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公開セミナー


スウェーデン、ストックホルム王立工科大学のAmberg教授による公開セミナーを行います。
Amberg教授は、結晶成長や表面張力効果など、相変化を伴う様々な種類の自由境界問題に関する数値計算を精力的に行っている方です。奮ってご参加ください。

講師 Dr. Gustav Amberg
Professor of Fluid Mechanics, Mechanics, KTH, 100-44, Stockholm, Sweden
題目 Fluid flow with free surfaces and phase change
日時 2005年9月5日(月)13:00〜15:00
場所 工学部8号館・226号会議室
講演要旨

Simulations of problems with free boundaries and several phases still present great challenges. This is both because of the need to model the various physical phenomena that are important, and to devise efficient and accurate computational methods. One example of a generic free boundary problem is the growth of a crystal in a melt. Depending on the properties of the crystal, different, often very complicated, patterns and shapes will appear. A seemingly distant example is wetting and capillarity in liquids. In both these cases however, the interplay between heat and mass transfer around the free boundaries, and the surface energy, will determine the outcome of the process. A third example is thermocapillarity, where a fluid motion is driven by a gradient in surface tension along a free surface. One growing area where this type of phenomena are important is the micro fluid mechanics of microscopic devices for analysis and synthesis in chemistry and biological applications.

Diffuse interface methods, or often phase field methods, have been gaining popularity over recent years. In these methods, the interface is represented by introducing a field, the phase field, which typically has one constant value in each phase, and the interface is represented by the layers of rapid transition between these values. In many cases the model equations can be conveniently derived from basic thermodynamical considerations. Solidification, phase change, surface tension and wetting, etc, can be treated this way.

In this talk I will give a brief overview of various problems that I have been working on in recent years, such as surface tension driven thermocapillary flow, which has relevance for welding and crystal growth; fluid motion driven by wetting; dielectrophoretic separation; phase change problems and crystallization. Some effort will be spent on describing the treatment of free boundaries using diffuse interface methods.

参加者 RA 16名、PD 5名、教官 4名
主な議論 結晶成長および混ざり合わない二流体を解くための新しい数値計算手法として、 フェイズフィールドモデルによる手法が紹介され、固体面上の液滴の挙動などに ついて計算結果を示しながら、その特徴について説明があった。レベルセット法など 他の類似の手法と比較し、なにが違うのかなどについて質問があがり、 界面の捕獲精度や動的接触角などについては、今後さらに検討が必要であるとの説明があった。


本件連絡先

  東京大学工学系研究科機械工学専攻 高木 周
  E-mail:takagi@mech.t.u-tokyo.ac.jp


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