Annals of the New York Academy of Sciences

Cover image for Vol. 1027 Transport Phenomena in Microgravity

November 2004

Volume 1027 Transport Phenomena in Microgravity

Pages xi–xi, 1–566

  1. Frontmatter

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Preface (page xi)

      Satwindar Singh Sadhal, Naomi Chayen, Vijay K. Dhir, Haruhiko Ohta and Reginald W. Smith

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.000

  2. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Effects of Buoyancy-Driven Convection on Nucleation and Growth of Protein Crystals (pages 1–9)

      CHRISTO N. NANEV, ANITA PENKOVA and NAOMI CHAYEN

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.001

    2. Numerical Analysis of the Depletion Zone Formation Around a Growing Protein Crystal (pages 10–19)

      HIROAKI TANAKA, KOJI INAKA, SHIGERU SUGIYAMA, SACHIKO TAKAHASHI, SATOSHI SANO, MASARU SATO and SUSUMU YOSHITOMI

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.002

    3. Size and Shape Determination of Proteins in Solution by a Noninvasive Depolarized Dynamic Light Scattering Instrument (pages 20–27)

      NAOMI CHAYEN, MATTHIAS DIECKMANN, KARSTEN DIERKS and PETRA FROMME

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.003

    4. Scientific Approach to the Optimization of Protein Crystallization Conditions for Microgravity Experiments (pages 28–47)

      IZUMI YOSHIZAKI, HIROHIKO NAKAMURA, SEIJIRO FUKUYAMA, HIROSHI KOMATSU and SHINICHI YODA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.004

    5. High Resolution Imaging as a Characterization Tool for Biological Crystals (pages 48–55)

      VIVIAN STOJANOFF, B CAPPELLE, Y EPELBOIN, J HARTWIG, A B MORADELA and F OTALORA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.005

    6. Nucleation of Insulin Crystals in a Wide Continuous Supersaturation Gradient (pages 56–63)

      ANITA PENKOVA, IVAYLO DIMITROV and CHRISTO NANEV

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.006

  3. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Bone Cell Survival in Microgravity: Evidence that Modeled Microgravity Increases Osteoblast Sensitivity to Apoptogens (pages 64–73)

      M A BUCARO, J FERTALA, C S ADAMS, M STEINBECK, P AYYASWAMY, K MUKUNDAKRISHNAN, I M SHAPIRO and M V RISBUD

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.007

    2. Modeling of Phosphate Ion Transfer to the Surface of Osteoblasts under Normal Gravity and Simulated Microgravity Conditions (pages 85–98)

      KARTHIK MUKUNDAKRISHNAN, PORTONOVO S. AYYASWAMY, MAKARAND RISBUD, HOWARD H. HU and IRVING M. SHAPIRO

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.009

    3. Magnetic Microspheres and Tissue Model Studies for Therapeutic Applications (pages 99–109)

      NARAYANAN RAMACHANDRAN and KONSTANTIN MAZURUK

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.010

  4. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Effects of Gravity on ZBLAN Glass Crystallization (pages 129–137)

      DENNIS S. TUCKER, EDWIN C. ETHRIDGE, GUY A. SMITH and GARY WORKMAN

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.012

    2. Space Radiation Transport Properties of Polyethylene-Based Composites (pages 138–149)

      R K KAUL, A F BARGHOUTY and H M DAHCHE

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.013

    3. The Study of Devitrification Processes in Heavy-Metal Fluoride Glasses (pages 150–157)

      IAN R. DUNKLEY, REGINALD W. SMITH and SUDHANSHU VARMA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.014

  5. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Development of a High-Performance Boiling Heat Exchanger by Improved Liquid Supply to Narrow Channels (pages 217–234)

      HARUHIKO OHTA, TOSHIYUKI OHNO, FUMIAKI HIOKI and YASUHISA SHINMOTO

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.019

    2. Microgravity Experiments on Phase Change of Self-Rewetting Fluids (pages 269–285)

      YOSHIYUKI ABE, AKIRA IWASAKI and KOTARO TANAKA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.022

