Reymar R. Diwa, Estrellita U. Tabora, Nils H. Haneklaus, Jennyvi D. Ramirez
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引用次数: 2
摘要
菲律宾每年生产约210 - 320万吨磷石膏(PG)。PG可能含有高浓度的稀土元素(ree)。本文首次研究了H2SO4对菲律宾PG中稀土元素的浸出效果。共进行了18个试验设置(每个重复3次),以优化酸浓度(1-10%)、浸出温度(40-80°C)、浸出时间(5-120 min)和固液比(1:10-1:2),以最大限度地提高稀土矿的浸出效率。采用不同优化方法(Taguchi法、回归分析和人工神经网络分析),稀土矿总浸出效率达到71% (La 75%、Ce 72%、Nd 71%、Y 63%)。我们的结果表明,解释变量的重要性依次为酸浓度>温度>时间>固液比。回归模型表明,稀土元素浸出效率与酸浓度、温度和时间的线性组合直接相关。同时,人工神经网络识别出浸出过程中固液比的相关性,总体R为0.97379。所提出的人工神经网络模型能够以合理的精度预测PG中稀土元素的浸出效率。
Rare earths leaching from Philippine phosphogypsum using Taguchi method, regression, and artificial neural network analysis
The Philippines produce some 2.1–3.2 million t phosphogypsum (PG) per year. PG can contain elevated concentrations of rare earth elements (REEs). In this work, the leaching efficiency of the REEs from Philippine PG with H2SO4 was for the first time studied. A total of 18 experimental setups (repeated 3 times each) were conducted to optimize the acid concentration (1–10%), leaching temperature (40–80 °C), leaching time (5–120 min), and solid-to-liquid ratio (1:10–1:2) with the overall goal of maximizing the REE leaching efficiency. Applying different optimizations (Taguchi method, regression analysis and artificial neural network (ANN) analysis), a total REEs leaching efficiency of 71% (La 75%, Ce 72%, Nd 71% and Y 63%) was realized. Our results show the importance of the explanatory variables in the order of acid concentration > temperature > time > solid-to-liquid ratio. Based on the regression models, the REE leaching efficiencies are directly related to the linear combination of acid concentration, temperature, and time. Meanwhile, the ANN recognized the relevance of the solid-to-liquid ratio in the leaching process with an overall R of 0.97379. The proposed ANN model can be used to predict REE leaching efficiencies from PG with reasonable accuracy.
期刊介绍:
The Journal of Material Cycles and Waste Management has a twofold focus: research in technical, political, and environmental problems of material cycles and waste management; and information that contributes to the development of an interdisciplinary science of material cycles and waste management. Its aim is to develop solutions and prescriptions for material cycles.
The journal publishes original articles, reviews, and invited papers from a wide range of disciplines related to material cycles and waste management.
The journal is published in cooperation with the Japan Society of Material Cycles and Waste Management (JSMCWM) and the Korea Society of Waste Management (KSWM).
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