05075nam 2200673 a 450 991095571620332120251117090846.01-61324-617-X(CKB)2550000000044975(EBL)3019748(SSID)ssj0000522643(PQKBManifestationID)12165908(PQKBTitleCode)TC0000522643(PQKBWorkID)10538969(PQKB)11444210(MiAaPQ)EBC3019748(Au-PeEL)EBL3019748(CaPaEBR)ebr10671313(OCoLC)742350335(BIP)28841191(EXLCZ)99255000000004497520100128d2010 uy 0engur|n|---|||||txtccrFluid phase behavior of systems involving high molecular weight compounds and supercritical fluids /Pedro F. Arce and Martín Aznar1st ed.New York Nova Science Publishersc20101 online resource (139 p.)Chemical engineering methods and technologyDescription based upon print version of record.1-61668-310-4 Includes bibliographical references (p. [113]-121) and index.Intro -- FLUID PHASE BEHAVIOR OF SYSTEMS INVOLVING HIGH MOLECULAR WEIGHT COMPOUNDS AND SUPERCRITICAL FLUIDS -- FLUID PHASE BEHAVIOR OF SYSTEMS INVOLVING HIGH MOLECULAR WEIGHT COMPOUNDS AND SUPERCRITICAL FLUIDS -- CONTENTS -- PREFACE -- Chapter 1 ABSTRACT -- Chapter 2 INTRODUCTION -- Chapter 3 THERMODYNAMIC MODELS -- 3.1. PERTURBED CHAIN - STATISTICAL ASSOCIATING FLUID THEORY, PC-SAFT -- 3.2. SANCHEZ-LACOMBE, SL. -- 3.3. PENG-ROBINSON, PR -- Chapter 4 PHASE EQUILIBRIUM AT HIGH-PRESSURES -- Chapter 5 RESULTS AND DISCUSSIONS -- 5.1. EOS PURE-COMPONENT PARAMETERS -- 5.1.1. Low Molecular Weight Pure-Component Parameters -- 5.1.2. High Molecular Weight Pure-Component Parameters -- 5.2. PS + SUPERCRITICAL FLUID SYSTEMS -- 5.2.1. Pure-Component Parameters -- 5.2.2. Binary Interaction Parameters. -- 5.2.3. Modeling Solubility Pressures of Binary Systems -- 5.2.3.1. PS + Supercritical Fluid Systems -- 5.2.3.2. PS + Chlorofluorocarbon Fluid Systems -- 5.2.3.3. PS + Hydrochlorofluorocarbon and PS + Hydrofluorocarbon Fluid Systems -- 5.3. MOLTEN POLYMER + CO2 SYSTEMS -- 5.3.1. Evaluation of EoS Pure-Component Parameters -- 5.3.2. Correlation of GLE Data -- 5.3.3. HDPE + CO2 and LDPE + CO2 Systems -- 5.3.4. i-PP + CO2 Systems -- 5.3.5. P(Vac) + CO2 Systems -- 5.3.6. PS + CO2 Systems -- 5.3.7. p(MMA) + CO2 Systems -- 5.3.8. p(BMA) + CO2 Systems -- 5.3.9. p(DMS) + CO2 Systems -- 5.3.10. PC + CO2 Systems -- 5.4. MODELING OF BINARY AND TERNARY SYSTEMS INVOLVING A BIODEGRADABLE POLYMER, ACOPOLYMER AND A SUPERCRITICAL FLUID -- 5.4.1. Polymer + Fluid and Copolymer + Fluid Equilibrium -- 5.4.1.1. PLA + DME System -- 5.4.1.2. PLA + CO2 System -- 5.4.1.3. PLA + CDFM System -- 5.4.1.4. PLA + DFM System -- 5.4.1.5. PLA + TFM System -- 5.4.1.6. PLA + TFE System -- 5.4.1.7. PBS + CO2 System -- 5.4.1.8. PBSA + CO2 System.5.4.2. Polymer + Fluid 1 + Fluid 2 Equilibrium -- 5.4.2.1. PLA + CO2 + DME System -- 5.5. BIODEGRADABLE COPOLYMER + SUPERCRITICAL FLUID SYSTEMS -- 5.5.1. PLAG + DME System -- 5.5.2. PLAG + CO2 System. -- 5.5.3. PLAG + CDFM System -- 5.5.4. PLAG + TFM System -- 5.6. BLOCK COPOLYMER + SUPERCRITICAL CO2 SYSTEMS -- 5.6.1. p(EO-b-BO) + CO2 System -- 5.6.2. p(EO-b-PO) + CO2 System -- 5.6.3. P(Vac-B-AHO) + CO2 System -- 5.7. POLYMER BLENDS AND POLYMER BLEND + CO2 SYSTEMS -- 5.7.1. Cloud Points Temperature of Blends -- 5.7.1.1. PBD/PS Blends -- 5.7.1.2. PVME/PS Blends -- 5.7.1.3. PPG/PEGE Blends -- 5.7.1.4. PEO/PES Blends -- 5.7.2. Fluid Phase Behavior of PS/PVME Blend + CO2 Systems -- Chapter 6 CONCLUSIONS -- ACKNOWLEDGMENTS -- REFERENCES -- INDEX -- Blank Page.Although supercritical fluids (SCF) and their unique solvent characteristics have been a matter of continuing scientific interest since the past century, their potential benefit to chemical processing have not been fully realised; it is only in the past a few years that SCF solvents have been the focus of active research and development programs.Chemical engineering methods and technology.Phase rule and equilibriumSupercritical fluidsMolecular weightsHigh pressure (Technology)Fluid dynamicsPhase rule and equilibrium.Supercritical fluids.Molecular weights.High pressure (Technology)Fluid dynamics.541/.363Arce Pedro F1866050Aznar Martín1866051MiAaPQMiAaPQMiAaPQBOOK9910955716203321Fluid phase behavior of systems involving high molecular weight compounds and supercritical fluids4473307UNINA