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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

Advances in Magnetism and Magnetic Materials

Presentation Title

Structural Design of a Swirling Cooling Water Bucket in the Gas-Water Atomization Process Based on Numerical Simulation

Author(s)

Cheng-fei Wang, Pu Wang, Bo Li, Jia-qi Liu, Yuan-bin Lv, Jia-quan Zhang

On-Site Speaker (Planned)

Pu Wang

Abstract Scope

In this paper, a gas-water two-phase flow coupled numerical model was established to analyze the influence of the structural parameters of the swirling cooling water bucket on the swirling cooling water film in the gas-water combined atomization system. The results show that as the bucket diameter increases, the water film thickness decreases and its stability deteriorates. When the bucket diameter increases to 500 mm, a stable water film cannot be formed, and the water film velocity also decreases. Without a baffle ring, approximately 13.5% of the cooling water overflows from the upper part of the bucket and fails to form a stable water film, which may cause production disruptions. Within the range of the bucket structural parameters designed in this study, the optimal parameter combination is a bucket diameter of 300 mm, an inclination angle of 20°, and a baffle ring distance of 36 mm from the wall.

Proceedings Inclusion?

Planned:

Keywords

Modeling and Simulation, Powder Materials, Thin Films and Interfaces

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