High Liquid-Gas Ratio Separation in Pre-Cyclone Jet Singlet Oxygen Generator

Zhen Dong Liu; Yu Qiang Dai; Feng Xia Liu; Xiao Bo Xu; Li Zhi Zhu; Wen Wu Chen; Da Peng Hu; Yong Hang Cheng

doi:10.4028/www.scientific.net/AMM.291-294.759

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 291-294High Liquid-Gas Ratio Separation in Pre-Cyclone...

High Liquid-Gas Ratio Separation in Pre-Cyclone Jet Singlet Oxygen Generator

Abstract:

A novel pre-cyclone jet singlet oxygen generator (PJSOG) has been the focus of research for recent years. In this paper, the high liquid-gas ratio separation performances of PJSOG have been studied by means of theoretical and experimental analysis. The liquid excess of the critical mass concentration portion can be easily captured due to initial BHP particles swirling momentum for a specific designed structure. At high flow speeds, the vacuum mixed Cl2/He with a weak entrainment capability insures high separation efficiency. Large quantities of experiments have verified that the new PJSOG do have the excellent operation performances of high separation efficiency, high O2 (1Δ) output coefficient, high utilization coefficient of Cl2 and excellent operating flexibility and stability. All the results show that the new PJSOG is a feasible and promising technology in singlet oxygen generation cases.

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Periodical:

Applied Mechanics and Materials (Volumes 291-294)

Pages:

759-763

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.291-294.759

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Online since:

February 2013

Authors:

Zhen Dong Liu, Yu Qiang Dai, Feng Xia Liu, Xiao Bo Xu, Li Zhi Zhu, Wen Wu Chen, Da Peng Hu, Yong Hang Cheng

Keywords:

Gas-Liquids Separations, High Liquid-Gas Ratio, Singlet Oxygen Generator

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References

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