This book offers an in-depth exploration of the fundamentals of multi-layer composite (MLC) membranes for the gas separation applications. It provides a comprehensive overview of MLC membranes, including their historical development, structural features, fabrication techniques, selection criteria, mathematical models for gas transport, gas separation mechanisms, characterization methods, detailed adsorption mechanisms, current challenges, and future trends in gas separation technology.
Serving as a valuable reference, this book is designed for materials scientists, environmental engineers, and chemical engineers seeking fundamental insights into the effective utilization of MLC membranes for energy-efficient gas separation processes.
Chapter 1 - Introduction.- Chapter 2 – Synthesis Methods and Characterization Techniques of Multi-layer Composite (MLC) Membranes.- Chapter 3 – Multi-layer composite (MLC) Membranes Gas Transport Models and Separation Mechanisms.- Chapter 4 – Multi-layer composite (MLC) Membranes For Methane Purification (CO2/CH4).- Chapter 5 - Multi-layer composite (MLC) Membranes For Hydrogen Purification.- Chapter 6 - Multi-layer composite (MLC) Membranes For Post-Combustion Carbon Capture (CO2/N2).- Chapter 7 - Multi-layer composite (MLC) Membranes For Air Separation (O2/N2).- Chapter 8 - Multi-layer composite (MLC) Membranes For Helium Enrichment.- Chapter 9 – Computational Approaches On Multi-layer composite (MLC) Membrane-based Gas Separation.- Chapter 10 – Current Challenges and Future Prospect/Trends.- Chapter 11 – Conclusion.
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