Chapter 1
Getting Started:
Introductory Concepts and Definitions
Summary
Closed system
Control volume (open system)
System boundary and surroundings
Property, state and equilibrium
Process
Extensive and intensive properties, and
SI and English Engineering
Chapter 6
Using Entropy
Learning Outcomes
Explain key concepts related to entropy
and the second law, including entropy
transfer, entropy production, and the
increase in entropy principle.
Evaluate entropy, evaluate entropy
change between two states, and
Chapter 4
Control Volume Analysis Using
Energy
Learning Outcomes
Describe key concepts related to control
volume analysis, including distinguishing
between steady-state and transient
analysis, distinguishing between mass
flow rate and volumetric flow rate
ENSC 2213 Exam III
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Journal of Process Control 17 (2007) 571594
www.elsevier.com/locate/jprocont
A tutorial on biomedical process control
A tutorial on biomedical process control
Frank Doyle, Lois Jovanovic, Dale Seborg, Robert S.
Parker, B. Wayne Bequette, Annah M. Jerey, X
Jim- . -
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 14: Dynamic Behavior of Ideal Systems Part 3
February 20, 2017
Upcoming Assignments Due Date
Reading Assignment Wed. Feb. 22
Chapter 7 Sections 7.1 7.6 p. 241 253
Homework 5
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 13: Dynamic Behavior of Ideal Systems Part 2
February 17, 2017
Upcoming Assignments Due Date
Reading Assignment Wed. Feb. 22
Chapter 7 Sections 7.1 7.6 p. 241 ~ 253
Homework 5 Hwk 5 W
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 11: Transfer Functions Part 2
February 13, 2017
Upcoming Assignments Due Date
ReadingAssignment' Wed. Feb. 15
Cha ter 6 Sections 6.1 6.4 .203 215
p p TA :2 H
Homework4 Hwk 4 Fri. Feb.
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 12: Dynamic Behavior of Ideal Systems Part 1
February 15, 2017
Upcoming Assignments Due Date
Reading Assignment Fri. Feb. 17
Chapter 6 Sections 6.5 6.13 p. 215 230
Homework 4 Hwk 4 Fr
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 16: PID Control: Characteristics, Forms, & Modes Part 2
February 24, 2017
Upcoming Assignments
Due Date
Reading Assignment
Mon. Feb. 27
Chapter 8 Sections p. 281 295
Homework 5
Assign
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 17: Behavior of Systems under PID Control
February 27, 2017
Upcoming Assignments
Due Date
Homework 5
Hwk 5 Wed. Mar. 1
Assigned Problems on D2L
Exam 2
Fri. Mar. 3
Reading Assignment
C
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 15: PID Control: Characteristics, Forms, & Modes Part 1
February 22, 2017
Upcoming Assignments
Due Date
Reading Assignment
Fri. Feb. 24
Chapter 7 Sections 7.6 7.12 p. 253 274
Homework
Modeling Blood Flow Control
in the Kidney
Ashlee N. Ford Versypt
Julia Arciero
Laura Ellwein
Elizabeth Makrides
Anita T. Layton
MIT, Oklahoma State University
IUPUI
Virginia Commonwealth University
Brown University
Duke University
Impaired blood flow cont
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 18: Applications of Process Dynamics in Biomedical Engineering
March 1, 2017
Upcoming Assignments
Due Date
Homework 5
Wed. Mar. 1
Exam 2
Fri. Mar. 3
Reading Assignment
Chapter 9 Secti
CHE 4843 Chemical Process Instrumentation _& Control
Spring 2017
Lecture 10: Transfer Functions Part 1
February 10, 2017
Upcoming Assignments Due Date
Reading Assignment Mon. Feb. 13
Chapter 5 Sections 5.5 5.7 p. 172 185
Skip Sections 5.4 and 5.8 5.9
Home
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 3: Process Instrumentation Part 1 A c
TR
January 23,2017 0 H l 58"
Upcoming Assignments Due Date A NT- v I11 30 4:34)
ReadingAssignment Wed. Jan. 25 _ _
Appendix B p. 551 554 TA W "
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 5: Dynamic Modeling Part 1
January 27, 2017
i ! Upcoming Assignments Due Date
Reading Assignment Mon. Jan. 30
Chapter '3 Sections 3.6 , 3.9 p. 97 122
,i i Homework 2 Hwk 2 Wed. Feb. I
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 4: Process Instrumentation Part 2
January 25, 2017
Common Sensors
Examples of Sensors from Hwk 1 Submissions
Examples of Sensors from Industrial Tours
Fractionation Research Inc.: dif
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 2: Introduction to Process Control
January 20, 2017
Upcoming Assignments Due Date 5L1Ciohw
Reading Assignment Mon. Jan. 23 swru
61W
Un- 61
Homework 1 Hwk ] Wed. Jan. 25
Assigned Probl
Program for solving a Example in Lectures 5 & 6 system of ODEs in
MATLAB using ode45 numerical integrator
For use in OSU CHE 4843 Chemical Process Instrumentation & Control.
Nomenclature . 1
Function to solve a system of odes using ode45 . 1
Setup . 1
Cal
CHE 4843 Chemical Process Instrumentation & Control
Lec
Upcoming Assignments
Homework 3
Assigned Problems on D2L
Reading Assignment
Spring 2017
ture 9: Laplace Transforms Part 2
February 8, 2017
Chapter 5 Sections 5.1 5.3 p. 157 168
Due Date
Hwk 3 Fri. Fe
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 7: Dynamic Modeling Part 3
February 1, 2017
Upcoming Assignments
Exam 1
Covers Ch. 1 3, Hwk 1 2
Due Date
Exam 1 Fri. Feb. 3
Reading Assignment
Chapter 4 p. 131 151
Mon. Feb. 6
Homewor
CHE 4843 Chemical Process Instrumentation & Control
Spring 2017
Lecture 1: Introduction
January 18, 2017
Major Steps in Control System
Development
Typical Layers of Protection in a Modern
Chemical Plant
2 of 2
CHE 3333
Homework Set #3 (6 points)
Due: Friday, Sep 9, 2016 9:40 AM
Problem 1. (3 points)
Compute the average molecular velocity (5 in crn/s) and the mean-free path (/1 in cm) for nitrogen
at 1 atm and 303.2 K. What is the ratio of the meanfree path to t
CHE 3333
Homework Set #1 (9 points)
Due: Friday, Aug 26, 2016 9:40 AM
Problem 1. (3 points)
A Newtonian oil undergoes steady shear between two horizontal plates. The lower plate is fixed,
and the upper plate, weighing 0.05 N, moves with a constant velocit
CHE 3333
Homework Set #5 (9 points)
Due: Friday, Sep 23, 2016 9:40 AM
Problem 1. (3 points)
Use the shell-balance approach to derive the governing differential equation for the pressure drop
for a Newtonian fluid in fully developed laminar flow in the ann
CHE 3333
Homework Set #4 (9 points)
Due: Friday, Sep 16, 2016 9:40 AM
Problem 1. (3 points)
A Newtonian fluid is flowing between two parallel plates separated by a distance 2h. The pressure
drop is constant. Use the shell-balance approach to derive the go