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Volume 3, Issue 1 2008 Article 7 Chemical Product and Process Modeling Phase Equilibria for Heterogeneous Azeotropic Distillation Enrique A. Campanella, INTEC (UNL-CONICET) Beatriz A. Mandagaran, INTEC (UNL-CONICET) Recommended Citation: Campanella, Enrique A. and Mandagaran, Beatriz A. (2008) "Phase Equilibria for Heterogeneous Azeotropic Distillation," Chemical Product and Process Modeling: Vol. 3: Iss. 1, Article 7. DOI: 10.2202/1934-2659.1114 Phase Equilibria for Heterogeneous Azeotropic Distillation Enrique A. Campanella and Beatriz A. Mandagaran Abstract

------- American Mineralogist, Volume 81. pages 658-667, 1996 Thermochemistry and phase equilibria in calcium zeolites IRINA KISELEVA,1 ALEXANDRA NAVROTSKY,1 IGOR A. BELITSKy,2 AND BORIS A. FURSENK02 'Department of Geological and Geophysical Sciences, Princeton University, Princeton, New Jersey 08544, U.S.A. 2Institute of Mineralogy and Petrography, Academy of Sciences, Novosibirsk, 630090, Russia ABSTRACT Thermodynamic properties of the natural calcium zeolites laumontite, leonhardite, de- hydrated leonhardite (metaleonhardite), wairakite, and yugawaralite were

CHAPTER 3 PHASE EQUILIBRIA INTRODUCTION "/ sometimes think our close geological relatives must think that experimentalists are a little peculiar in their obsession over the Al203-Si02 system. There are other systems that can perhaps yield more exact information about the same problems involving rocks, and our progress in this system does not exactly promote confidence in our abilities." W.S. Fyfe (1969, p. 291) In spite of the pre-eminent importance of the Al2SiOs polymorphs for metamorphic thermobarometry, considerable uncertainty shrouds the

Z. Phys. Chem. 220 (2006) 765–773 / DOI 10.1524/zpch.2006.220.6.765  by Oldenbourg Wissenschaftsverlag, München Phase Equilibria in the Molten System KF-K2NbF7-Nb2O5 By Blanka Kubı́ková1 ,∗, Vladimı́r Daněk1, and Marcelle Gaune-Escard2 1 Institute of Inorganic Chemistry, Slovak Academy of Sciences, Dúbravská cesta 9, 845 36 Bratislava, Slovakia 2 École Polytechnique, IUSTI CNRS UMR 6595, Technopôle de Chateau Gombert, 5 rue Enrico Fermi, 13453 Marseille Cedex 13, France (Received December 22, 2005; accepted March 21, 2006) Phase Equilibria / Molten Salts

American Mineralogist, Volume 94, pages 205–209, 2009 0003-004X/09/0203–205$05.00/DOI: 10.2138/am.2009.2913 205 Determination of high-pressure phase equilibria of Fe2O3 using the Kawai-type apparatus equipped with sintered diamond anvils Eiji ito,1,* HirosHi Fukui,1,2 tomoo katsura,1 DaisukE Yamazaki,1 takasHi YosHino,1 YosHitaka aizawa,1 atsusHi kubo,1,3 sHo YokosHi,1 kazuYoki kawabE,1 sHuangmEng zHai,1 anton sHatzkiY,1 maki okubE,1,4 akiFumi nozawa,5 anD kEn-icHi FunakosHi5 1Institute for Study of the Earth’s Interior, Okayama University, Misasa

Pure & Appl. Chem., Vol. 65, No. 5, pp. 1003-1008,1993, Printed in Great Britain. @ 1993 IUPAC Phase equilibria with supercritical components Ivan Wichterle Institute of Chemical Process Fundamentals, Czechoslovak Academy of Sciences, CS-165 02 Prague - Suchdol, Czechoslovakia Abstract - Supercritical fluid extraction as an attractive separation process requires the quantitative thermodynamic description for reliable design of extraction units. Both experimental data and prediction or description procedures are necessary. Recent developments in this

Pure & App!. Chem., Vol. 57, No. 1, pp. 89—103, 1985. Printed in Great Britain. © 1985 IUPAC Phase equilibria in fluid mixtures Maxwell L. McGlashan Department of Chemistry, University College London, 20 Gordon Street, London WC1H OAJ, U.K. (The fifth Rossini Lecture given at the IUPAC Conference on Chemical Thermodynamics held at McMaster University, Hamilton, Ontario, Canada on 14 August 1984) Abstract - Phase diagrams for binary fluid mixtures are reviewed with respect to experimental methods used for their study; the kinds of phase diagram obtained in

PHASE EQUILIBRIA IN CONDENSED SYSTEMS 0. KUBASCREWSKI and I. BARIN Lehrstuhl für Metallurgie der Kernbrennstoffe und Theoretische Hüttenkunde der Rheinisch- Westjiilischen Technischen Hochschule Aachen, GFR ABSTRACT The evaluation of metallurgical equilibrium diagrams from thermochemical data in contrast to the use of conventional methods is <iemonstrated with a nurober of examples: first with hinary alloy systems, i.e. eutectic systems (Ga-Zn, Ga-In), solidus-liquidus gaps (Mg-Cd, Ni-Co, Ni-Cu, Fe-Cr, Ntr.-Ta), miscihility gaps (Cr-Mo, Ni-Cu, Bi-Zn) and

Pure c Appi. CI-zem., Vol. 56, No. 11, pp 1511—1526, 1984. 0033—4545/84 $3.00 + 0.00 Printed in Great Britain. Pergamon Press Ltd. © 1984 IUPAC PHASE EQUILIBRIA AND THERMODYNAMICS: MEASUREMENTS Kurt L. Komarek and Herbert Ipser Institute of Inorganic Chemistry, University of Vienna, A-1090 Vienna, Waehringerstr. 42, Austria Abstract — Recent developments of experimental techniques for the investigation of phase diagrams and for the measurement of thermodynamic quantities of metallic and ceramic materials at high temperatures are reviewed. Special emphasis is

Pure & Appl. Chern., Vol. 61, No. 6, pp. 1065-1074, 1989. Printed in Great Britain. @ 1989 IUPAC Solid-supercritical fluid phase equilibria Benjamin C.-Y. Lu and Dingan Zhang Department o f Chemical Engineer ing, U n i v e r s i t y o f Ottawa, Ottawa, Ontar io, Canada, K1N 984 A b s t r a c t - D i f f e r e n t types o f phase behavior observed i n b ina ry m ix tu res c o n t a i n i n g a s o l i d and a s u p e r c r i t i c a l f l u i d (SCF) are discussed a t the s u p e r c r i t i c a l f l u i d e x t r a c t i o n cond i t