Page 309 - Elements of Chemical Reaction Engineering 3rd Edition
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Chap. 5 Supplementary Reading 281
2. H discussion on the methods of interpretation of batch reaction data can be found
i 11
CRYNES, B. L., and H. S. FOGLER, eds., AIChE Modular Instruction Series E:
Kinetics, Vol. 2. New York: American Institute of Chemical Engineers,
1981, pp. 51-74.
3. The interpretation of data obtained from flow reactors is also discussed in
CHURCHILL, S. W., The Interpretation and Use of Rate Data. New York:
McGraw-Hill, 1974.
SMITH, J. M., Chemical Engineerrng Kinetics, 3rd ed. New York McGraw-Hill,
1981, Chap. 4.
4. The design of laboratory catalytic reactors for obtaining rate data is presentled in
RASE, H. F., Chemical Reactor Design for Process Plants, Vol. 1. New York:
Wiley, 1983, Chap. 5.
Most of these types of reactors are also discussed in
ANDERSON, R. B., ed. Experimental Methods in Catalytic Researih. New York:
Academic Press, 1968. '
5. Model buildling and current statistical methods applied to interpretation of rate data
are presented in
FROMENT, G. E, and K. B. BISCHOFF, Chemicai' Reactor Analysis and Design.
New York: Wiley, 1979.
KITTRELI., J. R., in Advances in Chemical Engineering, Vol. 8, T. B. Draw et al.,
eds. New York: Academic Press, 1970, pp. 97-183.
JOHANSEN, S., Functional Relations, Random Coeficients, and Nonlinear
Regression with Application to Kinetic Data, New York: Springer-Verlag,
1984.
MARKERr, B. A., Instrumental Element and Multi-Element Analysis of Plant
Samples: Methods and Applications, New York: Wiley, 1996.
6. The sequential design of experiments and parameter estimation is covered in
BOX, G. E. P., W. G. HUNTER, and J. S. HUNTER Statistics for Experimenters:
An Introduction to Design, Data Analysis, and Model Building. New York:
Wiley, 1978.
GRAHAM, R. J., and E D. STEVENSON, Ind. Eng. Chem. Process Des. Dev+, 11,
160 (1972).
