Physical Model Studies on Slag Foaming
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概要
- 論文の詳細を見る
A physical modelling investigation has been undertaken to determine the relationship between the physico-chemical properties of the liquid phase, the gas bubble size, the gas flux, and the residence times of gas in spherical foams. The testwork was conducted in a 107 mm diameter glass column in a temperature controlled environment. The foams were generated by the injection of compressed air into solutions of distilled water and glycerol. Water glycerol solutions were used to obtain a wide range of liquid viscosities. The strongly adsorbing surfactant, sodium dodecylbenzene sulphonate, was added to the water–glycerol solutions so that the surface tensions of the solutions could also be controlled. The experimental results show that the residence times of gas bubbles in the foam increase with increasing liquid viscosity and increasing surface tension depression, and with decreasing gas bubble size. Furthermore, a transition from a foaming to a non-foaming regime was observed as the mean gas bubble diameter increased above 5 mm.
- 社団法人 日本鉄鋼協会の論文
- 1998-11-15
著者
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Lee Hae-geon
Department Of Materials Science And Engineering Pohang University Of Science And Technology (postech
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HAYES Peter
Department of Mining, Minerals and Materials Engineering, University of Queensland
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Lee H‐g
Pohang Univ. Sci. And Technol. Pohang Kor
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Hayes P
Univ. Queensland Queensland Aus
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Hayes Peter
Department Of Mining Minerals And Materials Engineering University Of Queensland
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Hayes Peter
Department Of Mining And Metallurgical Engineering The University Of Queensland
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Lee Hae-geon
Department Of Mining And Metallurgical Engineering The University Of Queensland
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GHAG Surinder
RGC Mineral Sands
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Lee Hae-geon
Department Of Materials Science & Engineering Pohang University Of Science & Technology (pos
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