AIChE Journal

Cover image for Vol. 56 Issue 12

December 2010

Volume 56, Issue 12

Pages 3028–3290

  1. Perspective

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

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

    1. Top of page
    2. Perspective
    3. Particle Technology and Fluidization
    4. Separations
    5. Process Systems Engineering
    6. Reactors, Kinetics, and Catalysis
    7. Materials, Interfaces, and Electrochemical Phenomena
    8. Thermodynamics
    9. Environmental and Energy Engineering
    10. Fluid Mechanics and Transport Phenomena
    11. Separations
    12. Materials, Interfaces, and Electrochemical Phenomena
    13. Letters to the Editor
    1. Gravitational drainage of compressible organic materials (pages 3099–3108)

      Morten Lykkegaard Christensen, Dominik Marek Dominiak, Per Halkjær Nielsen, Kristian Keiding and Maria Sedin

      Article first published online: 11 NOV 2010 | DOI: 10.1002/aic.12222

  4. Process Systems Engineering

    1. Top of page
    2. Perspective
    3. Particle Technology and Fluidization
    4. Separations
    5. Process Systems Engineering
    6. Reactors, Kinetics, and Catalysis
    7. Materials, Interfaces, and Electrochemical Phenomena
    8. Thermodynamics
    9. Environmental and Energy Engineering
    10. Fluid Mechanics and Transport Phenomena
    11. Separations
    12. Materials, Interfaces, and Electrochemical Phenomena
    13. Letters to the Editor
    1. Convergence depth control for interior point methods (pages 3146–3161)

      Weifeng Chen, Zhijiang Shao, Kexin Wang, Xi Chen and Lorenz T. Biegler

      Article first published online: 11 NOV 2010 | DOI: 10.1002/aic.12225

  5. Reactors, Kinetics, and Catalysis

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

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

    1. Top of page
    2. Perspective
    3. Particle Technology and Fluidization
    4. Separations
    5. Process Systems Engineering
    6. Reactors, Kinetics, and Catalysis
    7. Materials, Interfaces, and Electrochemical Phenomena
    8. Thermodynamics
    9. Environmental and Energy Engineering
    10. Fluid Mechanics and Transport Phenomena
    11. Separations
    12. Materials, Interfaces, and Electrochemical Phenomena
    13. Letters to the Editor
    1. A method for computing the partial derivatives of experimental data (pages 3212–3224)

      Y. Leong Yeow, Jordan Isac, Fathullah A. Khalid, Yee-Kwong Leong and A. S. Lubansky

      Article first published online: 11 NOV 2010 | DOI: 10.1002/aic.12236

  8. Environmental and Energy Engineering

    1. Top of page
    2. Perspective
    3. Particle Technology and Fluidization
    4. Separations
    5. Process Systems Engineering
    6. Reactors, Kinetics, and Catalysis
    7. Materials, Interfaces, and Electrochemical Phenomena
    8. Thermodynamics
    9. Environmental and Energy Engineering
    10. Fluid Mechanics and Transport Phenomena
    11. Separations
    12. Materials, Interfaces, and Electrochemical Phenomena
    13. Letters to the Editor
    1. The effect of supercritical water on the hydroconversion of Tahe Residue (pages 3236–3242)

      Liang Gao, Yuandong Liu, Langyou Wen, Weixia Huang, Xuhong Mu, Baoning Zong, Honglei Fan and Buxing Han

      Article first published online: 11 NOV 2010 | DOI: 10.1002/aic.12227

    2. Impact of deposit aging and surface roughness on thermal fouling: Distributed model (pages 3257–3273)

      F. Coletti, E. M. Ishiyama, W. R. Paterson, D. I. Wilson and S. Macchietto

      Article first published online: 11 NOV 2010 | DOI: 10.1002/aic.12221

  9. Fluid Mechanics and Transport Phenomena

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

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

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

    1. Top of page
    2. Perspective
    3. Particle Technology and Fluidization
    4. Separations
    5. Process Systems Engineering
    6. Reactors, Kinetics, and Catalysis
    7. Materials, Interfaces, and Electrochemical Phenomena
    8. Thermodynamics
    9. Environmental and Energy Engineering
    10. Fluid Mechanics and Transport Phenomena
    11. Separations
    12. Materials, Interfaces, and Electrochemical Phenomena
    13. Letters to the Editor
    1. Letter to the Editor (page 3286)

      Philip S. Lowell

      Article first published online: 11 OCT 2010 | DOI: 10.1002/aic.12403

    2. Reply to the Letter to the Editor (page 3287)

      A. Agarwal, L.T. Biegler and S. Zitney

      Article first published online: 11 OCT 2010 | DOI: 10.1002/aic.12402

    3. Letter to the Editor (pages 3288–3289)

      Rajamani Krishna and Jasper M. van Baten

      Article first published online: 2 NOV 2010 | DOI: 10.1002/aic.12424

    4. Reply to the Letter to the Editor (page 3290)

      Kader Lettat, Elsa Jolimaitre, Mélaz Tayakout and Daniel Tondeur

      Article first published online: 2 NOV 2010 | DOI: 10.1002/aic.12423

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