Part of the McGraw-Hill Chemical Engineering Series, thistext constitutes an in-depth treatment of the subject ofmulticomponent distillation. It begins with first prin-ciples and goes to the frontiers of the subject. Each topicis introduced in an elementary and fundamental manner whichmakes the text suitable for the undergraduate student, thegraduate student, or the professional engineer.
Sprache
Verlagsort
Verlagsgruppe
McGraw-Hill Education - Europe
Zielgruppe
Für höhere Schule und Studium
Für Beruf und Forschung
Maße
Höhe: 249 mm
Breite: 191 mm
Dicke: 38 mm
Gewicht
ISBN-13
978-0-07-029582-7 (9780070295827)
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Schweitzer Klassifikation
PrefaceChapter 1 Introduction to the Fundamentals of DistillationChapter 2 Development and Application of the Theta Method of Convergence to Conventional Distillation ColumnsChapter 3 Application of the Theta Method of Convergence to Complex Columns and to Systems of ColumnsChapter 4 The 2N Newton-Raphson MethodChapter 5 Almost Band Algorithms of the Newton-Raphson MethodChapter 6 Systems of Azeotropic and Extractive Distillation ColumnsChapter 7 Solution of Systems of Columns with Energy Exchange between Recycle StreamsChapter 8 Distillation Accompanied by Chemical ReactionChapter 9 Optimum Design and Operation of Conventional and Complex Distillation ColumnsChapter 10 Characteristics of Continuous Distillation Columns at Various Modes of OperationChapter 11 Conventional and Complex Distillation Columns at Minimum RefluxChapter 12 Design of Sieve and Valve TraysChapter 13 Application of the Fundamentals of Mass Transfer to Plate Efficiencies and Packed ColumnsChapter 14 Thermodynamic Relationships for Multicomponent MixturesChapter 15 Selected Topics in Matrix Operations and Numerical Methods for Solving Multivariable ProblemsAppendixesA - Matrix Norms and TheoremsB - Equilibrium and Enthalpy DataIndexes
