P R E F A C EXIII ‘-’

 numbers ‘in an equation and solve for a final answer. The true value is found in
 obtaining an understanding of the reasons why a given calculation method gives
 a satisfactory result. This understanding gives the engineer the confidence and
 ability necessary to proceed when new problems are encountered for which
 there are no predetermined methods of solution. Thus, throughout the study of
 plant design and economics, the engineer should always attempt to understand
 the assumptions and theoretical factors involved in the various calculation
 procedures and never fall into the habit of robot-like number plugging.
 Because applied economics and plant design deal with practical applica-
 tions of chemical engineering principles, a study of these subjects offers an ideal
 way for tying together the entire field of chemical engineering. The final result
 of a plant design may be expressed in dollars and cents, but this result can only
 be achieved through the application of various theoretical principles combined
 with industrial and practical knowledge. Both theory and practice are empha-
 sized in this book, and aspects of all phases of chemical engineering are
 included.
 The authors are indebted to the many industrial firms and individuals who
 have supplied information and comments on the material presented in this
 edition. The authors also express their appreciation to the following reviewers
 who have supplied constructive criticism and helpful suggestions on the presen-
 tation for this edition: David C. Drown, University of Idaho; Leo J. Hirth,
 Auburn University; Robert L. Kabel,  Permsylvania  State University; J. D.
 Seader, University of Utah; and Arthur W. Westerberg, Carnegie Mellon
 University. Acknowledgement is made of the contribution by Ronald E. West,  -
 Professor of Chemical Engineering at the University of Colorado, for the new
 Chapter 4 in this edition covering computer-aided design.
                      Max S. Peters
                Klaus D. Timmerhaus