菲律宾粉煤灰盐酸浸出:响应面法(RSM)研究及浸出参数优化

Al Mon E. Dahan, R. Alorro, Mona Lisa C. Pacaña, Ronben M. Baute, Leaniel C. Silva, C. Tabelin, V. Resabal
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引用次数: 9

摘要

粉煤灰是燃煤电厂产生的一种有害废弃物,已日益成为建筑行业水泥的一种受欢迎的补充胶凝材料。作为稀土元素的二次资源,其主要优势在于其细粒度,消除了昂贵和能源密集型粉碎的需要。在这项研究中,研究人员利用盐酸(HCl)直接浸出稀土元素,研究了来自菲律宾的CFA作为二级稀土资源的潜力。CFA样本来自一家采用循环流化床燃烧(CFBC)技术的燃煤电厂。在浸出试验中,利用响应面法优化了HCl浓度、浸出时间和浸出温度对稀土元素提取率的影响。RSM结果表明,在3M HCl、65°C、270 min条件下,Nd、Er、Eu、Tb和Dy的提取率分别为70.8%、76.34%、88.02%、90.01%和73.38%。综上所述,菲律宾的CFA是一种很有前景的稀土二次资源,采用的提取方法可以有效地获得较高的稀土溶解度。建立的经验模型对稀土元素的预测精度分别为98.20%、96.66%、97.09%、98.17%和97.78%,对Nd、Er、Eu、Tb和Dy的预测精度分别为98.66%、96.66%、97.09%和97.78%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrochloric Acid Leaching of Philippine Coal Fly Ash: Investigation and Optimisation of Leaching Parameters by Response Surface Methodology (RSM)
Coal Fly Ash (CFA) is a hazardous waste from coal-fired power plants, but has increasingly become a popular supplementary cementitious material for cement in the construction industry. As a secondary resource of REE, its main advantage lies in its fine particle size that eliminates the need for costly and energy-intensive comminution. In this study, the potential of CFA from the Philippines as a secondary REE resource was investigated by direct leaching of REEs with hydrochloric acid (HCl). The CFA sample came from a coal-fired power plant with a circulating fluidized bed combustion (CFBC) technology. For the leaching tests, the effects of HCl concentration, leaching time and leaching temperature on REE extractions were elucidate optimized via Response Surface Methodology (RSM). The RSM results showed that the optimum leaching occurred at 3M HCl, 65 °C and 270 min with extractions of Nd, Er, Eu, Tb and Dy at 70.8%, 76.34%, 88.02%, 90.01% and 73.38%, respectively. According to these results, the CFA from the Philippines is a promising secondary resource of REE and the extraction method employed was effective in achieving a relatively high REE dissolution. Moreover, the empirical model that was established accurately predicted the dissolution of REE with an accuracy of 98.20%, 96.66%, 97.09%, 98.17% and 97.78% for Nd, Er, Eu, Tb and Dy, respectively.
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