Description

Book Synopsis

A step-by-step guide for students (and faculty) on the use of Aspen in teaching thermodynamics

Easily-accessible modern computational techniques opening up new vistas in teaching thermodynamics
A range of applications of Aspen Plus in the prediction and calculation of thermodynamic properties and phase behavior using the state-of-the art methods
Encourages students to develop engineering insight by doing repetitive calculations with changes in parameters and/or models
Calculations and application examples in a step-by-step manner designed for out-of-classroom self-study
Makes it possible to easily integrate Aspen Plus into thermodynamics courses without using in-class time
Stresses the application of thermodynamics to real problems



Table of Contents

Preface vii

An Introduction for Students ix

1. Getting Started with Aspen Plus® 1

Problems 9

2. Two Simple Simulations 10

Problems 34

3. Pure Component Property Analysis 36

Problems 55

4. The NIST ThermoData Engine (TDE) 56

Problems 64

5. Vapor–Liquid Equilibrium Calculations Using Activity Coefficient Models 66

5.1 Property Analysis Method 69

5.2 The Simulation Method 80

5.3 Regression of Binary VLE Data with Activity Coefficient Models 89

Problems 115

6. Vapor–Liquid Equilibrium Calculations Using an Equation of State 119

6.1 The Property Analysis Method 120

6.2 The Simulation Method 122

6.3 Regression of Binary VLE Data with an Equation of State 129

Problems 142

7. Regression of Liquid–Liquid Equilibrium (LLE) Data and Vapor–Liquid–Liquid Equilibrium (VLLE) and Predictions 144

7.1 Liquid–Liquid Data Regression 144

7.2 The Prediction of Liquid–Liquid and Vapor–Liquid–Liquid Equilibrium 158

7.3 High Pressure Vapor–Liquid–Liquid Equilibrium 167

Problems 173

8. The Property Methods Assistant and Property Estimation 175

8.1 The Property Methods Assistant 175

8.2 Property Estimation 182

8.3 Regressing Infinite Dilution Activity Coefficient Data 188

Problems 201

9. Chemical Reaction Equilibrium in Aspen Plus® 203

Problems 229

10. Shortcut Distillation Calculations 233

Problems 250

11. A Rigorous Distillation Calculation: RadFrac 252

Problems 271

12. Liquid–Liquid Extraction 272

Problems 286

13. Sensitivity Analysis: A Tool for Repetitive Calculations 287

Problems 304

14. Electrolyte Solutions 305

Problems 337

Index 339

Using Aspen Plus in Thermodynamics Instruction

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    A Paperback / softback by Stanley I. Sandler

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      View other formats and editions of Using Aspen Plus in Thermodynamics Instruction by Stanley I. Sandler

      Publisher: John Wiley & Sons Inc
      Publication Date: 19/05/2015
      ISBN13: 9781118996911, 978-1118996911
      ISBN10: 1118996917
      Also in:
      Chemistry

      Description

      Book Synopsis

      A step-by-step guide for students (and faculty) on the use of Aspen in teaching thermodynamics

      Easily-accessible modern computational techniques opening up new vistas in teaching thermodynamics
      A range of applications of Aspen Plus in the prediction and calculation of thermodynamic properties and phase behavior using the state-of-the art methods
      Encourages students to develop engineering insight by doing repetitive calculations with changes in parameters and/or models
      Calculations and application examples in a step-by-step manner designed for out-of-classroom self-study
      Makes it possible to easily integrate Aspen Plus into thermodynamics courses without using in-class time
      Stresses the application of thermodynamics to real problems



      Table of Contents

      Preface vii

      An Introduction for Students ix

      1. Getting Started with Aspen Plus® 1

      Problems 9

      2. Two Simple Simulations 10

      Problems 34

      3. Pure Component Property Analysis 36

      Problems 55

      4. The NIST ThermoData Engine (TDE) 56

      Problems 64

      5. Vapor–Liquid Equilibrium Calculations Using Activity Coefficient Models 66

      5.1 Property Analysis Method 69

      5.2 The Simulation Method 80

      5.3 Regression of Binary VLE Data with Activity Coefficient Models 89

      Problems 115

      6. Vapor–Liquid Equilibrium Calculations Using an Equation of State 119

      6.1 The Property Analysis Method 120

      6.2 The Simulation Method 122

      6.3 Regression of Binary VLE Data with an Equation of State 129

      Problems 142

      7. Regression of Liquid–Liquid Equilibrium (LLE) Data and Vapor–Liquid–Liquid Equilibrium (VLLE) and Predictions 144

      7.1 Liquid–Liquid Data Regression 144

      7.2 The Prediction of Liquid–Liquid and Vapor–Liquid–Liquid Equilibrium 158

      7.3 High Pressure Vapor–Liquid–Liquid Equilibrium 167

      Problems 173

      8. The Property Methods Assistant and Property Estimation 175

      8.1 The Property Methods Assistant 175

      8.2 Property Estimation 182

      8.3 Regressing Infinite Dilution Activity Coefficient Data 188

      Problems 201

      9. Chemical Reaction Equilibrium in Aspen Plus® 203

      Problems 229

      10. Shortcut Distillation Calculations 233

      Problems 250

      11. A Rigorous Distillation Calculation: RadFrac 252

      Problems 271

      12. Liquid–Liquid Extraction 272

      Problems 286

      13. Sensitivity Analysis: A Tool for Repetitive Calculations 287

      Problems 304

      14. Electrolyte Solutions 305

      Problems 337

      Index 339

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