Page 452 - Elements of Chemical Reaction Engineering Ebook
P. 452
Chap. 7' CD-ROM Material 423
P7-328, The production of L-malic acid (used in medicines and food additives) was pro-
duced over immobilized cells of Bacillus flavum MA-3 (Proc. 2nd Joint
ChindUSA Clzemical Engineering Conference, Beijing, China, Vol. 111, p. 1033,
19971.
fumarase
HOOCCH = CHCOOH + H,O + HOOCII, CHCOOH
I
OH
The following rate law was obtained for the rate of formation of product:
where V,,, = 76. K, = 0.048 mol/dm3, and.Ci = 1.69 mol/dm3. Design a
reactor to process 10 m3/day of 2 mol/dm3 of fumaric acid.
CD - ROM MATERIAL
Learning Resources
I. Summary /Votes for Lectures 25, 26, 36, 37, 38, and 39
4. Solved Problems
A. Hydrogen Bromide
Example CD7-1 Deducing the Rate Law
Example CD7-2 Find a Mechanism
Living Example Problems
1. Example 7-2 PSSH Applied to Thermal Cracking of Ethane
2. Example 7-9 Bacteria Growth in a Batch Reactor
Professional Reference Shelf
1. Enzyme Inhibition
A. Competitive
Example CD7-3 Derive a Rate Law For Competitive Inhibition
13. Uncompetitive
C. Non-Competitive
Example CD7-4 Derive a Rate Law For Non-Competitive Inhibition
Example CD7-5 Match Eadie Plots to the Different Types of Inhibition
2. Multiple Enzymes and Substrate SysLems
A. Enzyme Regeneration
Example CD7-6 Construct a Lineweaver-Burk Plot for Different Oxygen
Concentrations
B. Enzyme Co-factors
Example CD7-7 Derive an Initial Rate Law for Alcohol Dehydrogenases
(2. Multiple-Substrate Systems
Example CD7-8 Derive a Rate Law for a Multiple Substrate System
Example 07-9 Calculate the Initial Rate of Formation of Ethanol
in the Presence of Propanediol
I>. Multiple Enzyme Systems
3. Oxidation Limited Fermentation
4. Fermentation Scale up
Additonal Homework Problems
