Chemical process design and simulation : Aspen Plus and Aspen HYSYS applications /

A comprehensive and example oriented text for the study of chemical process design and simulation Chemical Process Design and Simulation is an accessible guide that offers information on the most important principles of chemical engineering design and includes illustrative examples of their applicat...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Haydary, Juma (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, NJ : John Wiley & Sons, Inc. : American Institute of Chemical Engineers, 2019.
Temas:
Chemical processes.
Chemical processes > Computer simulation.
Chemical engineering.
Chemical engineering > Computer simulation.
Procédés chimiques.
Procédés chimiques > Simulation par ordinateur.
Génie chimique.
Génie chimique > Simulation par ordinateur.
chemical engineering.
SCIENCE > Chemistry > Industrial & Technical.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro; Chemical Process Design and Simulation; Contents; List of Tables; List of Figures; About the Author; Preface; Acknowledgments; Abbreviations; Symbols; About the Companion Website; Chemical Process Design and Simulation
  • Aspen Plus and Aspen HYSYS Applications; Instructions for using supplementary materials; Part I Introduction to Design and Simulation; 1 Introduction to Computer-Aided Process Design and Simulation; 1.1 Process Design; 1.2 Process Chemistry Concept; 1.3 Technology Concept; 1.4 Data Collection; 1.4.1 Material Properties Data; 1.4.2 Phase Equilibrium Data
  • 1.4.3 Reaction Equilibrium and Reaction Kinetic Data1.5 Simulation of an Existing Process; 1.6 Development of Process Flow Diagrams; 1.7 Process Simulation Programs; 1.7.1 Sequential Modular versus Equation-Oriented Approach; 1.7.2 Starting a Simulation with Aspen Plus; 1.7.3 Starting a Simulation with Aspen HYSYS; 1.8 Conventional versus Nonconventional Components; 1.9 Process Integration and Energy Analysis; 1.10 Process Economic Evaluation; References; 2 General Procedure for Process Simulation; 2.1 Component Selection; 2.2 Property Methods and Phase Equilibrium
  • 2.2.1 Physical Property Data Sources2.2.2 Phase Equilibrium Models; 2.2.3 Selection of a Property Method in Aspen Plus; 2.2.4 Selection of a Property Package in Aspen HYSYS; 2.2.5 Pure Component Property Analysis; 2.2.6 Binary Analysis; 2.2.7 Azeotrope Search and Analysis of Ternary Systems; 2.2.8 PT Envelope Analysis; 2.3 Chemistry and Reactions; 2.4 Process Flow Diagrams; References; Part II Design and Simulation of Single Unit Operations; 3 Heat Exchangers; 3.1 Heater and Cooler Models; 3.2 Simple Heat Exchanger Models; 3.3 Simple Design and Rating of Heat Exchangers
  • 3.4 Detailed Design and Simulation of Heat Exchangers3.4.1 HYSYS Dynamic Rating; 3.4.2 Rigorous Shell and Tube Heat Exchanger Design Using EDR; 3.5 Selection and Costing of Heat Exchangers; References; 4 Pressure Changing Equipment; 4.1 Pumps, Hydraulic Turbines, and Valves; 4.2 Compressors and Gas Turbines; 4.3 Pressure Drop Calculations in Pipes; 4.4 Selection and Costing of Pressure Changing Equipment; References; 5 Reactors; 5.1 Material and Enthalpy Balance of a Chemical Reactor; 5.2 Stoichiometry and Yield Reactor Models; 5.3 Chemical Equilibrium Reactor Models
  • 5.3.1 REquil Model of Aspen Plus5.3.2 Equilibrium Reactor Model of Aspen HYSYS; 5.3.3 RGibbs Model of Aspen Plus and Gibbs Reactor Model of Aspen HYSYS; 5.4 Kinetic Reactor Models; 5.5 Selection and Costing of Chemical Reactors; References; 6 Separation Equipment; 6.1 Single Contact Phase Separation; 6.2 Distillation Column; 6.2.1 Shortcut Distillation Method; 6.2.2 Rigorous Methods; 6.3 Azeotropic and Extractive Distillation; 6.4 Reactive Distillation; 6.5 Absorption and Desorption; 6.6 Extraction; 6.7 Selection and Costing of Separation Equipment; 6.7.1 Distillation Equipment

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