The following papers were written by the members of this society.

1. Drag reduction of wavy walls inspired from dolphins and algae

  • D. C. Trieu, R. Yamasaki and Y. Hagiwara, 2013, Drags acting on a wavy plate with symmetrical ridgelines simulating folded skins of dolphins, Journal of Aero Aqua Bio-mechanisms. Vol. 3, No. 1, pp. 29 - 35.
  • S. Koyama, K. Takashima and Y. Hagiwara, 2007, Turbulence modification in flow around a periodically deforming film, J. of Turbulence, Vol. 8, No. 1, pp. 1 – 20.
  • H. Nagamine, K. Yamahata, Y. Hagiwara and R. Matsubara, 2004, Turbulence modification by compliant skin and strata-corneas desquamation of a swimming dolphin, J. of Turbulence, Vol. 5, article no. 018, 25p.

2. Inhibition of ice growth by antifreeze protein and polypeptide inspired from the protein

  • N. Nishi, T. Miyamoto, T. Waku, N. Tanaka and Y. Hagiwara, 2016, Ice growth inhibition in antifreeze polypeptide solution by short-time solution preheating, PLOS ONE, article no. PONE-D-15-49111, pp. 1 – 15. http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0154782
  • Y. Nohara and Y. Hagiwara, 2015, Diffusion of cations in salt solutions between ice walls, Molecular Simulation, vol. 41, pp. 980 – 985.
  • Y. Hagiwara and H. Aomatsu, 2015, Supercooling enhancement by adding antifreeze protein and ions to water in a narrow space, Int. J. Heat Mass Transfer, vol. 86, pp. 55 64
  • Y. Hagiwara and D. Yamamoto, 2012, Temperature distribution and local heat flux in the unidirectional freezing of antifreeze-protein solution, Int. J. Heat and Mass Transfer, Vol. 55, pp. 2384 – 2393.
  • K. Hayakari and Y. Hagiwara, 2012, Effects of ions on winter flounder antifreeze protein and water molecules near an ice/water interface, Molecular Simulation, Vol. 38, No. 1, pp. 26 – 37.
  • Y. Hagiwara, R. Sakurai and R. Nakanishi, 2010, Temperature of the solution of winter flounder antifreeze protein near ice surfaces in a narrow space, J. Crystal Growth, Vol. 312, pp.314 - 322.
  • Y. Hagiwara, 2008, Some biological hints on the control of heat and mass transfer, J. of Thermal Science and Technology, Vol. 3, No. 3, pp. 381 − 390.
  • T. Nobekawa and Y. Hagiwara, 2008, Interaction among a twelve-residue segment of antifreeze protein type I, or its mutants, an ice nucleus and water molecules, Molecular Simulation, Vol. 34, No. 6, pp. 591 − 610.
  • T. Nobekawa, H. Taniguchi and Y. Hagiwara, 2008, Interaction between a twelve-residue segment of antifreeze protein type I, or its mutants, and water molecules, Molecular Simulation, Vol. 34, No. 3, pp. 309 − 325.