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| 가분율 분석× | 부유선광 동역학× | 로진-람러 분포× | |
|---|---|---|---|
| 분야 | 광산공학 | 광산공학 | 광산공학 |
| 계열 | Process / pipeline | Process / pipeline | Process / pipeline |
| 기원 연도≠ | 1950 | 1935 | 1933 |
| 창시자≠ | Mining Industry Practice (1930s-1960s) | Garcia-Zuniga | Paul Rosin and Erich Rammler |
| 유형≠ | Separation analysis by density fractionation | First-order kinetic model for flotation recovery | Empirical probability distribution for crushed material fineness |
| 원전≠ | McCullough, R. B. (1963). The theoretical basis and practical application of coal washability studies. Transactions of the Society of Mining Engineers, 226, 13-26. link ↗ | Garcia-Zuniga, H. (1935). Uber eine neue Methode, zur Berechnung der Flotationsausbeute. Zeitschrift fur Praktische Geologie, 43(2), 12-19. link ↗ | Rosin, P., & Rammler, E. (1933). The laws governing the fineness of powdered coal. Journal of the Institute of Fuel, 7, 29-36. link ↗ |
| 별칭 | Coal Washability, Density Separation Analysis, Float-Sink Analysis | Batch Flotation Model, Flotation Rate Constants, Kinetic Flotation Analysis | Rosin-Rammler Model, RRS Distribution, Weibull Distribution (particle size) |
| 관련 | 3 | 3 | 3 |
| 요약≠ | Washability analysis is a laboratory method that determines the feasibility and efficiency of density-based separation for coal or mineral beneficiation. By fractionating ore or coal into density bins using sink-float tests and assaying each fraction, engineers can optimize design of separation plants (dense-medium cyclones, jigs, spirals) and predict clean product quality. Washability curves are essential tools for pre-feasibility and detailed design studies. | Flotation kinetics is the study of how recovery of minerals from ore changes over time during flotation. The Garcia-Zuniga model, introduced in 1935, describes recovery as a first-order kinetic process with rate constant k and maximum recoverable fraction R∞. This simple model underpins flotation cell design and process optimization, enabling engineers to predict flotation performance from batch tests and scale results to industrial circuits. | The Rosin-Rammler Distribution, introduced by Paul Rosin and Erich Rammler in 1933, is an empirical probability distribution that describes the particle size distribution of ground or crushed materials. It characterizes fineness by two parameters: the characteristic size (d-prime) and the uniformity index (n). This distribution is remarkably accurate for mineral processing streams and is ubiquitous in comminution engineering. |
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