AIChE Journal

Cover image for AIChE Journal

January 2006

Volume 52, Issue 1

Pages 2–424

  1. Perspective

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. You have free access to this content
      Peaking of World Oil Production and Its Mitigation (pages 2–8)

      Robert L. Hirsch, Roger Bezdek and Robert Wendling

      Article first published online: 28 NOV 2005 | DOI: 10.1002/aic.10747

  2. Fluid Mechanics and Transport Phenomena

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. Composing chaos: An experimental and numerical study of an open duct mixing flow (pages 9–28)

      Guy Metcalfe, M. Rudman, A. Brydon, L. J. W. Graham and R. Hamilton

      Article first published online: 19 SEP 2005 | DOI: 10.1002/aic.10640

    2. Two-dimensional lattice–Boltzmann model of hydrosol depth filtration (pages 39–48)

      Hervé Duval, David Masson, Jean-Bernard Guillot, Philippe Schmitz and Dominique d'Humières

      Article first published online: 1 SEP 2005 | DOI: 10.1002/aic.10606

    3. Wall-to-bed heat transfer in gas–solid bubbling fluidized beds (pages 58–74)

      D. J. Patil, J. Smit, M. van Sint Annaland and J. A. M. Kuipers

      Article first published online: 8 SEP 2005 | DOI: 10.1002/aic.10590

    4. Numerical simulation of behavior of gas bubbles using a 3-D front-tracking method (pages 99–110)

      M. van Sint Annaland, W. Dijkhuizen, N. G. Deen and J. A. M. Kuipers

      Article first published online: 12 SEP 2005 | DOI: 10.1002/aic.10607

    5. Phase separation of liquid-liquid two-phase flow at a T-junction (pages 141–149)

      L. Yang, B. J. Azzopardi, A. Belghazi and S. Nakanishi

      Article first published online: 14 SEP 2005 | DOI: 10.1002/aic.10589

  3. Particle Technology and Fluidization

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. Role of turbulent shear rate distribution in aggregation and breakage processes (pages 158–173)

      Daniele L. Marchisio, Miroslav Soos, Jan Sefcik and Massimo Morbidelli

      Article first published online: 1 SEP 2005 | DOI: 10.1002/aic.10614

    2. Measurement of charge distribution around a rising bubble in a 2-D fluidized bed (pages 174–184)

      Aihua Chen, Hsiaotao T. Bi, John R. Grace, Flip Kleijn van Willigen and J. Ruud van Ommen

      Article first published online: 7 SEP 2005 | DOI: 10.1002/aic.10609

    3. Assessment of gas-fluidized beds mixing and hydrodynamics by zirconia sensors (pages 185–198)

      Roberto Solimene, Antonio Marzocchella, Gabriella Passarelli and Piero Salatino

      Article first published online: 23 SEP 2005 | DOI: 10.1002/aic.10592

  4. Separations

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. Liquid drop growth on a fiber (pages 217–227)

      A. L. Yarin, G. G. Chase, W. Liu, S. V. Doiphode and D. H. Reneker

      Article first published online: 13 SEP 2005 | DOI: 10.1002/aic.10661

  5. Process Systems Engineering

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. A quasi-sequential approach to large-scale dynamic optimization problems (pages 255–268)

      Weirong Hong, Shuqing Wang, Pu Li, Günter Wozny and Lorenz T. Biegler

      Article first published online: 2 SEP 2005 | DOI: 10.1002/aic.10625

    2. Nonlinear soft-sensors design for unsteady-state VOC afterburners (pages 282–291)

      Davide Fissore, David Edouard, Hassan Hammouri and Antonello A. Barresi

      Article first published online: 14 SEP 2005 | DOI: 10.1002/aic.10602

  6. Reactors, Kinetics, and Catalysis

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
  7. Thermodynamics

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. A general method of computing the derivative of experimental data (pages 323–332)

      A. S. Lubansky, Y. Leong Yeow, Yee-Kwong Leong, S. Ranil Wickramasinghe and Binbing Han

      Article first published online: 6 SEP 2005 | DOI: 10.1002/aic.10583

  8. Materials, Interfaces and Electrochemical Phenomena

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. Measurement of defect-mediated diffusion: The case of silicon self-diffusion (pages 366–370)

      Ramakrishnan Vaidyanathan, Michael Y. L. Jung, Richard D. Braatz and E. G. Seebauer

      Article first published online: 19 SEP 2005 | DOI: 10.1002/aic.10587

  9. Bioengineering, Food and Natural Products

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. DNA polymerase chain reaction: A model of error frequencies and extension rates (pages 384–392)

      Mark Griep, Scott Whitney, Michael Nelson and Hendrik Viljoen

      Article first published online: 13 SEP 2005 | DOI: 10.1002/aic.10604

  10. Environmental and Energy Engineering

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. Pilot-scale anaerobic thermophilic digester treating municipal sludge (pages 402–407)

      M. A. de la Rubia, L. I. Romero, D. Sales and M. Perez

      Article first published online: 24 OCT 2005 | DOI: 10.1002/aic.10584

  11. Fluid Mechanics and Transport Phenomena

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
  12. Process Systems Engineering

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
  13. Reactors, Kinetics, and Catalysis

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
  14. Thermodynamics

    1. Top of page
    2. Perspective
    3. Fluid Mechanics and Transport Phenomena
    4. Particle Technology and Fluidization
    5. Separations
    6. Process Systems Engineering
    7. Reactors, Kinetics, and Catalysis
    8. Thermodynamics
    9. Materials, Interfaces and Electrochemical Phenomena
    10. Bioengineering, Food and Natural Products
    11. Environmental and Energy Engineering
    12. Fluid Mechanics and Transport Phenomena
    13. Process Systems Engineering
    14. Reactors, Kinetics, and Catalysis
    15. Thermodynamics
    1. NMR determination of high temperature acetic acid/water vapor phase equilibria (pages 422–424)

      Michael J. Richardson, James H. Johnston and Peter T. Northcote

      Article first published online: 4 OCT 2005 | DOI: 10.1002/aic.10601

SEARCH

SEARCH BY CITATION