HAYES Peter | Department of Mining, Minerals and Materials Engineering, University of Queensland
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概要
- HAYES Peter c.の詳細を見る
- 同名の論文著者
- Department of Mining, Minerals and Materials Engineering, University of Queenslandの論文著者
関連著者
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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 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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Lee Hae-geon
Department Of Materials Science & Engineering Pohang University Of Science & Technology (pos
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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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Lee H‐g
Pohang Univ. Sci. And Technol. (postech) Pohang Kor
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SIMENTO Noel
CRC Black Coal Utilisation, Advanced Technology Centre, University of Newcastle
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Simento Noel
Crc Black Coal Utilisation Advanced Technology Centre University Of Newcastle
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GHAG Surinder
RGC Mineral Sands
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SIMENTO Noel
BHP-Long Products Division
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Lee K‐y
Kwangyang Iron And Steel Research Laboratories Posco
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LEE Kae-young
Kwangyang Iron and Steel Research Laboratories, POSCO
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WANG Laihua
Department of Mining and Metallurgical Engineering, The University of Queensland
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Lee Kae-young
Kwangyang Iron And Steel Research Laboratories Posco
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Wang Lianze
Department Of Engineering Mechanics Tsinghua University
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ZHENG Xiaofeng
Department of Mining, Minerals and Materials Engineering, The University of Queensland
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Zheng Xiaofeng
Department Of Mining Minerals And Materials Engineering The University Of Queensland
著作論文
- Decarburisation of Liquid Fe-C-S Drops Using Multiple Oxidants of O_2, CO_2 and H_2O
- Decarburization Kinetics of Fe-C-S Droplets with H_2O
- Effect of System Geometry on Gas Phase Mass Transfer in Electromagnetic Levitation Assembly
- Particle Removal from Liquid Phase Using Fine Gas Bubbles
- Modelling of Break-up of Liquid Drops Impacting on Immiscible Liquids
- Break-up Phenomena of Liquid Drops Impacting on Immiscible Liquids
- A New Approach to Molten Steel Refining Using Fine Gas Bubbles
- Prediction of the Optimum Bubble Size for Inclusion Removal from Molten Steel by Flotation
- The Prediction of Gas Residence Times in Foaming CaO-SiO_2-FeO Slags
- Model Development of Slag Foaming
- Physical Model Studies on Slag Foaming