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1997 Journal Article An improved formula for terminal velocity of rigid spheresNguyen, AV, Stechemesser, H, Zobel, G and Schulze, HJ (1997). An improved formula for terminal velocity of rigid spheres. International Journal of Mineral Processing, 50 (1-2), 53-61. doi: 10.1016/S0301-7516(97)00007-0 |
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1997 Journal Article Contact time during impact of a spherical particle against a plane gas-liquid interface: TheoryNguyen, AV, Schulze, HJ, Stechemesser, H and Zobel, G (1997). Contact time during impact of a spherical particle against a plane gas-liquid interface: Theory. International Journal of Mineral Processing, 50 (1-2), 97-111. doi: 10.1016/S0301-7516(97)00006-9 |
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1997 Journal Article Contact time during impact of a spherical particle against a plane gas-liquid interface: ExperimentNguyen, AV, Schulze, HJ, Stechemesser, H and Zobel, G (1997). Contact time during impact of a spherical particle against a plane gas-liquid interface: Experiment. International Journal of Mineral Processing, 50 (1-2), 113-125. doi: 10.1016/S0301-7516(97)00002-1 |
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1997 Journal Article Order of three-phase (solid-liquid-gas) contact line tension as probed by simulation three-phase contact line expansion on small hydrophobic spheresNguyen, AV, Stechmesser, H, Zobel, G and Schulze, HJ (1997). Order of three-phase (solid-liquid-gas) contact line tension as probed by simulation three-phase contact line expansion on small hydrophobic spheres. Journal of Colloid and Interface Science, 187 (2), 547-550. doi: 10.1006/jcis.1996.4725 |
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1997 Journal Article Contact time during impact of a spherical particle against a plane gas-liquid interface: experimentNguyen, A. V., Schulze, H. J., Stechemesser, H. and Zobel, G. (1997). Contact time during impact of a spherical particle against a plane gas-liquid interface: experiment. International Journal of Mineral Processing, 50 (1-2), 113-125. doi: 10.1016/S0301-7516(97)00002-1 |
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1997 Journal Article Contact time during impact of a spherical particle against a plane gas-liquid interface: theoryNguyen, A. V., Schulze, H. J., Stechemesser, H. and Zobel, G. (1997). Contact time during impact of a spherical particle against a plane gas-liquid interface: theory. International Journal of Mineral Processing, 50 (1-2), 97-111. doi: 10.1016/S0301-7516(97)00006-9 |
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1995 Conference Publication Collection events in flotation: The quantitative analysis of the particle-bubble collision and the attachment of particle onto bubble surfaceNguyenVan, A, Kmet, S and Schulze, HJ (1995). Collection events in flotation: The quantitative analysis of the particle-bubble collision and the attachment of particle onto bubble surface. XIX International Mineral Processing Congress on Leading Mineral Processing into the 21st-Century Through Advanced Technology, San Francisco Ca, 1995. |
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1994 Journal Article A Simple Algorithm for the Calculation of the Terminal Velocity of a Single Solid Sphere in WaterNguyenvan, A, Schulze, HJ and Kmet, S (1994). A Simple Algorithm for the Calculation of the Terminal Velocity of a Single Solid Sphere in Water. International Journal of Mineral Processing, 41 (3-4), 305-310. doi: 10.1016/0301-7516(94)90036-1 |
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1994 Journal Article Probability of Collision Between Particles and Bubbles in Flotation - the Theoretical Inertialess Model Involving a Swarm of Bubbles in Pulp PhaseNguyenvan, A and Kmet, S (1994). Probability of Collision Between Particles and Bubbles in Flotation - the Theoretical Inertialess Model Involving a Swarm of Bubbles in Pulp Phase. International Journal of Mineral Processing, 40 (3-4), 155-169. doi: 10.1016/0301-7516(94)90041-8 |
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1994 Journal Article The Collision Between Fine Particles and Single Air Bubbles in FlotationNguyenvan, A (1994). The Collision Between Fine Particles and Single Air Bubbles in Flotation. Journal of Colloid and Interface Science, 162 (1), 123-128. doi: 10.1006/jcis.1994.1016 |
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1992 Journal Article Collision efficiency for fine mineral particles with single bubbles in a countercurrent flow regimeNguyen Van, A. and Kmet, S. (1992). Collision efficiency for fine mineral particles with single bubbles in a countercurrent flow regime. International Journal of Mineral Processing, 35 (3-4), 205-223. |
