Kazuto UENO

Present affiliation

Fluid Dynamics Sector (Meteorology Group),
Civil Engineering Research Laboratory,
Central Research Institute of Electric Power Industry,
1646 Abiko, Abiko-shi, Chiba-ken 270-1194 JAPAN

Research abroad

• NSERC/Hydro-Quebec/UQAC Industrial Chair on Atmospheric Icing
  of Power Network Equipment (CIGELE) and Canada Research Chair
  on Atmospheric Icing Engineering of Power Networks (INGIVRE),
  Applied Sciences, University of Quebec in Chicoutimi

• Visiting Scholar at Trinity College of the University of Cambridge
  Solidification and fluid flow
  hosts: Prof. M G. Worster and Prof. R E. Goldstein (Department of Applied Mathematics and Theoretical Physics, University of Cambridge)

Research Interests

• Crystal growth problems under a thin layer of moving fluid
  

• Renormalization group analysis of nonlinear differential equations
  

Selected Publications

• K. Ueno and M. Farzaneh
  Roughness characteristics of an ice surface grown in the presence of a supercooled water film driven by gravity and wind drag
  arXiv:physics.flu-dyn/1103.4141

• K. Ueno and M. Farzaneh
  Linear stability analysis of ice growth under supercooled water film driven by a laminar airflow
  Phys Fluids 23, 042103 (2011)
  arXiv:physics.flu-dyn/1103.3007

• K. Ueno and M. Farzaneh
  Morphological instability of the solid-liquid interface in crystal growth under supercooled liquid film flow and natural convection airflow
  Phys Fluids 22, 017102 (2010)
  arXiv:physics.flu-dyn/1102.5114

• K. Ueno, M. Farzaneh, S. Yamaguchi and H. Tsuji
  Numerical and experimental verification of a theoretical model of ripple formation in ice growth under supercooled water film flow
  Fluid Dyn. Res., 42, 025508 (2010)
  arXiv:physics.flu-dyn/1102.4890 ->(blog link)

• K. Ueno
  Characteristics of the wavelength of ripples on icicles
  Phys Fluids 19, 093602 (2007)
  arXiv:physics.flu-dyn/1103.5208

• K. Ueno
  Ripples on the Surface of Icicles
  J. Jpn. Soc. Fluid Mech. (Nagare) 25 (4) (2006)(in Japanese)

• K. Ueno, H. Sakaguchi and M. Okamura
  Renormalization-group and numerical analysis of
  a noisy Kuramoto-Sivashinsky equation in 1+1 dimensions
  Phys. Rev. E 71, 046138 (2005)
  arXiv:cond-mat/0410429

• K. Ueno
  Pattern formation in crystal growth under parabolic shear flow II
  Phys. Rev. E 69, 051604 (2004)
  arXiv:cond-mat/0401593

• K. Ueno
  Pattern formation in crystal growth under parabolic shear flow
  Phys. Rev. E 68, 021603 (2003)
  arXiv:cond-mat/0306055

News

• NewScientist, 6 May 2006
  Stalactites: Chaos+time=beauty

• NewScientist, 16 July 2008
  Ice maths

• Inside Science News Service, 20 Dec 2010
  Icicle Shape Stranger Than Thought

• FOX NEWS, 25 Dec 2010
  Icicle Shape Can Be Much Stranger Than Thought

• The Flying Circus of Physics, Feb 2011
  Ripple migration on icicles

• MIT Technology Review, 2 Mar 2011
  The curious properties of ripples on icicles

• Fluid Dynamics Research, 7 July 2011
  Highlights of 2010

• NewScientist, 31 Dec 2011
  Seasonal stalactites: The sharp end of icicle science

Links

• ice
  

  Ripples on icicles
  Experiments on the morphology of icicles
  (The Experimental Nonlinear Physics Group, University of Toronto)

  Aircraft icing (Alric Rothmayer's Group, Iowa State University)

• calcium carbonate
  

  Geological pattern formation by growth and dissolution
  in aqueous systems

  Geological pattern formation
  (Nigel Goldenfeld's Group, University of Illinois)

  Ancient Rainfall, Carved in Stone
  Importance of the surface tension of the water-air interface in determining the wavelength of ripples on stalactites and upward migration of the ripples are similar to the case of ice ripples
  

• sucrose
  

  Shape Development of Kompeitoh(On Motion and Form in Our Daily Life)

  Shape Selection of Kompeitoh