304S14-NFF
Fogler
Study Guide: Final Exam
(On 6- 10th & 12th, 2014)
(Closed Book, Closed Notes, Four-pages of Formulas=2 Sheets)
Notation used here: EG = “example”. <105> = p.105. Etc.
Chapter 1
Topics:
Must know: mole balances, design equations for reactors: batch, CSTR, PFR, PBR.
Quizzes:
Must know how to solve the class quizzes.
Plus:
Knowledge developed from reasoning of the existing principles developed in Chapter 1.
Chapter 2
Topics:
Must know: conversion and relations to flow FA, concentration CA, etc. Design equations
for reactors: batch, CSTR, PFR, PBR. Reactors in series: combinations of CSTR &
PFR’s.
Examples:
All examples from 2-1 to 2-7.
Homework:
Problems 4, 7, 8, 9.
Quizzes:
Must know how to solve the class quizzes.
Plus:
Knowledge developed from reasoning of the existing principles developed in Chapter 2.
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Chapter 3
Topics:
Must know: stoichiometric relations among reacting species (A,B,C,D). Reaction order,
first, second, … etc. Reversible reactions. Rate constant, k, and Arrhenius law.
Activation energy and frequency factor. Batch systems, EG 3.3 <105> limiting reactions.
Flow systems (liquid phase & Gas phase reactions). Variable volume flow. EG. 3.4
<114> & EG. 3.5 <115>. Reversible (Equilibrium) reactions. EG. 3.6 <119>.
Example 3-1. Homework: 7, & 9.
Quizzes: Must know how to solve the class quizzes.
Chapter 4
Topics:
Must know: Sec. 4.2. Rate data. Sec. 4.3. CSTRs (single, series, parallel). EG. 4.2
<163>. Sec. 4.4 Tubular reactors (liquid and gas phase). EG. 4.3. <171>.
Examples and homework: #4.6, #4.7 (assigned).
Quizzes: Must know how to solve the class quizzes.
Plus:
Knowledge developed from reasoning of the existing principles developed in Chapter 4.
Chapter 8
Topics:
Must know: energy balance, relations between conversion X and temperature, T; Table
8.1 <477>. Adiabatic reactions and reactions with heat exchange (i.e. non-adiabatic
reactions). Table 8.2. Examples 8.1, 8.2, 8.3, and 8.4. Applications to PFR & CSTR’s.
Irreversible and reversible reactions. Dependence of rate constant k(T) and chemical
equilibrium Kc (T) values on temperature. Evaluation of “DELTA Hrx” and “DELTA
Cp” from thermal data.
Homework: #8.6, #8.7, #8.8 and #8.9 (assigned).
Quizzes: Must know how to solve the class quizzes.
Plus:
Knowledge developed from reasoning of the existing principles developed in this chapter
and previous chapters.
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