IMPINGING EFFERVESCENT ATOMIZERS: DESIGN INSIGHTS

IMPINGING EFFERVESCENT ATOMIZERS: DESIGN INSIGHTS

Stať ve sborníku v databázi WoS či Scopus

Design and performance of an impinging effervescent atomizer are investigated in this study. Effervescent atomizers were adapted to a multi-orifice design to address limitations in single orifice setups as small spray cone angle (SCA) and small area coverage. High-speed imaging and Phase Doppler anemometry were used to assess liquid discharge behaviour, droplet size, and spray stability. The experiments analysed various design parameters, including the diameter of the mixing chamber, the diameter of the exit orifice, and pitch circle diameter, under different gas-to-liquid ratios (GLR) and inlet fluid configurations (central air vs. central liquid). Results indicate that the inlet fluid configuration significantly affects discharge stability, with the central liquid configuration showing low-frequency oscillation, which lowers spray quality. Although the discharge coefficient was unaffected by design variations, the droplet size was influenced by the pitch circle diameter and the GLR, with the latter being the dominant factor. The findings provide insight into optimizing the design for stable and efficient operation of the impinging effervescent atomizer.

Design and performance of an impinging effervescent atomizer are investigated in this study. Effervescent atomizers were adapted to a multi-orifice design to address limitations in single orifice setups as small spray cone angle (SCA) and small area coverage. High-speed imaging and Phase Doppler anemometry were used to assess liquid discharge behaviour, droplet size, and spray stability. The experiments analysed various design parameters, including the diameter of the mixing chamber, the diameter of the exit orifice, and pitch circle diameter, under different gas-to-liquid ratios (GLR) and inlet fluid configurations (central air vs. central liquid). Results indicate that the inlet fluid configuration significantly affects discharge stability, with the central liquid configuration showing low-frequency oscillation, which lowers spray quality. Although the discharge coefficient was unaffected by design variations, the droplet size was influenced by the pitch circle diameter and the GLR, with the latter being the dominant factor. The findings provide insight into optimizing the design for stable and efficient operation of the impinging effervescent atomizer.

effervescent atomization; impinging effervescent atomizer; Phase Doppler anemometry

effervescent atomization; impinging effervescent atomizer; Phase Doppler anemometry

CEJPEK, O.; MALÝ, M.; HÁJEK, J.; JEDELSKÝ, J.

2026

01.01.2025

Acad Sci Czech Republic, Inst Thermomechanics

PRAGUE 8

Topical Problems of Fluid Mechanics

Topical Problems of Fluid Mechanics ...

Česká republika

39

44

6