar (Term III)
The term work will consist of a report prepared by every student on seminar topic allotted to them and oral presentation. The student is expected to submit the seminar report in standard format approved by Dean, Academic in partial fulfillment of the requirement for the degree of M.Tech. Instrumentation and Control
IE 5125 Project Work (Term IV)
The dissertation topic / project should be selected to ensure the satisfaction of the urgent need to establish a direct link between education, national development and productivity and thus reduce the gap between the world of work and the world of study. The term work will consist of a report prepared by the students on project allotted to them.
It may be based on
1) entirely on study and analysis of typical Instrumentation and Control system,
2) experimental verification, or
3) design, fabrication, testing, and calibration of an instrumentation system. The oral examination will be based on the above report and work
Seminar
The progress project seminar I will consist of the project work completed as per the schedule / plan submitted by the student.
The progress project seminar II will consist of the project work completed as per the schedule / plan submitted by the student with demonstration.
The term work will consist of a report prepared by the students on project allotted to them. It may be based on 1) entirely on study and analysis of typical Instrumentation and Control system, 2) experimental verification, or 3) design, fabrication, testing, and calibration of an instrumentation system. The oral examination will be based on the above report and work.
IE 5102 Transducer Design
Review of transducers for various parameters like temperature, pressure, flow, level, humidity, acceleration, vibration, density etc. Design considerations and selection criterion as per standards, Sensor fabrication techniques, process details, and latest trends in sensor fabrication, fiber optics sensors, electromechanical sensors, Solid state chemical sensors, Bio-sensors, Piezo-resistive sensors, characterization of sensors, effect of sensors on process identification, signal conditioning techniques.
Reference Books
ツ 1. Smart sensors By Chapman (ISA handbook)
2. Electrical Transducer Nomenclature & Terminology, 1975 (Reaffirmed 1982), ISA
3. Sensors handbook By Solomon
4. Biosensors By Brayan Eggins
5. Fiber optics sensors By Eric, Vdd (Wilen Intev Science)
Electives
IE 5109 Advanced Process Instrumentation
Process identification using various techniques, Analysis of some common processes like Distillation column, Boilers, Heat Exchangers, Dryers, Continuous Stirred Tank Reactor, Compressors. Modeling of some common processes & Utilities like Boiler, Refrigeration unit, Chiller plant, D. M. water plant, Instrument air supply. Application of Advanced process Instrumentation Tools to various processes.
Reference Books
1. Principles of Applied instrumentation by Andrews, Vol. I, II, III, IV
2. Process Instrumentation by F. G. Shinsky
3. Process Control by B. G. Liptak
4. Design and Application of Process Control Systems, ISA
IE 5110 Process Analysis and System Design
Introduction to process control, control objective and benefits, process dynamics, analysis for process control, dynamic behavior of typical process systems, PID algorithms, stability analysis and controller tuning, process control design: definition and design, managing the design procedure, continuous improvement.
Reference Books
1. Process control designing processes and control system for dynamic performance by Thomas E. Marlin, McGraw Hill
2. Design and Application of Process Control Systems, ISA
3. Fundamentals of process control theory 3rd edition P.W.Murrill 2000, ISA
Process modeling, Simulation and Control for Chemical engineers By William L. Luyben, McGraw Hill
IE 5112 Process Modeling and Optimization
Review of thermodynamics, Vapor Liquid System, Ideal and non ideal gas, Equation of state for gas, Different chemical laws applicable for process modeling, writing models for different process and control systems, optimization of different models, different optimization techniques, Introduction to equipment cost, capital cost, time value of money, profitability
Reference Books
1. Continuous Process Control, ISA
2. Process modeling, Simulation and Control for Chemical engineers By William L. Luyben, McGraw Hill
3. Optimization theory and application by S., S. Rao, Wiley publication
4. Design of thermal System by W. F. stocker, McGraw Hill
IE 5109 Advanced Process Instrumentation
Process identification using various techniques, Analysis of some common processes like Distillation column, Boilers, Heat Exchangers, Dryers, Continuous Stirred Tank Reactor, Compressors. Modeling of some common processes & Utilities like Boiler, Refrigeration unit, Chiller plant, D. M. water plant, Instrument air supply. Application of Advanced process Instrumentation Tools to various processes.
Reference Books
1. Principles of Applied instrumentation by Andrews, Vol. I, II, III, IV
2. Process Instrumentation by F. G. Shinsky
3. Process Control by B. G. Liptak
4. Design and Application of Process Control Systems, ISA