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Applied mineralogical thermodynamics: selected topics [Libro electrónico] / autor: Niranjan D.Chatterjee

Por: Chatterjee, Niranjan D [autor/a].
Tipo de material: Libro en línea Libro en línea Editor: New York, New York, United State: Springer-Verlag, c1991Descripción: xvi, 321 páginas : ilustraciones ; 25 centímetros.ISBN: 3540532153; 0387532153; 9783540532156 (Print); 9783662027165 (Online).Tema(s): Mineralogy | ThermodynamicsNota de acceso: Disponible para usuarios de ECOSUR con su clave de acceso Nota de bibliografía: Incluye bibliografía e índice: páginas 305-318 Número de sistema: 56415Contenidos:Mostrar Resumen:
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Thermodynamic treatment of mineral equilibria, a topic central to mineralogical thermodynamics, can be traced back to the tum of the century, when J. H. Van't Hoff and his associates pioneered in applying thermodynamics to the mineral assemblages observed in the Stassfurt salt deposit. Although other renowned researchers joined forces to develop the subject - H. E. Boeke even tried to popularize it by giving an overview of the early developments in his "Grundlagen der physikalisch-chemischen Petrographie", Berlin, 1915 - it remained, on the whole, an esoteric subject for the majority of the contemporary geological community. Seen that way, mineralogical thermodynamics came of age during the last four decades, and evolved very rapidly into a mainstream discipline of geochemistry. It has contributed enormously to our understanding of the phase equilibria of mineral systems, and has helped put mineralogy and petrology on a firm quantitative basis. In the wake of these developments, academic curricula now require the students of geology to take a course in basic thermodynamics, traditionally offered by the departments of chemistry. Building on that foundation, a supplementary course is generally offered to familiarize the students with diverse mineralogical applications of thermo­ dynamics. This book draws from the author's experience in giving such a course, and has been tailored to cater to those who have had a previous exposure to the basic concepts of chemical thermodynamics.

Recurso en línea: http://link.springer.com/openurl?genre=book&isbn=978-3-540-53215-6
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Incluye bibliografía e índice: páginas 305-318

1. Summary of basic thermodynamic concepts: a refresher.. 2. Measurement, evaluation, and tabulation of thermodynamic properties.. 3. Equations of state for fluids and fluid mixtures.. 4. Phase relations among end-member solids.. 5. Phase relations among end-member solids and a pure fluid.. 6. Phase relations among end-member solids and a binary fluid mixture.. 7. Derivation of an internally consistent thermodynamic dataset by mathematical programming.. 8. Thermodynamics of crystalline solutions.. 9. Phase equilibria involving nonideal solutions and outlines of geothermometry and geobarometry.. Subject Index

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Thermodynamic treatment of mineral equilibria, a topic central to mineralogical thermodynamics, can be traced back to the tum of the century, when J. H. Van't Hoff and his associates pioneered in applying thermodynamics to the mineral assemblages observed in the Stassfurt salt deposit. Although other renowned researchers joined forces to develop the subject - H. E. Boeke even tried to popularize it by giving an overview of the early developments in his "Grundlagen der physikalisch-chemischen Petrographie", Berlin, 1915 - it remained, on the whole, an esoteric subject for the majority of the contemporary geological community. Seen that way, mineralogical thermodynamics came of age during the last four decades, and evolved very rapidly into a mainstream discipline of geochemistry. It has contributed enormously to our understanding of the phase equilibria of mineral systems, and has helped put mineralogy and petrology on a firm quantitative basis. In the wake of these developments, academic curricula now require the students of geology to take a course in basic thermodynamics, traditionally offered by the departments of chemistry. Building on that foundation, a supplementary course is generally offered to familiarize the students with diverse mineralogical applications of thermo­ dynamics. This book draws from the author's experience in giving such a course, and has been tailored to cater to those who have had a previous exposure to the basic concepts of chemical thermodynamics. eng

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