  6. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Unsteady Near-Critical Flows in Microgravity (pages 286–302)

      V I POLEZHAEV, A A GORBUNOV and E B SOBOLEVA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.023

    2. The Formation of Spikes in the Displacement of Miscible Fluids (pages 311–316)

      N RASHIDNIA, R BALASUBRAMANIAM and R T SCHROER

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.025

  7. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Effect of Gravity on the Caloric Stimulation of the Inner Ear (pages 360–370)

      MOHAMMAD KASSEMI, DIMITRI DESERRANNO and JOHN G. OAS

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.030

    2. Gravitational Effects on Structure Development in Quenched Complex Fluids (pages 371–382)

      V E BADALASSI, H D CENICEROS and S BANERJEE

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.031

    3. Density-Driven Instabilities of Variable-Viscosity Miscible Fluids in a Capillary Tube (pages 383–402)

      ECKART MEIBURG, SURYA H. VANAPARTHY, MATTHIAS D. PAYR and DIRK WILHELM

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.032

    4. An Experimental Study of the Richtmyer-Meshkov Instability in Microgravity (pages 403–413)

      CHARLES E. NIEDERHAUS and JEFFREY W. JACOBS

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.033

  8. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Manipulation of Fluid Objects with Acoustic Radiation Pressure (pages 414–434)

      PHILIP L. MARSTON and DAVID B. THIESSEN

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.034

    2. Contrasting Electrostatic and Electromagnetic Levitation Experimental Results for Transformation Kinetics of Steel Alloys (pages 435–446)

      DOUGLAS M. MATSON, DAVID J. FAIR, ROBERT W. HYERS and JAN R. ROGERS

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.035

    3. Shape Relaxation of Liquid Drops in a Microgravity Environment (pages 447–463)

      S S SADHAL, A REDNIKOV and K OHSAKA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.036

    4. Property Measurements and Solidification Studies by Electrostatic Levitation (pages 464–473)

      PAUL-FRANÇOIS PARADIS, JIANDING YU, TAKEHIKO ISHIKAWA and SHINICHI YODA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.037

    5. Convection in Containerless Processing (pages 474–494)

      ROBERT W. HYERS, DOUGLAS M. MATSON, KENNETH F. KELTON and JAN R. ROGERS

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.038

    6. Active Electrostatic Control of Liquid Bridge Dynamics and Stability (pages 495–510)

      DAVID B. THIESSEN, WEI WEI and PHILIP L. MARSTON

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.039

  9. Transport Phenomena in Microgravity: Part VIII: Space Systems

    1. Top of page
    2. Frontmatter
    3. Transport Phenomena in Microgravity: Part I: Protein Crystal Growth
    4. Transport Phenomena in Microgravity: Part II: Biotransport Phenomena
    5. Transport Phenomena in Microgravity: Part III: Crystal Growth and Materials Technology
    6. Transport Phenomena in Microgravity: Part IV: Boiling Phenomena
    7. Transport Phenomena in Microgravity: Part V: Interfacial Phenomena
    8. Transport Phenomena in Microgravity: Part VI: Fluid Dynamics
    9. Transport Phenomena in Microgravity: Part VII: Acoustic, Electrostatic, and Electromagnetic Levitation
    10. Transport Phenomena in Microgravity: Part VIII: Space Systems
    1. Ventless Pressure Control of Two-Phase Propellant Tanks in Microgravity (pages 511–528)

      MOHAMMAD KASSEMI and CHARLES H. PANZARELLA

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.040

    2. Design and Preparation of a Particle Dynamics Space Flight Experiment, SHIVA (pages 550–566)

      JAMES D. TROLINGER, DREW L'ESPERANCE, ROGER H. RANGEL, CARLOS F.M. COIMBRA and WILLIAM K. WITHEROW

      Version of Record online: 12 JAN 2006 | DOI: 10.1196/annals.1324.042

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