Sequential Production of mm-Sized Spherical Shells in Liquid-Liquid Gas Systems

Author:

Kawano Satoyuki1,Hashimoto Hiroyuki1,Ihara Akio1,Shin Keiji1

Affiliation:

1. Institute of Fluid Science, Tohoku University, 2-1-1 Katahira, Aobaku, Sendai 980, Japan

Abstract

A new device has been developed for sequential production of mm-sized solid spherical shells using liquid-liquid gas systems. This device comprises a cylindrical vessel, for containing two kinds of immiscible liquids, and a gas injection orifice, set at the center of the vessel’s bottom. Solid spherical shells are successfully and sequentially produced by solidifying rising liquid spherical shells, formed sequentially at the horizontal interface between two immiscible liquids.

Publisher

ASME International

Subject

Mechanical Engineering

Reference8 articles.

1. Hashimoto, H. and Kawano, S., 1989, “Formation of Encapsulated Liquid Drops in Liquid-Liquid Gas Systems,” Proceedings of International Conference on Mechanics of Two-Phase Flows, Taipei, pp. 341–346.

2. Hashimoto H. and KawanoS., 1990, “A Study on Encapsulated Liquid Drop Formation in Liquid-Liquid Gas Systems: Fundamental Mechanism of Encapsulated Drop Formation,” JSME International Journal, Series II, Vol. 33, pp. 729–735.

3. Hashimoto H. and KawanoS., 1993, “Mass Transfer around a Moving Encapsulated Liquid Drop,” International Journal Multiphase Flow, Vol. 19, pp. 213–228.

4. Kawano S. and HashimotoH., 1992, “Drag Coefficient of a Spherical Encapsulated Liquid Drop,” JSME International Journal, Series II, Vol. 35, pp. 151–157.

5. Kawano, S., Hashimoto, H. and Azima, T., 1993, “A Study on Compound Jet Instability and Formation of Encapsulated Liquid Drops in Liquid-Liquid-Gas Systems,” Proceedings of the International Symposium on Aerospace and Fluid Science, Sendai, pp. 371–378.

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