Boca Raton : , : Taylor & Francis, , [2015]

©2015

1-04-021400-2

0-429-17251-6

1-4822-3057-7

1 online resource (670 p.)

660.2842

660/.2842

Separation (Technology)

Vapor-liquid equilibrium

Inglese

Description based upon print version of record.

Includes bibliographical references at the end of each chapters.

Front Cover; Contents; Preface; Author; Chapter 1: Thermodynamics and Phase Equilibria; Chapter 2: The Equilibrium Stage; Chapter 3: Fundamentals of Multistage Separation; Chapter 4: Material Balances in Multi-Component Separation; Chapter 5: Binary Distillation : Principles; Chapter 6: Binary Distillation : Applications; Chapter 7: Multi-Component Separation : Conventional Distillation; Chapter 8: Absorption and Stripping; Chapter 9: Complex Distillation and Multiple Column Processes; Chapter 10: Special Distillation Processes

Chapter 11: Liquid-Liquid Extraction and Supercritical ExtractionChapter 12: Shortcut Methods; Chapter 13: Rigorous Equilibrium Methods; Chapter 14: Tray Hydraulics, Rate-Based Analysis, and Tray Efficiency; Chapter 15: Packed Columns; Chapter 16: Control and Optimization of Separation Processes; Chapter 17: Batch Distillation; Chapter 18: Membrane Separation Operations; Chapter 19: Fluid-Solid Operations; Back Cover

The latest edition of a perennial bestseller, Multistage Separation Processes, Fourth Edition provides a clear and thorough presentation of the theoretical foundation, and understanding of the development, evaluation, design, and optimization steps of these processes, from

both an academic and industrial perspective. The book's emphasis on starting with theoretical models and their role in computer simulation, followed by practical applications, sets it apart from other texts on this topic. The author also highlights the importance of relating fundamental concepts to intuitive understanding of

Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2025

9789819620968

1 online resource (421 pages)

Lecture Notes in Civil Engineering, , 2366-2565 ; ; 567

SarkarRajib

KumarAbhishek

624.1762

Geotechnical engineering

Rock mechanics

Soil mechanics

Engineering geology

Geotechnical Engineering and Applied Earth Sciences

Soil and Rock Mechanics

Geoengineering

Inglese

Chapter 1: Field and laboratory testing of soils for the estimation of dynamic soil properties -- Chapter 2. Latest findings on liquefaction of soils -- Chapter 3. Seismic slope stability and landslides -- Chapter 4. Seismic design of retaining walls, marine structures, and dams -- Chapter 5. Seismic design of shallow and deep foundations -- Chapter 6. Soil-structure interaction under dynamic loading -- Chapter 7. Engineering seismology, strong ground motions -- Chapter 8. Ground response analyses and local site effects -- Chapter 9. Seismic hazard

analyses: zonation, microzonation, risk assessment -- Chapter 10. Ground improvement techniques for reduction of seismic hazard -- Chapter 11. Role of building codes in reduction of seismic risk -- Chapter 12. Wave propagation, engineering vibrations -- Chapter 13. Vibration problems of high-speed railways -- Chapter 14. Vibration absorption/isolation applications -- Chapter 15. Performance of constructed facilities in extreme events/case histories ofgeotechnical earthquake engineering -- Chapter 16. Reconnaissance reports of recent damaging earthquakes -- Chapter 17. GIS and remote sensing, AI/ ML applications for geo- hazards -- Chapter 18. Sensors and satellite technology for disaster management.-Chapter 19. Seismic risk management and economics -- Chapter 20. Community preparedness and pre-earthquake disaster management -- Chapter 21. Innovative geotechnical applications in earthquake disaster management -- Chapter 22. Earthquake engineering education -- Chapter 23. Review of seismic design codes.

This book will present the select proceedings of the 8th International Conference on Recent Advances in Geotechnical Earthquake Engineering and Soil Dynamics (8ICRAGEE) held at the Indian Institute of Technology (IIT), Guwahati between December 11 and 14, 2024. It contains the latest research papers covering the contributions and accomplishments in geotechnical earthquake engineering and soil dynamics in the last four years. The five volumes of the book cover a wide range of topics, including but not limited to seismic hazard analysis, wave propagation and site characterization, dynamic properties and liquefaction of soils, pile foundations, offshore foundations, seismic design of retaining structures and dams, seismic slope stability and landslides, dynamic soil-structure interaction, seismic design of structures. Further, recent developments on these topics are covered in different chapters. This book will be valuable not only for researchers and professionals but also for drawing an agenda for future courses of action from the perspective of geotechnical earthquake engineering, keeping the national need at the forefront.