Andere Kunden interessierten sich auch für
![Integrated Reaction and Separation Operations]( "Integrated Reaction and Separation Operations")
Integrated Reaction and Separation Operations110,99 €![Thermal Separation Technology]( "Thermal Separation Technology")
Thermal Separation Technology111,99 €![Separation of Molecules, Macromolecules and Particles]( "Separation of Molecules, Macromolecules and Particles")
Separation of Molecules, Macromolecules and Particles82,99 €![Batch Distillation]( "Batch Distillation")
Batch Distillation385,99 €![Distillation Control, Optimization, and Tuning]( "Distillation Control, Optimization, and Tuning")
Distillation Control, Optimization, and Tuning271,99 €![Ornamental Concrete Without Molds: A Practical Treatise Explanatory of a System of Molding Ornamental Concrete Units With Templates]( "Ornamental Concrete Without Molds: A Practical Treatise Explanatory of a System of Molding Ornamental Concrete Units With Templates")
Ornamental Concrete Without Molds: A Practical Treatise Explanatory of a System of Molding Ornamental Concrete Units With Templates35,99 €![Reactive distillation processes to break azeotropes]( "Reactive distillation processes to break azeotropes")
Reactive distillation processes to break azeotropes40,99 €
Short description/annotation
The author presents a clear multidimensional geometric representation of distillation theory which has wide application.
Main description
Distillation Theory and Its Application to Optimal Design of Separation Units presents a clear, multidimensional geometric representation of distillation theory that is valid for all distillation column types, splits, and mixtures. This representation answers such fundamental questions as: - What are the feasible separation products for a given mixture(?)33; - What minimum power is required to separate a given mixture(?)33; - What minimum number of trays is necessary to separate a given mixture at a fixed power input(?)33; Concepts are reinforced by chapter exercises using free DistillDesigner software, which provides quick and reliable solutions to problems of flowsheet synthesis and to optimal design calculations. This software allows refinement and confirmation of the algorithms of optimal design. This book is intended for students and specialists in the design and operation of separation units in the chemical, pharmaceutical, food, wood, petrochemical, oil-refining, and natural gas industries and for software designers.
Table of contents:
1. Phase equilibrium and its geometrical presentation; 2. Basic concepts of distillation; 3. Trajectories of distillation in infinite columns under infinite reflux; 4. Trajectories of thermodynamically reversible distillation; 5. Distillation trajectories and conditions of mixtures separability in simple infinite columns at finite reflux; 6. Distillation trajectories in infinite complex columns and complexes; 7. Trajectories of the finite columns and their design calculation; 8. Synthesis of separation flowsheets.
The author presents a clear multidimensional geometric representation of distillation theory which has wide application.
Main description
Distillation Theory and Its Application to Optimal Design of Separation Units presents a clear, multidimensional geometric representation of distillation theory that is valid for all distillation column types, splits, and mixtures. This representation answers such fundamental questions as: - What are the feasible separation products for a given mixture(?)33; - What minimum power is required to separate a given mixture(?)33; - What minimum number of trays is necessary to separate a given mixture at a fixed power input(?)33; Concepts are reinforced by chapter exercises using free DistillDesigner software, which provides quick and reliable solutions to problems of flowsheet synthesis and to optimal design calculations. This software allows refinement and confirmation of the algorithms of optimal design. This book is intended for students and specialists in the design and operation of separation units in the chemical, pharmaceutical, food, wood, petrochemical, oil-refining, and natural gas industries and for software designers.
Table of contents:
1. Phase equilibrium and its geometrical presentation; 2. Basic concepts of distillation; 3. Trajectories of distillation in infinite columns under infinite reflux; 4. Trajectories of thermodynamically reversible distillation; 5. Distillation trajectories and conditions of mixtures separability in simple infinite columns at finite reflux; 6. Distillation trajectories in infinite complex columns and complexes; 7. Trajectories of the finite columns and their design calculation; 8. Synthesis of separation flowsheets.