Role of Mass-Transfer Rate and Surface Inertia on Solitary Wave Trains at Liquid Surface
スポンサーリンク
概要
- 論文の詳細を見る
We report several findings about solitary wave trains in a liquid surface, which is produced by the Marangoni instability. The wave trains were induced by adsorption and absorption of the volatile species into another miscible liquid. Although the present system has been investigated focusing on the interfacial fluid dynamics in detail, our special interest in this paper is a mapping of the wave-mode on a certain diagram. First of all, we reported a kind of conservation law between the number of wave crests and the traveling speed. As the next, we mentioned that a liquid layer composed of a volatile species was formed on the less-volatile liquid. On the basis of these results, we successfully performed the mode-mapping on a diagram, the abscissa and ordinate of which represent the mass-transfer rate and the thickness of the layer, respectively. Both axes, respectively, corresponded to the strength of the driving force and the inertia against the movement.
- 社団法人 化学工学会の論文
- 2006-10-01
著者
-
SHIOI Akihisa
Department of Chemistry and Chemical Engineering, Yamagata University
-
IWATA Emiko
Department of Clinical Pharmacology and Toxicology, Showa Pharmaceutical University
-
Iwata Emiko
Department Of Chemistry And Chemical Engineering Yamagata University
-
Shioi Akihisa
Department Of Chemistry And Chemical Engineering Yamagata University
-
Shioi Akihisa
Department Of Chemical Engineering & Materials Science Doshisha University
-
BAN Takahiko
Department of Chemical Engineering, Nagoya University
-
HOSOKAWA Jun
Department of Chemistry and Chemical Engineering, Yamagata University
-
AZUMA Hosuke
Department of Chemistry and Chemical Engineering, Yamagata University
-
Hosokawa Jun
Department Of Chemistry And Chemical Engineering Yamagata University
-
Ban Takahiko
Department Of Chemical Engineering & Materials Science Doshisha University
-
Azuma Hosuke
Department Of Chemistry And Chemical Engineering Yamagata University
-
Ban Takahiko
Dep. Of Chemical Engineering & Materials Sci. Doshisha Univ.
-
Shioi Akihisa
Dep. Of Chemical Engineering & Materials Sci. Doshisha Univ.
関連論文
- Spontaneous Particle Formation with Fine Structures in Gelatin
- Some Characteristics in Particle Growth in Gel and Oscillatory Zoning
- Coalescence of Aqueous Droplet with Oil/Water Interface under Spontaneous Interfacial Flow due to Oscillatory Dynamics
- Correlation between the Physicochemical Property of Some Nonsteroidal Anti-inflammatory Drugs and Changes in Adenosine Triphosphate, Glutathione and Hemoglobin in Rat Erythrocytes(Biopharmacy)
- Use of HLB Values for Prediction of Drop Coalescence Behavior in Liquid-Liquid Extraction Systems Containing Industrial Extractants
- Enhancement of phase separation using a drop coalescer in an aqueous two-phase system
- Role of Mass-Transfer Rate and Surface Inertia on Solitary Wave Trains at Liquid Surface
- Unstable Growth of Particulate Zone in Gel
- Stage Efficiency Based on Dispersed Phase Concentration in a Mixer-Settler Extraction Column
- Ionic Control of Droplet Motion
- Self-generated Motion of Droplets Induced by Korteweg Force
- Anionic Control of Autonomous Motion of Oil/Water Interface with Cationic Surfactant
- Control of Periodicity and Growth Rate of Oscillatory Zoning in Particle by Chemical Process
- Droplet Motion Induced by Spontaneous Breaking of Flow Symmetry in Aqueous Two-phase Systems
- Desorption of lonic-Surfactants at Liquid/Liquid Interface
- Chemically Driven Tension Fluctuation and Motion of Interface with Divalent Cation and Di(2-ethylhexyl)phosphoric Acid
- Control of Periodicity and Growth Rate of Oscillatory Zoning in Particle by Chemical Process