This book explores the materials and technologies used for adsorbing carbon dioxide. It covers materials synthesis, characterization, adsorption mechanisms, applications, modeling, and potential environmental and industrial impacts. It connects CO2 adsorption to addressing climate change and CO2 emissions reduction.
CO2 Adsorbents comprehensively explores the materials and technologies used for adsorbing carbon dioxide. It covers materials synthesis, characterization, adsorption mechanisms, applications, modeling, and potential environmental and industrial impacts to help readers find the best adsorbent for their needs. Through its coverage of advanced research and technological developments in the field, such as novel adsorbent materials, innovative synthesis methods, and advancements in scalable production techniques, the book aims to contribute to the understanding of CO2 adsorption processes, materials, and their practical applications in addressing the global challenge of climate change and CO2 emissions reduction.
• Presents an overview of different adsorbent materials used for CO2 capture and the methods of synthesis, modification, and functionalization to enhance their CO2 adsorption performance.
• Describes characterization techniques used to assess the structural, morphological, and surface properties of CO2 adsorbents.
• Explores the fundamental mechanisms behind CO2 adsorption of various materials, the interactions between CO2 molecules and the adsorbent surface, and the kinetics and thermodynamics of CO2 adsorption processes.
• Through real-world case studies, discusses the applications of CO2 adsorbents in various industries, such as natural gas purification, carbon capture and storage, biogas upgrading, and air purification, and their potential in mitigating greenhouse gas emissions and addressing environmental concerns.
• Analyzes the environmental impact and feasibility of using CO2 adsorbents in real-world scenarios and the challenges and benefits of integrating adsorption technologies into existing industrial processes.
• Provides insights into potential improvements, challenges, and directions for further research and development.
Through its practical relevance, advanced insights, and focus on sustainability and innovation, this text serves as a valuable resource for researchers, engineers, and professionals working in the field of carbon capture and utilization, including those in chemical, environmental, and related engineering disciplines.
