Aspen plus : chemical engineering applications / Dr. Kamal I.M. Al-Malah.
With step-by-step examples and succinct explanations, this comprehensive book constitutes a running tutorial and provides explanations of need-to-know aspects of Aspen Plus without overwhelming details and cumbersome Aspen Plus features. --
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Format: | eBook |
Language: | English |
Published: |
Hoboken, New Jersey :
John Wiley & Sons Inc.,
[2017]
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Subjects: |
Table of Contents:
- Cover; Title Page; Copyright; Dedication; Contents; Preface; The Book Theme; About the Author; What Do You Get Out of This Book?; Who Should Read This Book?; Notes for Instructors; Acknowledgment; About the Companion Website; Chapter 1 Introducing Aspen Plus; 1.1 What Does Aspen Stand For?; 1.2 What is Aspen Plus Process Simulation Model?; 1.3 Launching Aspen Plus V8.8; 1.4 Beginning a Simulation; 1.5 Entering Components; 1.6 Specifying the Property Method; 1.7 Improvement of the Property Method Accuracy; 1.8 File Saving; Exercise 1.1; 1.9 A Good Flowsheeting Practice.
- 1.10 Aspen Plus Built-In Help1.11 For More Information; Homework/Classwork 1.1 (Pxy); Homework/Classwork 1.2 (GMIX); Homework/Classwork 1.3 (Likes Dissolve Likes) as Envisaged by NRTL Property Method; Homework/Classwork 1.4 (The Mixing Rule); Chapter 2 More on Aspen Plus Flowsheet Features (1); 2.1 Problem Description; 2.2 Entering and Naming Compounds; 2.3 Binary Interactions; 2.4 The ""Simulation"" Environment: Activation Dashboard; 2.5 Placing a Block and Material Stream from Model Palette; 2.6 Block and Stream Manipulation; 2.7 Data Input, Project Title, and Report Options.
- 2.8 Running the Simulation2.9 The Difference Among Recommended Property Methods; 2.10 NIST/TDE Experimental Data; Homework/Classwork 2.1 (Water-Alcohol System); Homework/Classwork 2.2 (Water-Acetone-EIPK System with NIST/DTE Data); Homework/Classwork 2.3 (Water-Acetone-EIPK System Without NIST/DTE Data); Chapter 3 More on Aspen Plus Flowsheet Features (2); 3.1 Problem Description: Continuation to the Problem in Chapter 2; 3.2 The Clean Parameters Step; 3.3 Simulation Results Convergence; 3.4 Adding Stream Table; 3.5 Property Sets; 3.6 Adding Stream Conditions; 3.7 Printing from Aspen Plus.
- 3.8 Viewing the Input Summary3.9 Report Generation; 3.10 Stream Properties; 3.11 Adding a Flash Separation Unit; 3.12 The Required Input for ""Flash3""-Type Separator; 3.13 Running the Simulation and Checking the Results; Homework/Classwork 3.1 (Output of Input Data and Results); Homework/Classwork 3.2 (Output of Input Data and Results); Homework/Classwork 3.3 (Output of Input Data and Results); Homework/Classwork 3.4 (The Partition Coefficient of a Solute); Chapter 4 Flash Separation and Distillation Columns; 4.1 Problem Description; 4.2 Adding a Second Mixer and Flash.
- 4.3 Design Specifications StudyExercise 4.1 (Design Spec); 4.4 Aspen Plus Distillation Column Options; 4.5 ""DSTWU"" Distillation Column; 4.6 ""Distl"" Distillation Column; 4.7 ""RadFrac"" Distillation Column; Homework/Classwork 4.1 (Water-Alcohol System); Homework/Classwork 4.2 (Water-Acetone-EIPK System with NIST/DTE Data); Homework/Classwork 4.3 (Water-Acetone-EIPK System Without NIST/DTE Data); Homework/Classwork 4.4 (Scrubber); Chapter 5 Liquid-Liquid Extraction Process; 5.1 Problem Description; 5.2 The Proper Selection for Property Method for Extraction Processes.