Interdisciplinary Transport Phenomena in the Space Sciences, Volume 1077

1. Convection in Levitated Droplets and Its Effects on the Measurement of Thermophysical Properties: Ben Q. Li.

2. Microgravity Experiments on the Effect of Internal Flow on Solidification of Fecrni Stainless Steels: Alaina Hanlon, Douglas M. Matson, and Robert W. Hyers.

3. Study on Internal Flow and Surface Deformation of Large Droplet Levitated by Ultrasonic Wave: Yutaka Abe, Daisuke Hyuga, Syogo Yamada, Kazuyoshi Aoki & Masahiro Kawaji.

4. Containerless Measurements of Thermophysical Properties of Ti8Zr54Cu20Al10Ni8: Rich C. Bradshaw, M.E. Warren, R.W. Hyers, J.R. Rogers, T.J. Rathz, A.K. Gangopadhyay & K.F. Kelton.

5. Noncontact Thermophysical Property Measurement by Levitation of A Thin Liquid Disk: Sungho Lee, Kenichi Ohsaka, Alexei Rednikov & S.S. Sadhal.

6. Transient Dynamics and Directional Solidification Processes in Spacial Platforms: Xavier Ruiz.

7. A Numerical Analysis of Shear-Thinning in Heavy-Metal Fluoride Glasses: Reginald W. Smith, B.J.Yang & I.R.Dunkley.

8. Effect of Input Diffusivity in An Axisymmetric Mass Diffusivity Model for Liquid Metals With An Applied Magnetic Field: Y.Y. Khine & R.M. Banish.

Part II: Crystal Growth:.

9. Developing Quantitative, Multi-Scale Models for Microgravity Crystal Growth: Jeffrey J. Derby, Lisa Lun, Paul Sonda, Andrew Yeckel, Thomas Jung & Georg Mueller.

10. Effect of Microgravity and Magnetic Field on Metallurgical and Crystalline Structure of Magnetstictive Smfe2 Synthesized by Unidirectional Solidification: Takeshi Okutani, Hideaki Nagai, Mikito Mamiya & Martin Castillo.

11. Convection Effects on Crystallinity in the Growth of In0.3Ga0.7As Crystals by the Traveling Liquidus-Zone (TLZ) Method: Kyoichi Kinoshita, Y. Ogata, S. Adachi, S. Yoda, T. Tsuru, H. Miyata & Y. Muramatsu.

Part III: Diffusion Processes:.

12. Fluctuations in Diffusion Processes in Microgravity: Stefano Mazzoni, Roberto Cerbino, Alberto Vailati & Marzio Giglio.

13: Effect of Gravity on the Dynamics of Fluctuations in A Free Diffusion Experiment: by Fabrizio Croccolo, Doriano Brogioli, Alberto Vailati, Marzio Giglio & Dave Cannell.

14: Pre-Flight Diffusion Experiments on Liquid Metals Under 1g-Conditions for the Foton-M2 Mission: Shinsuke Suzuki, Kurt-Helmut Kraatz & Günter Frohberg.

15. A Numerical Study of the Influence of G-Jitter on Measurements of Liquid Diffusion Coefficients: Reginald W. Smith, B.J.Yang & B.Ma.

Part IV: Protein Crystal Growth:.

16. Bio-Molecular Crystal Growth: Does Gravity Play A Key Role?: Vivian Stojanoff.

17. Hypergravity As A Crystallization Tool: Christo Nanev & Ivajlo Dimitrov.

18. Macromolecular Crystallization in Microgravity Generated by A Superconducting Magnet: Nobuko I. Wakayama, D.C. Yin, K. Harata, T. Kiyoshi & Y. Tanimoto.

19. Is the Crystal Growth Under Low Supersaturations Influenced by the Tendency To A Minimum of the Surface Free Energy?: Christo Nanev.

20. Upside Down Protein Crystallisation: Designing Microbatch Experiments for Microgravity: Naomi Chayen & Sahir Khurshid.

21. Can Low Magnetic Field Improve the Quality of Macromolecular Crystals? by V. Stojanoff.

22. Enhancement and Suppression of Protein Crystal Nucleation Under the Influence of Shear Flow: Anita Penkova, Weichun Pan, Peter G. Vekilov.

Part V: Biotransport Phenomena:.

23. Modeling Heat and Mass Transfer for Living on Mars: Masamichi Yamashita, Yoji Ishikawa, Yoshiaki Kitaya, Eiji Goto, Mayumi Arai, Hirofumi Hashimoto, Kaori Tomita-Yokotani, Masayuki Hirafuji, Katsunori Omori, Akira Tani, Kyoichiro Toki & Osamu Fujita.

