132,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in über 4 Wochen
payback
66 °P sammeln
  • Gebundenes Buch

Expertise in electrolyte systems has become increasingly important in traditional chemical process industry operations, as well as in oil/gas exploration and production. In particular, electrolyte systems come into play in many important applications involving the environment. Unit recently, engineers faced with the dilemma of predicting the behavior of electrolyte or predicting the behavior of electrolyte systems had to resort to crude predictions largely based on the adaptation of methods applicable to hydrocarbons systems. The Handbook of Aqueous Electrolyte Thermodynamics solves the modern…mehr

Produktbeschreibung
Expertise in electrolyte systems has become increasingly important in traditional chemical process industry operations, as well as in oil/gas exploration and production. In particular, electrolyte systems come into play in many important applications involving the environment. Unit recently, engineers faced with the dilemma of predicting the behavior of electrolyte or predicting the behavior of electrolyte systems had to resort to crude predictions largely based on the adaptation of methods applicable to hydrocarbons systems. The Handbook of Aqueous Electrolyte Thermodynamics solves the modern engineer's dilemma by acting as a "do-it yourself" guide, with a blueprint for formulating predictive mathematical electrolyte models, recommended tabular values to use in these models, and annotated bibliographies. Engineers confronting the task of solving industrial problems may now solve them by turning to the Handbook and applying the compiled available data and/or the data prediction and analysis techniques presented in this volume to the problem at hand. Here, the engineer will find a thorough and systematic presentation of electrolyte thermodynamics, beginning with the basic definitions of the equilibrium constants used in formulating electrolyte models and ending with an exposition and comparison of several of the best formulations for the activity coefficients of strong and/or weak electrolytes. In the final chapter there is a general recipe for formulating complete predictive models for electrolytes along with a series of worked illustrative examples. This unique handbook serves as a useful research and application tool for the practicing process engineer as well as a college textbook for the chemical engineering student.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Autorenporträt
The late Joseph F. Zemaitis, Jr. was President of Chem Solve, Inc. Prior to the formation of Chem Solve, he was Vice-President of OLI Systems, Inc. Dr. Semaitis worked for 9 years at ESSO Research Engineering as Principal Consultant in fluid dynamics and engineering technology. A graduate of Drexel Tech, he received his M.S. and Ph.D. from Carnegie-Mellon University. He was a Lecturer in Physics at Drew University and Mathematics at the County College of Morris. Dr. Zemaitis was a member of AICHE, ACS and AAPT. Diane M. Clark is presently a Senior Scientist at OLI System, Inc. Prior to this she worked for Chem Solve, Inc. She received a B.S. in Mathematics and Computer Science from Clarkson College of Technology (now Clarkson University) and is a member of AICHE. Marshal Rafal is President and founder of OLI Systems, Inc. a world leader in computer software for simulation of aqueous chemistry. Prior to founding OLI in 1971, Dr. Rafal worked at ESSO Mathematics and Systems, Inc. for five years. He received a B.Ch.E. from the Cooper Union and an M.S. Ch.E. and Ph.D. from Northwestern University. Dr. Rafal is a member of AICHE. Noel C. Scrivner, as a Senior Consultant at the Du Pont Company, consults on the problems of thermodynamics and kinetics company-wide. His current interest is in the application of electrolyte thermodynamics to geochemistry problems. He received a B.A. and a B.S. from Rice University and an M.S. and Ph.D. from Carnegie-Mellon University-all in Chemical Engineering. He is currently chairman of the Design Institute for Physical Property Data (DIPPR) Aqueous Electrolyte Thermodynamic Database project. He is member of AICHE, ACS, Sigma Xi, and American Geophysical Union.