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1  Cover

2  Process Intensification and Integration for Sustainable Design

3  Copyright

4  dedication-page

5  Preface Section 1 – Process Intensification Section 2 – Process Integration

6  1 Shale Gas as an Option for the Production of Chemicals and Challenges for Process Intensification 1.1 Introduction 1.2 Where Is It Found? 1.3 Shale Gas Composition 1.4 Shale Gas Effect on Natural Gas Prices 1.5 Alternatives to Produce Chemicals from Shale Gas 1.6 Synthesis Gas 1.7 Methanol 1.8 Ethylene 1.9 Benzene 1.10 Propylene 1.11 Process Intensification Opportunities 1.12 Potential Benefits and Tradeoffs Associated with Process Intensification 1.13 Conclusions References

7  2 Design and Techno‐Economic Analysis of Separation Units to Handle Feedstock Variability in Shale Gas Treatment 2.1 Introduction 2.2 Problem Statement 2.3 Methodology 2.4 Case Study 2.5 Discussion 2.6 Conclusions Appendices Appendix A: Key Parameters for the Dehydration Process Appendix B: Key Parameters for the Turboexpander Process Appendix C: Key Parameters for the Fractionation Train Appendix D: Key Parameters for the Acid Gas Removal System References

8  3 Sustainable Design and Model‐Based Optimization of Hybrid RO–PRO Desalination Process 3.1 Introduction 3.2 Unit Model Description and Hybrid Process Design 3.3 Unified Model‐Based Analysis and Optimization 3.4 Conclusion Nomenclature References

9  4 Techno‐economic and Environmental Assessment of Ultrathin Polysulfone Membranes for Oxygen‐Enriched Combustion 4.1 Introduction 4.2 Numerical Methodology for Membrane Gas Separation Design 4.3 Methodology 4.4 Results and Discussion 4.5 Conclusion Acknowledgment References

10  5 Process Intensification of Membrane‐Based Systems for Water, Energy, and Environment Applications 5.1 Introduction 5.2 Membrane Electrocoagulation Flocculation for Dye Removal 5.3 Carbonation Bioreactor for Microalgae Cultivation 5.4 Forward Osmosis and Electrolysis for Energy Storage and Treatment of Emerging Pollutant 5.5 Conclusions and Future Perspective References

11  6 Design of Internally Heat‐Integrated Distillation Column (HIDiC) 6.1 Introduction 6.2 Example and Conceptual Design of Conventional Column 6.3 Basic Design of HIDiC 6.4 Complete Design of HIDiC 6.5 Energy Savings and Economic Evaluation 6.6 Concluding Thoughts References

12  7 Graphical Analysis and Integration of Heat Exchanger Networks with Heat Pumps 7.1 Introduction 7.2 Influences of Heat Pumps on HENs 7.3 Integration of Heat Pump Assisted Distillation in the Overall Process 7.4 Case Study 7.5 Conclusion References

13  8 Insightful Analysis and Integration of Reactor and Heat Exchanger Network 8.1 Introduction 8.2 Influence of Temperature Variation on HEN 8.3 Relation Among Reactor Parameters 8.4 Coupling Optimization of HEN and Reactor 8.5 Case Study 8.6 Conclusions References

14  9 Fouling Mitigation in Heat Exchanger Network Through Process Optimization 9.1 Introduction 9.2 Operation Parameter Optimization for Fouling Mitigation in HENs 9.3 Optimization of Cleaning Schedule 9.4 Application of Backup Heat Exchangers 9.5 Optimization Constraints and Objective Function 9.6 Case Studies 9.7 Conclusion Acknowledgments References

15  10 Decomposition and Implementation of Large‐Scale Interplant Heat Integration 10.1 Introduction 10.2 Methodology 10.3 Case Study 10.4 Conclusion References

16  11 Multi‐objective Optimisation of Integrated Heat, Mass and Regeneration Networks with Renewables Considering Economics and Environmental Impact 11.1 Introduction 11.2 Literature Review 11.3 Environmental Impact in Process Synthesis 11.4 The Synthesis Method and Model Formulation 11.5 Case Study 11.6 Conclusions and Future Works References

17  12 Optimization of Integrated Water and Multi‐regenerator Membrane Systems Involving Multi‐contaminants: A Water‐Energy Nexus Aspect 12.1 Introduction 12.2 Problem Statement 12.3 Model Formulation 12.4 Illustrative Example 12.5 Conclusion Acknowledgments 12.A Appendix: Detailed Models for the ED and RO Modules Nomenclature References

18  13 Optimization Strategies for Integrating and Intensifying Housing Complexes 13.1 Introduction 13.2 Methods 13.3 Case Study 13.4 Results 13.5 Conclusions References

19  14 Sustainable Biomass Conversion Process Assessment 14.1 Introduction 14.2 Methodology and Assumptions 14.3 Results and Discussion 14.4 Conclusions Acknowledgments References

20  Index

21  End User License Agreement