Enhancing bubble bize prediction in flotation processes: a drift flux model accounting for frother type

IF 1.5 4区 工程技术 Q2 Earth and Planetary Sciences
Claudio Leiva, Claudio Acuña, S. Luukkanen, Constanza Cruz
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Abstract

This communication presents a methodology, based on a modified drift flux model, to determine bubble size distribution in column flotation. The modified drift flux model incorporates a surfactant-type parameter. This parameter considers the impact of surfactant on bubble hydrodynamics. The methodology aims to improve the accuracy of bubble size distribution prediction, which presents deviation depending on surfactant type (i.e. polyglycolic based or alcoholic base). Many authors have proposed different mathematical improvements to reduce de experimental data deviations in the presence of different surfactants. However, from 1988 to 2022, the determination coefficient, or the quality of the adjustments, from the proposed mathematical models is, at the most, 92% (relative error). The proposed methodology improves the quality of the adjustments to 98.6, adding a single parameter for groups of surfactants. This methodology incorporates a single parameter in the terminal velocity calculation that can compensate for the impact of surfactant type in bubble hydrodynamic (bubble skin friction or drag coefficient, bubble wake, bubble shape, bubble rigidity). This parameter is a function of the gas holdup calculated from gas velocity measured and the bubble size distribution calculated (deviated) from gas holdup and gas velocity measured. The methodology is validated with reported experimental results and proposed modifications from various authors. The confidence interval (2 σ) is reduced from 0.11mm to 0.05mm in the case of (Yianatos, Banisi, Ostadrahimi). In the case of the recently reported experimental results from Maldonado and Gomez, the confidence interval is reduced from 0.31 mm to 0.09 mm. These results improve bubble size estimation based on drift flux in column flotation, contributing to a better understanding of surfactant impact on bubble swarm hydrodynamics.
加强浮选过程中的气泡大小预测:考虑泡沫类型的漂移通量模型
本文介绍了一种基于改进的漂移通量模型的方法,用于确定柱浮选中的气泡粒度分布。改进的漂移通量模型包含一个表面活性剂类型参数。该参数考虑了表面活性剂对气泡流体力学的影响。该方法旨在提高气泡大小分布预测的准确性,气泡大小分布预测的偏差取决于表面活性剂的类型(即聚乙二醇基还是醇基)。许多学者提出了不同的数学改进方法,以减少不同表面活性剂存在时的实验数据偏差。然而,从 1988 年到 2022 年,所提出的数学模型的确定系数或调整质量最多只有 92%(相对误差)。建议的方法将调整质量提高到 98.6,为表面活性剂组增加了一个参数。该方法在末端速度计算中加入了一个参数,可以补偿表面活性剂类型对气泡流体动力的影响(气泡表皮摩擦或阻力系数、气泡尾流、气泡形状、气泡刚度)。该参数是根据测量的气体速度计算出的气体滞留和根据气体滞留和测量的气体速度计算(偏差)出的气泡大小分布的函数。该方法通过报告的实验结果和不同作者提出的修改建议进行了验证。Yianatos, Banisi, Ostadrahimi)的置信区间(2 σ)从 0.11 毫米减小到 0.05 毫米。马尔多纳多和戈麦斯最近报告的实验结果的置信区间从 0.31 毫米减小到 0.09 毫米。这些结果改进了基于柱浮选漂移通量的气泡大小估计,有助于更好地理解表面活性剂对气泡群水动力学的影响。
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来源期刊
Physicochemical Problems of Mineral Processing
Physicochemical Problems of Mineral Processing 工程技术-矿业与矿物加工
CiteScore
2.20
自引率
6.70%
发文量
99
审稿时长
3.3 months
期刊介绍: Physicochemical Problems of Mineral Processing is an international, open access journal which covers theoretical approaches and their practical applications in all aspects of mineral processing and extractive metallurgy. Criteria for publication in the Physicochemical Problems of Mineral Processing journal are novelty, quality and current interest. Manuscripts which only make routine use of minor extensions to well established methodologies are not appropriate for the journal. Topics of interest Analytical techniques and applied mineralogy Computer applications Comminution, classification and sorting Froth flotation Solid-liquid separation Gravity concentration Magnetic and electric separation Hydro and biohydrometallurgy Extractive metallurgy Recycling and mineral wastes Environmental aspects of mineral processing and other mineral processing related subjects.
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