24. Heat and Gas Exchanges Between Plants and Atmosphere Under Microgravity Conditions: Yoshiaki Kitaya.

25. Gas Embolism and Surfactant-Based Intervention: Implications for Long Duration Space Based Activity: David M. Eckmann, J. Zhang, J. Lampe & P.S. Ayyaswamy.

26. Digesta Propulsion: Model of Cascading Kinematics and Unsteady Peristalsis (Mock-Up) Simulation: C.P. Arun.

27. Numerical Modeling of the Transport To An Intravascular Bubble in A Tube With A Soluble/Insoluble Surfactant: Portonovo S. Ayyaswamy, Jie Zhang & David Eckmann.

Part VI: Fluid Dynamics in Space Systems:.

28. Modeling Flow and Transport in Space Exploration Systems: J. Iwan D. Alexander.

29. Microgravity Experiment of on-Orbit Fluid Transfer Technique Using Swirl Flow: Osamu Kawanami, Ryoji Imai, Haruhiko Ohta, Hisao Azuma, Itsuro Honda, Yousuke Kawashima.

30. Hydrostatic Compressibility Phenomena: New Opportunities for Near Critical Research in Microgravity: V.I. Polezhaev, A.A. Gorbunov, S.A.Nikitin, E.B. Soboleva.

31. Axisymmetric Surface Oscillations in A Cylindrical Container With Compensated Gravity: Jens Gerstmann, Am Fallturm, Bremen, Mark Michaelis & Michael E. Dreyer.

Part VII: Interfacial Phenomena:.

32. Surfactants on Highly Deforming Drop Interfaces: Kathleen J. Stebe, Fang Jin, Nivedita Gupta, Charles D. Eggleton, Tse Min Tsai.

33. Thermocapillary Flow in Double-Layer Fluid Structures: Nivedita R. Gupta, Hossein Haj-Hariri, Ali Borhan.

34. Electrowetting Droplet Activation for Low Gravity Environment: Kamran Mohseni.

35. Dynamics of Spontaneous Capillary Penetration Into Capillaries:Ali Borhan, Anthony Fick.

36. Flow Rate Limitation in Open Capillary Channel Flows (CCF): Dennis Haake, Am Fallturm, Uwe Rosendahl, Antje Ohlhoff, F.H. Bielefeld & Michael Dreyer.

37. Analysis of Heat and Mass Transfer During Condensation Over A Porous Substrate: R. Balasubramaniam, V. Nayagam, M.M. Hasan & L. Khan.

38. Direct Computational Simulations and Experiments for Condensation Inside Tubes and Channels: Amitabh Narain, W. Xiaomin, L. Phan, A. Siemionko & J. H. Kurita.

Part VIII: Drops and Bubbles.

39. Coalescence of Drops and Bubbles in Tube Flow: Eisa Almatroushi.

Part IX: Electrostatic and Electromegnetic Phenomena.

40. Heat Transfer Enhancement by Electric Fields in Several Heat Exchange Regimes: Walter Grassi, Daniele Testi.

41. Canceling Buoyancy of Gaseous Fuel Flames in A Gravitational Environment Using An Ion Driven Wind: Michael James Papac, Derek Dunn-Rankin.

42. Numerical Computation on Magnetothermal Air Jet in Gravitational and Non-Gravitational Fields: Masato Akamatsu, Mitsuo Higano, Hitoshi Ogasawara.

Part X: Space Systems.

43. Using Large Electric Fields To Control Transport in Microgravity: Derek Dunn-Rankin & Felix J. Weinberg.

44. Augmentation of Heat Transfer on the Downward Surface of A Heated Plate by Ion Injection: Walter Grassi, Daniele Testi, Davide Della Vista, Gabriele Torelli.

Part XI: Boiling Phenomena.

45. Some Parameter Boundaries Governing Microgravity Pool Boiling Modes: Herman Merte, Jr.

46. Some Experiments on Heat Transfer Enhancement in Subcooled Boiling: Yuka Shimane, Mitsuyasu Itoh & Koichi Suzuki.

47. Subcooled Flow Boiling With Microbubble Emission in A Narrow Channel: Koichi Suzuki & Hiroshi Kawamura.

Part XII: Thermal Management of Space Systems.

48. Self-Rewetting Fluids--Beneficial Aqueous Solutions: Yoshiyuki Abe.

49. A Structure of High-Performance Evaporators for Space Application: Haruhiko Ohta, Yasuhisa Shinmoto, Toshiyuki Mizukoshi, Yosuke Ishikawa.

50. Enhancement of Convective Heat Transfer on A Flat Plate by Artificial Roughness and Vibration: M.A. Saleh