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Gas-Solid Adsorption Thermodynamics

  • Book

  • July 2025
  • Elsevier Science and Technology
  • ID: 6042213
Gas-Solid Adsorption Thermodynamics tackles the underexplored role of thermodynamics in the energetics of gas-solid physical adsorption, examining and outlining their role in different adsorption-based heat transformation energy applications. The book deals with different adsorbate/adsorbent pairs from the rigor of adsorption thermodynamics and their utilization in various applications, providing a comprehensive overview of adsorption heat transformations from the perspective of adsorption thermodynamics. Chapters introduce diverse sorption applications using various adsorbent/adsorbate combinations and their thermodynamic characterizations.

Finally, users will find comprehensive information on how adsorption thermodynamics affects system performances from an energetic standpoint given that thermodynamics are strongly related to the energetics of adsorption systems. Different chapters introduce the brief background of utilizing the gas-solid adsorption phenomenon in multifarious energy applications such as thermal management, desalination, volatile organic compound removal, etc.

Table of Contents

1. Basic Principles of Adsorption Thermodynamics
2. Thermodynamic Property Fields of Potential Sorption Pairs for Adsorption Chillers
3. Theoretical Analysis of MOF/water Pairs for Adsorption Heat Lift Application
4. Modelling of Henry Region Adsorption Thermodynamics and Its Role in Thermal Energy Conversion
5. Thermodynamic Issues Related to Adsorptive Conversion of Ultra-low Temperature Heat
6. Metal-organic Frameworks for Hydrogen Storage and Transportation
7. Significance of Thermodynamic Properties and Particle Size of Adsorbents in an Adsorption Bed Design
8. Thermodynamic Characterizations of CO2 Capture Utilizing Carbonaceous Adsorbents
9. Parametric Study of Adsorbed Phase Thermodynamics in Adsorption Desalination Application
10. Selection of Adsorbent Materials Based on Adsorption Thermodynamics for Thermal Batteries

Authors

Bidyut Baran Saha Professor and Principal Investigator, International Institute for Carbon-Neutral Energy Research (WPI-I2CNER), Kyushu University, Japan. Bidyut Baran Saha is currently a Professor and Principal Investigator at the International Institute for Carbon-Neutral Energy Research (WPI-I2CNER) of Kyushu University, Japan. His research focuses on adsorption science for carbon-neutral energy systems, heat and mass transfer analysis, and energy efficiency assessment. He has published more than 300 articles in peer-reviewed journals. He has edited eight books and holds thirty-one patents. Tahmid Hasan Rupam Postdoctoral Fellow, College of Engineering, University of Missouri-Columbia, USA. Tahmid Hasan Rupam is a Postdoctoral Fellow at the University of Missouri-Columbia, USA, having previously been a JSPS postdoctoral research fellow at the International Institute for Carbon-Neutral Energy Research (WPI-I2CNER) of Kyushu University, Japan. His research expertise includes adsorption thermodynamics, sorption kinetics, functional adsorbent material synthesis and modification, surface energy analysis, and theoretical modelling of adsorption cooling/heating cycles. Hongbin Ma Chair, Curators' Distinguished Professor and Glen A. Barton Professor, Department of Mechanical and Aerospace Engineering; Director of the Multiphysics Energy Research Center (MERC), College of Engineering, University of Missouri-Columbia, USA. Hongbin Ma is Chair, Curators' Distinguished Professor and Glen A. Barton Professor in the Department of Mechanical & Aerospace Engineering, and Director of the Multiphysics Energy Research Center (MERC) in the College of Engineering at the University of Missouri-Columbia, USA. He has conducted active research in phase-change heat transfer, heat pipes, ejector refrigeration, and thermal management. His research work has resulted in more than 310 publications, including one book, eight book chapters, over 170 refereed journal papers, and 21 patentable technologies.
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