COURSE DELIVERY PLAN - THEORY Page 1 of 7 Department of Chemical Engineering B.E/B.Tech/M.E/M.Tech : Chemical Engineering Regulation:2013 PG Specialisation : NA Sub. Code / Sub. Name : CH 6605 - Process Instrumentation, Dynamics and Control Unit : I LP: CH 6605 Rev. No: 01 Date: 2/1/2017 1 Unit Syllabus: INSTRUMENTATION Principles of measurements and classification of process instruments, measurement of temperature, pressure, fluid flow, liquid weight and weight flow rate, viscosity, ph, concentration, electrical and thermal conductivity, humidity of gases. Objective: To introduce the field measuring instruments and their Principles. Principles of measurements and classification of process instruments 2 Principles and classification of Temperature measurement Devices. 3 Principles and classification of Pressure measurement Devices 4 Principles and classification of Fluid flow 5 Principles and classification of liquid weight and weight flow rate measurement Devices. 6 Viscosity, p H and concentration measurements 7 Electrical and Thermal Conductivity measurement 8 Measurement of Humidity of gases T3-ch.1; pg. 1 T3-Ch.1; pg. 1-3 T3-Ch.2; pg.4-13 T3-Ch.3; pg.1-07 T3-Ch.3; pg.1-07 T4, Ch10, Pg 316, Ch6, Pg 180, T4-Ch6, Pg 168 T4-Ch6, Pg 171 Composition measurements by physical properties and spectroscopy 9 methods Content beyond syllabus covered (if any): Composition measurements by physical properties and spectroscopy methods - * duration: 50 minutes
COURSE DELIVERY PLAN - THEORY Page 2 of 7 Unit : II Unit Syllabus: OPEN LOOP SYSTEMS Laplace transformation and its application in process control. First order systems and their transient response for standard input functions, first order systems in series, linearization and its application in process control, second order systems and their dynamics; transportation lag.. Objective: To analysis the static and dynamic behavior of chemical processing system and models employed through the use of Laplace transforms. 10 Introduction to Chemical Process control and Instrumentation 11 Theorems in Laplace transformation, Derivatives, Integrals and Inversion of standard functions 12 Open loop systems, physical examples of first Order systems 13 Transient behavior of standard input functions 14 First Order systems in Series-Interacting and Non-Interacting types 15 Problems on Interacting type and Non-Interacting types first order systems 16 Linearization and its application in process control 17 Second order systems and their dynamics with an example and its response to standard forcing functions 18 Transportation lag T2-Ch.1; pg.1-11 T2-Ch.2; Pg18-25 T2-Ch.5; pg.69 & 99 T2-Ch.4; pg.69-87 T2-Ch.6; pg.123-128 T2-Ch.6; pg.123-128 T2-Ch.5; pg.109 T2-Ch.7; pg.137-152 T2-Ch.7; pg.153 /BB Development of transfer functions for chemical reactors and its 19 - Transient behavior of standard input function Content beyond syllabus covered (if any): Development of transfer functions for chemical reactors and its Transient behavior of standard input function * duration: 50 mins
COURSE DELIVERY PLAN - THEORY Page 3 of 7 Unit : III Unit Syllabus: CLOSED LOOP SYSTEMS Closed loop control systems, development of block diagram for feed-back control systems, servo and regulatory problems, transfer function for controllers and final control element, principles of pneumatic and electronic controllers, Objective: To develop block diagram using transfer functions for closed loop systems and stability analysis 20 Introduction to closed loop control systems 21 22 Development of block diagram for feed-back control systems- servo problems Development of block diagram for feed-back control systems regulator problems 23 Servo and regulatory problems in closed systems 24 25 Development of transfer function for ON-OFF, P, PI, PD and PID Controllers Development of transfer function for final control element and problems 26 Principles of pneumatic controllers 27 Principles of electronic controllers T2-Ch.11; pg.218-219 T2-Ch.12; pg.228-229 T2-Ch.12; pg.229-234 T2-Ch.12; pg.236-241 T2-Ch.10; pg.211 T2-Ch.10; pg.209 T2-Ch.9; pg.186 T2-Ch.7; pg.187 /BB 28 Analytical method stability analysis by Routh test - Content beyond syllabus covered (if any): Analytical method stability analysis by Routh test * duration: 50 mins
SRI VENKATESWARA COLLEGE OF ENGINEERING COURSE DELIVERY PLAN - THEORY Page 4 of 7 Unit : IV Unit Syllabus: FREQUENCY RESPONSE - Introduction to frequency response of closed-loop systems, control system design by frequency response techniques, Bode diagram, stability criterion, tuning of controllers Z-N tuning rules, C-C tuning rules. Objective: Emphasis on Frequency Response Analysis and its application in feedback controller settings 29 Introduction to frequency response of closed-loop systems 30 Control system design by frequency response method, 31 Stability analysis using bode diagram 32 Bode diagram for first order and second order system. 33 Bode diagram for PI, PD and PID Controllers 34 Problems in stability criterion of bode diagram 35 Tuning of controller settings using Ziegler-Nichols rules 36 Tuning of controller settings using Cohen-Coon method 37 Problems in stability and controller tuning 38 Stability analysis using Nyquist diagram Content beyond syllabus covered (if any): Stability analysis using Nyquist diagram pg.285-287 pg.285-287 pg.300-311 pg.300-316 pg.312-315 T2-Ch.16; pg.326-327 T2-Ch.18; pg.394-396 T2-Ch.18; pg.397-401 T2-Ch.18; pg.404-409 /BB /BB * duration: 50 mins
SRI VENKATESWARA COLLEGE OF ENGINEERING COURSE DELIVERY PLAN - THEORY Page 5 of 7 Unit : V Unit Syllabus: ADVANCED CONTROL SYSTEMS Introduction to advanced control systems, cascade control, feed forward control, Smith predictor, control of distillation towers and heat exchangers, introduction to computer control of chemical processes. Objective: Analysis and Design of advanced control systems, cascade control of chemical processes 39 Controller mechanism, introduction to advanced control systems 40 41 42 Cascade control with an example and development of block diagram for servo and regulator problems Feed forward control with an example development of block diagram for servo and regulator problem Smith predictor with an example development of block diagram for servo and regulator problem 43 Control of distillation towers 44 Different control techniques used in distillation control 45 Control of heat exchangers 46 Introduction to computer control of chemical processes. 47 Importance of microprocessors in control system studies pg.353 pg.353 pg.354-360 pg.373-376 T1-Ch.17; pg.01-52 T1Ch.17; pg.01-52 T1-Ch.17; pg.01-52 T2-Ch.26; pg.581-595 T2, Ch35, Pg 543 Content beyond syllabus covered (if any): Importance of microprocessors in control system studies * duration: 50 mins
SRI VENKATESWARA COLLEGE OF ENGINEERING COURSE DELIVERY PLAN - THEORY Page 6 of 7 Sub Code / Sub Name: : CH 6605 PROCESS INSTRUMENTATION, DYNAMICS AND CONTROL
COURSE DELIVERY PLAN - THEORY Page 7 of 7