AIChE Journal

Cover image for AIChE Journal

April 1999

Volume 45, Issue 4

Pages fmi–fmi, 665–919

  1. Masthead

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Masthead (page fmi)

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450401

  2. Fluid Mechanics and Transport Phenomena

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Maximum stable bubble size and gas holdup in high-pressure slurry bubble columns (pages 665–680)

      Xukun Luo, D. J. Lee, Raymond Lau, Guoqiang Yang and Liang-Shih Fan

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450402

    2. Mass transfer of water vapor in a hollow fiber for degassing processes (pages 681–690)

      Hideyuki Murata, Yasushi Tomita, Makoto Miyashita, Kazunari Sakai, Masayuki Toda and Tadahiro Ohmi

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450403

    3. Bubble growth in a viscous liquid in a simple shear flow (pages 691–695)

      Moshe Favelukis, Zehev Tadmor and Raphael Semiat

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450404

    4. Characteristics of microencapsulated PCM slurry as a heat-transfer fluid (pages 696–707)

      Yasushi Yamagishi, Hiromi Takeuchi, Alexander T. Pyatenko and Naoyuki Kayukawa

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450405

  3. Separations

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Mixed cation zeolites: LixAgy-X as a superior adsorbent for air separation (pages 724–734)

      Nick D. Hutson, Salil U. Rege and Ralph T. Yang

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450407

  4. Correction

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. You have free access to this content
      Correction (page 734)

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450408

  5. Separations

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Unified network model for adsorption–desorption in systems with hysteresis (pages 735–750)

      Pavol Rajniak, Miroslav Soós and Ralph T. Yang

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450409

    2. Equilibria and dynamics for mixed vapors of BTX in an activated carbon bed (pages 751–760)

      Jeong-Ho Yun, Dae-Ki Choi and Sung-Hyun Kim

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450410

    3. Adsorption equilibrium of α-amylase in aqueous solutions (pages 761–768)

      L. Fernando Bautista, Mercedes Martínez and José Aracil

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450411

  6. Process Systems Engineering

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Multirate nonlinear state estimation with application to a polymerization reactor (pages 769–780)

      Srinivas Tatiraju, Masoud Soroush and Babatunde A. Ogunnaike

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450412

    2. Optimal operation of multivessel batch distillation columns (pages 781–801)

      H. I. Furlonge, C. C. Pantelides and E. Sørensen

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450413

    3. Thermodynamic approach to the structural stability of process plants (pages 802–816)

      Katalin M. Hangos, Antonio A. Alonso, John D. Perkins and B. Erik Ydstie

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450414

    4. Optimal design of solvent blends for environmental impact minimization (pages 817–843)

      Andrew Buxton, Andrew G. Livingston and Efstratios N. Pistikopoulos

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450415

    5. Optimal location of vertical wells: Decomposition approach (pages 844–859)

      M. G. Ierapetritou, C. A. Floudas, S. Vasantharajan and A. S. Cullick

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450416

  7. Reactors, Kinetics, and Catalysis

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
  8. Materials, Interfaces, and Electrochemical Phenomena

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Modeling of multicomponent drying of polymer films (pages 896–905)

      Sacide Alsoy and J. Larry Duda

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450420

  9. Thermodynamics

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena
    1. Improving cubic EOSS near the critical point by a phase-space cell approximation (pages 906–915)

      Francesco Fornasiero, Leo Lue and Alberto Bertucco

      Version of Record online: 16 APR 2004 | DOI: 10.1002/aic.690450421

  10. Materials, Interfaces, and Electrochemical Phenomena

    1. Top of page
    2. Masthead
    3. Fluid Mechanics and Transport Phenomena
    4. Separations
    5. Correction
    6. Separations
    7. Process Systems Engineering
    8. Reactors, Kinetics, and Catalysis
    9. Materials, Interfaces, and Electrochemical Phenomena
    10. Thermodynamics
    11. Materials, Interfaces, and Electrochemical Phenomena

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