Integrated Design and Simulation of Chemical Processes.
This comprehensive work shows how to design and develop innovative, optimal and sustainable chemical processes by applying the principles of process systems engineering, leading to integrated sustainable processes with ''green'' attributes. Generic systematic methods are employed...
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Full Text (via ScienceDirect) |
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Main Author: | |
Other Authors: | , |
Other title: | Computer Aided Chemical Engineering. Computer Aided Chemical Engineering, Volume 35. |
Format: | eBook |
Language: | English |
Published: |
Burlington :
Elsevier Science,
2014.
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Edition: | 2nd ed. |
Series: | Computer-aided chemical engineering.
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Table of Contents:
- Front Cover; Integrated Design and Simulation of Chemical Processes; Copyright; Contents; Preface; Acknowledgements; Chapter 1: Integrated Process and Product Design; 1.1. Introduction; 1.1.1. Motivation; 1.1.2. The road map of the book; 1.2. Integrated process and product design; 1.2.1. Creative aspects in process design; 1.2.2. PROCESS SYNTHESIS AND PROCESS INTEGRATION; 1.2.3. Systematic methods; 1.2.3.1. Hierarchical approach; 1.2.3.2. Separation sequencing by task-oriented approach; 1.2.3.3. Pinch analysis; 1.2.3.4. Design of mass exchange networks; 1.2.3.5. Residue curve map.
- 1.2.3.6. Mathematical programming1.2.3.7. Superstructure optimisation; 1.2.4. Directions of progress in process design; 1.2.4.1. Efficient use of raw materials; 1.2.4.2. Energy efficiency; 1.2.4.3. Capital cost reduction; 1.2.4.4. High environmental performance; 1.2.4.5. Integrating design and control; 1.3. Chemical product design; 1.3.1. Product design as a paradigm of chemical engineering; 1.3.2. Combining product and process design; 1.4. Systems engineering; 1.4.1. Systems approach; 1.4.2. Life cycle assessment; 1.5. Sustainable product and process design; 1.5.1. Sustainable development.
- 1.5.2. Biorefinery concept1.5.3. Production-integrated environmental protection; 1.5.4. Material flow analysis; 1.5.5. Metrics for sustainability; 1.6. Summary; References; Chapter 2: Introduction in Process Simulation; 2.1. Computer simulation in process engineering; 2.1.1. Process flowsheeting; 2.1.2. Applications of computer simulation; 2.1.2.1. Research and Development; 2.1.2.2. Process design; 2.1.2.3. Process operation; 2.1.3. Simulation of complex plants; 2.1.4. A historical view on simulation; 2.2. Steps in a simulation approach; Approach of a simulation problem; 1. Problem analysis.
- 2. Input3. Execution; 4. Results analysis; 2.3. Architecture of flowsheeting software; 2.3.1. Computation strategy; 2.3.2. Sequential Modular approach; 2.3.3. Equation Oriented approach; 2.4. Integration of simulation tools; 2.4.1. Integrated systems; 2.4.1.1. AspenONE engineering suite (AspenTech); 2.4.1.2. HYSYS product family (AspenTech); 2.4.1.3. ChemCAD (ChemStations); 2.4.1.4. Pro/II (Invensys SimSci); 2.4.1.5. ProSimPlus (ProSim); 2.4.1.6. Design II (WinSim Inc.); 2.4.1.7. gPROMS (Process Systems Enterprise Ltd.); 2.4.1.8. Mobatec Modeller (Mobatec)
- 2.4.1.9. SuperPro Designer (Intelligen Inc.)2.4.1.10. ProTreat (Optimized Gas Treating, Inc.); 2.4.2. Open software architecture; 2.4.3. Internet simulation; 2.5. Summary and concluding remarks; References; Software; Chapter 3: Steady-State Flowsheeting; 3.1. Fundamentals of steady-state flowsheeting; 3.1.1. General approach; 3.1.1.1. Introductory example; 3.1.1.2. Process description; 3.1.1.3. Problem analysis; 3.1.1.3.1. Input/output streams; 3.1.1.3.2. Thermodynamic issues; 3.1.1.3.3. Reactor analysis; 3.1.1.3.4. Reactor-Separation-Recycle system.