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Fluid phase behavior of systems involving high molecular weight compounds and supercritical fluids / Pedro F. Arce and Martín Aznar.

By: Contributor(s): Material type: TextTextSeries: Chemical engineering methods and technologyPublisher: New York : Nova Science Publishers, Inc., c2010Description: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781613246177
  • 161324617X
Subject(s): Genre/Form: Additional physical formats: Print version:: Fluid phase behavior of systems involving high molecular weight compounds and supercritical fluidsDDC classification:
  • 541/.363 22
LOC classification:
  • QD503
Online resources:
Contents:
FLUID PHASE BEHAVIOR OFSYSTEMS INVOLVING HIGHMOLECULAR WEIGHTCOMPOUNDS ANDSUPERCRITICAL FLUIDS; CONTENTS; PREFACE; ABSTRACT; INTRODUCTION; THERMODYNAMIC MODELS; 3.1. PERTURBED CHAIN -- STATISTICAL ASSOCIATINGFLUID THEORY, PC-SAFT; 3.2. SANCHEZ-LACOMBE, SL.; 3.3. PENG-ROBINSON, PR; PHASE EQUILIBRIUM AT HIGH-PRESSURES; 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 + HydrofluorocarbonFluid 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 Systems5.4. MODELING OF BINARY AND TERNARY SYSTEMSINVOLVING A BIODEGRADABLE POLYMER, ACOPOLYMERAND 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 + SUPERCRITICALFLUID 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 CO2SYSTEMS; 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 + CO2SYSTEMS; 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; CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES; INDEX.
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Includes bibliographical references (pages [113]-121) and index.

Description based on print version record and CIP data provided by publisher.

English.

FLUID PHASE BEHAVIOR OFSYSTEMS INVOLVING HIGHMOLECULAR WEIGHTCOMPOUNDS ANDSUPERCRITICAL FLUIDS; CONTENTS; PREFACE; ABSTRACT; INTRODUCTION; THERMODYNAMIC MODELS; 3.1. PERTURBED CHAIN -- STATISTICAL ASSOCIATINGFLUID THEORY, PC-SAFT; 3.2. SANCHEZ-LACOMBE, SL.; 3.3. PENG-ROBINSON, PR; PHASE EQUILIBRIUM AT HIGH-PRESSURES; 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 + HydrofluorocarbonFluid 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 Systems5.4. MODELING OF BINARY AND TERNARY SYSTEMSINVOLVING A BIODEGRADABLE POLYMER, ACOPOLYMERAND 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 + SUPERCRITICALFLUID 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 CO2SYSTEMS; 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 + CO2SYSTEMS; 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; CONCLUSIONS; ACKNOWLEDGMENTS; REFERENCES; INDEX.

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