Knowledge of the basic interactions that take place between geological materials and different substances is the first step in understanding the effects of adsorption and other interfacial processes on the quality of rocks and soils, and on driving these processes towards a beneficial or neutral result. Interfacial Chemistry of Rocks and Soils examines the different processes at solid and liquid interfaces of soil and rock, presenting a complete analysis that emphasizes the importance of chemical species on these interactions.
This Second Edition features novel results in the field and expanded coverage of the kinetics of interfacial processes. New content includes models of heterogeneous isotope exchange, sorption isotherms for heterovalent cation exchange, as well as sorption of anions by chemically modified clays.
Summarizing the results and knowledge of the authors' research in this field over several decades, this volume:
- Explores the individual components of the studied systems: the solid, the solution, and the interface
- Discusses the characteristics and thermodynamics of the interface
- Profiles the most important analytical methods in the study of interfacial processes
- Demonstrates transformations initiated by interfacial processes
- Outlines avenues of treatment that may solve geological, soil science, and environmental problems
Drawn chiefly from the authors' years of research at the Imre Lajos Isotope Laboratory in the Department of Physical Chemistry at the University of Debrecen in Hungary, this book discusses chemical reactions on the surfaces/interfaces of soils and rocks; examines the role of these processes in environmental, colloid and geochemistry; and explores the effects on agricultural, environmental and industrial applications.
About the Author:
Noémi M. Nagy is a professor of radiochemistry in the Imre Lajos Isotope
Laboratory of Physical Chemistry, University of Debrecen, Hungary. She earned her
M.Sc. and Ph.D. degrees in radiochemistry at that university. She has a D.Sc. degree
in agrochemistry from the Hungarian Academy of Sciences. Dr Nagy has more than
35 years of experience in nuclear and radiochemistry teaching. Her research interest
is the study of the interfacial processes of natural sorbents, including soils, rocks,
clay minerals mainly by radioactive tracer methods. Recently, she has been dealing
principally with studies of nuclear waste storage. She has written or co-written
numerous peer-reviewed scientific papers and is the co-author four books in the
fields of nuclear and radiochemistry as well as the interfacial chemistry of geological
formations. She won the George Hevesy's award for nuclear safety in Hungary.
Dr Nagy is the president of the Radiochemical Scientific Committee of Hungarian
Academy of Sciences.
József Kónya is a professor of radiochemistry in the Imre Lajos Isotope Laboratory
of Physical Chemistry, University of Debrecen, Hungary. He earned his M.Sc. and
Ph.D. in physical chemistry from that same university. He holds a D.Sc. degree in
Radiochemistry from the Hungarian Academy of Sciences. Dr Konya has more than
60 years of experience teaching in the fields of nuclear and radiochemistry. His
research interest is the study of the interfacial processes of natural sorbents, including
soils, rocks, and clay minerals mainly by radioactive tracer methods. Recently,
he has been dealing principally with studies of nuclear waste storage. He has written
or co-written numerous peer-reviewed articles and is the co-author of four books
in the fields of nuclear and radiochemistry as well as the interfacial chemistry of
geological formations. He won the George Hevesy's Award for nuclear safety in
Hungary.
