Pc Lesson Plan
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LESSON PLAN
Faculty Name A.SELWIN MICH PRIYADHARSON Faculty ID TTS1246
Subject Name PROCESS CONTROL Subject Code EI2352
Class VI SEM – E&I Month & Year
Dec 2010 –
April
2011
AIM
To provide adequate knowledge in Process Control
OBJECTIVES
i. To study the basic characteristics of first order and higher order processes.
ii. To get adequate knowledge about the characteristics of various controller modes
and methods of tuning of controller.
iii. To study about various complex control schemes.
iv. To study about the construction, characteristics and application of control valves.
v. To study the five selected unit operations and a case study of distillation
column control
.
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S.No Hour Topic UNIT
1 Hour 1 Need for process control I
2 Hour 2 mathematical model of first order level processes I
3 Hour 3 mathematical model of first order pressure processes I
4 Hour 4 mathematical model of first order thermal processes I
5 Hour 5 higher order process I
6 Hour 6 interacting and non-interacting systems I
7 Hour 7 continuous processes I
8 Hour 8 batch processes I
9 Hour 9 Servo and regulator operations. I
10 Hour 1 Basic control actions II
11 Hour 2 characteristics of on-off, proportional control modes II
12 Hour 3 characteristics of single-speed floating control modes II
13 Hour 4 characteristics of integral and derivative control modes II
14 Hour 5 P+I control modes II
15 Hour 6 P+D control modes II
16 Hour 7 P+I+D control modes II
17 Hour 8 Pneumatic controllers to realize various control actions. II
18 Hour 9 Electronic controllers to realize various control actions. II
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S.No Hour Topic UNIT
19 Hour 1 Evaluation criteria – IAE III
20 Hour 2 Evaluation criteria – ISE III
21 Hour 3 Evaluation criteria – ITAE III
22 Hour 4 Evaluation criteria ¼ decay ratio III
23 Hour 5 determination of optimum settings for mathematicallydescribed processes using time response
III
24 Hour 6 determination of optimum settings for mathematicallydescribed processes using frequency response
III
25 Hour 7 Tuning – Process reaction curve method III
26 Hour 8 Tuning – Ziegler Nichols method III
27 Hour 9 Damped oscillation method III
28 Hour 1 Feed-forward control IV
29 Hour 2 ratio control IV
30 Hour 3 cascade control IV
31 Hour 4 inferential control IV
32 Hour 5 split-rangecontrol
IV
33 Hour 6 introduction to multivariable control IV
34 Hour 7 examples from distillation column IV
35 Hour 8 examples from boiler systems IV
36 Hour 9 examples from boiler systems IV
37 Hour 1 I/P converter V
38 Hour 2 pneumatic actuators V
39 Hour 3 electric actuators V
40 Hour 4 valve positioner V
41 Hour 5 control valves V
42 Hour 6 characteristics of control valves V
43 Hour 7 inherent and installed characteristics V
44 Hour 8 valve body – commercial valve bodies V
45 Hour 9 cavitation and flashing – selectioncriteria.
V