CHE 3323 Homework 3 (due 02/05/15)
Problem 1: A reaction is started in a batch reactor with the following parameters: CA0 =
1.5 M and k = 0.3 (units?). What are the expected CA temporal profiles if th
CHE 3323 Spring 2015 Exam 1 Study Guide
Need to know:
Ch 1
Reactor types and main assumptions (including PBR)
Mole balances for each reactor type and simplified differential forms
Reaction rate expres
CHE 3323 Homework 8 (due 03/26/15)
Problem 1: Fogler P6.9. Solve part (b) using X and F algorithms.
Problem 2: A B gaseous reaction occurs in a microreactor consisting of 200 parallel channels
of 90 m
ChE 3323: Chemical Reaction Engineering Spring 2015
Course information
Instructor
Dr. Carla Lacerda
Office
LIV 219
Phone
Office: 742-4089
Email
[email protected]
Office Hours
F 1 3 pm
Time/Place
L
CHE 3323 Homework 4 (due 02/12/15)
Problem 1: Fogler 2-13 attached.
Problem 2: Cell growth in bioreactors is autocatalytic. The substrate feedstream is 0.1 kg/h. The
Levenspiel plot for substrate conv
CHE 3323 Homework 4 (due 02/12/15)
Problem 1: Fogler 2-13 attached.
Problem 2: Cell growth in bioreactors is autocatalytic. The substrate feedstream is 0.1 kg/h. The
Levenspiel plot for substrate conv
CHE 3323 Homework 3 (due 02/05/15)
Problem 1: A reaction is started in a batch reactor with the following parameters: C AO =
1.5 M and k = 0.3 (units?). What are the expected CA temporal profiles if t
CHE 3323 Homework 2 (due 01/29/15)
Problem 1: Fogler Problem 1.11 (attached).
Work the full problem as requested on the problem statement attached to page 2.
You need to turn in two sets of solutions.
CHE 3323 Homework 1 (due 01/22/15}
Problem 1:
3) Use the dataset below to ﬁnd the area under the curve with the following approaches: i) Trapezoid
rule with 3 trapezoids; ii) 1/3 Simpson's rule; iii)
RX-006H
Revised: Nov 6, 2012
Isomerization in a PFR with Aspen HYSYS V8.0
1. Lesson Objectives
Use chemical reaction kinetics to calculate the reactor length required to reach a desired conversion
in