AIChE Journal

Cover image for AIChE Journal

July 2005

Volume 51, Issue 7

Pages 1836–2110

  1. Editorial

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
  2. Perspectives. The Future of Chemical Engineering Research: Complex Systems

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
  3. Fluid Mechanics and Transport Phenomena

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
    1. CFD predictions for flow-regime transitions in bubble columns (pages 1897–1923)

      Sarah M. Monahan, Vivek S. Vitankar and Rodney O. Fox

      Article first published online: 29 APR 2005 | DOI: 10.1002/aic.10425

    2. Bubble size estimation in slurry bubble columns from pressure fluctuations (pages 1924–1937)

      V. P. Chilekar, M. J. F. Warnier, J. van der Schaaf, B. F. M. Kuster, J. C. Schouten and J. R. van Ommen

      Article first published online: 2 MAY 2005 | DOI: 10.1002/aic.10427

    3. Detecting regime transitions in slurry bubble columns using pressure time series (pages 1951–1965)

      Keshav C. Ruthiya, Vinit P. Chilekar, Maurice J. F. Warnier, John van der Schaaf, Ben F. M. Kuster, Jaap C. Schouten and J. Ruud van Ommen

      Article first published online: 10 MAY 2005 | DOI: 10.1002/aic.10474

  4. Particle Technology and Fluidization

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
    1. H2 production by Zn hydrolysis in a hot-wall aerosol reactor (pages 1966–1970)

      Rodrigo J. Weiss, Hao C. Ly, Karsten Wegner, Sotiris E. Pratsinis and Aldo Steinfeld

      Article first published online: 26 APR 2005 | DOI: 10.1002/aic.10437

    2. Enhanced fluidization of nanoparticles in an oscillating magnetic field (pages 1971–1979)

      Qun Yu, Rajesh N. Dave, Chao Zhu, Jose A. Quevedo and Robert Pfeffer

      Article first published online: 18 MAY 2005 | DOI: 10.1002/aic.10479

  5. Separations

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
  6. Process Systems Engineering

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
    1. Preparation of magnetic polystyrene microspheres with a narrow size distribution (pages 2011–2015)

      Chengli Yang, Yueping Guan, Jianmin Xing, Junguo Liu, Guobin Shan, Zhentao An and Huizhou Liu

      Article first published online: 2 MAY 2005 | DOI: 10.1002/aic.10467

  7. Reactor, Kinetics, and Catalysis

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
    1. Optimization of inlet temperature for deactivating LTWGS reactor performance (pages 2016–2023)

      J. L. Ayastuy, M. A. Gutiérrez-Ortiz, J. A. González-Marcos, A. Aranzabal and J. R. González-Velasco

      Article first published online: 28 APR 2005 | DOI: 10.1002/aic.10433

  8. Thermodynamics

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
    1. Modeling high-pressure wax formation in petroleum fluids (pages 2089–2097)

      Jean-Marc Sansot, Jérôme Pauly, Jean-Luc Daridon and Joao A. P. Coutinho

      Article first published online: 16 MAY 2005 | DOI: 10.1002/aic.10434

  9. Fluid Mechanics and Transport Phenomena

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
  10. Particle Technology and Fluidization

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
  11. Book Review

    1. Top of page
    2. Editorial
    3. Perspectives. The Future of Chemical Engineering Research: Complex Systems
    4. Fluid Mechanics and Transport Phenomena
    5. Particle Technology and Fluidization
    6. Separations
    7. Process Systems Engineering
    8. Reactor, Kinetics, and Catalysis
    9. Thermodynamics
    10. Fluid Mechanics and Transport Phenomena
    11. Particle Technology and Fluidization
    12. Book Review
    1. Book Review (page 2110)

      Mark A. McHugh

      Article first published online: 5 MAY 2005 | DOI: 10.1002/aic.10435

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