Static drop formation on an inclined flat plate.
スポンサーリンク
概要
- 論文の詳細を見る
Effect of inclination angle β on static drop formation into air from a hole in an inclined flat plate was studied experimentally and theoretically. In the experiments, water was used as the liquid and Teflon and acrylic resin were used as the solid. In the case of fixed contact line, the experimental relation between maximum drop volume Vmax and β agrees well with the theoretical prediction by analysis of the variational problem in which the total potential energy of the system is minimized. An approximated equation for Vmax and an experimental equation for residual drop volume Vmin are presented. In the case of free contact line, drop formation is affected both by the advancing contact angle and by the receding contact angle. The drop formation course can be simulated roughly by assuming a circular contact line, and the experimental relations between Vmax and β are explained by the theory.
- 公益社団法人 化学工学会の論文
著者
-
HOZAWA MITSUNORI
Chemical Research Institute of Non-Aqueous Solutions, Tohoku Univ.
-
IMAISHI NOBUYUKI
Chemical Research Institute of Non-Aqueous Solutions, Tohoku Univ.
-
TSUKADA TAKAO
Chemical Research Institute of Non-Aqueous Solutions, Tohoku University
-
FUJIKAWA KATSUHIKO
Chemical Research Institute of Non-Aqueous Solutions, Tohoku University
関連論文
- Demulsification of W/O emulsion by use of high voltage of A.C. fields.
- Theoretical and experimental studies of the deformation of bubbles moving in quiescent Newtonian and non-Newtonian liquids.
- Interfacial turbulence during the physical absorption of carbon dioxide into non-aqueous solvents.
- Static drop formation in an electrostatic field.
- Effect of oscillatory instability on stability of two-fluid layers.
- Effect of interface inversion on thermal stress field in CZ crystal growth of oxide.
- Effect of a radiation shield on thermal stress field during Czochralski crystal growth of silicon.
- The effect of interfacial turbulence on mass trasfer. An expression of the enhancement factor.:AN EXPRESSION OF THE ENHANCEMENT FACTOR
- Computer simulations of deformation of moving drops and bubbles by use of the finite element method.
- Effects of desorption and absorption of surface tension-lowering solutes on liquid-phase mass transfer coefficients at a turbulent gas-liquid interface.
- Static drop formation on an inclined flat plate.
- Effect of wettability on static drop formation from a hole in horizontal flat plate.