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Performance Parameters of Inductively Coupled Plasma Optical Emission Spectrometry and Graphite Furnace Atomic Absorption Spectrometry Techniques for Pd and Pt Determination in Automotive Catalysts

机译:电感耦合等离子体光发射光谱法和石墨炉原子吸收光谱法的性能参数用于汽车催化剂中的PD和PT测定

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摘要

Palladium (Pd) and platinum (Pt) are extensively used as catalysts in the petrochemical and automotive industries, and due to high demand for them on the market, their recycling from spent supported catalysts is clearly needed. To assess the content of Pd and Pt in catalysts in order to establish their commercial value or to evaluate the recovery efficiency of technologies used for recycling, reliable analytical methods for determination of these elements are required. Spectrometric methods, such as inductively coupled plasma optical emission spectrometry (ICP-OES) and graphite furnace atomic absorption spectrometry (GFAAS) are powerful tools that can be employed for the determination of Pd and Pt in various sample matrices. However, these methods allow only the injection of liquid samples. In this regard, the digestion of solid sample by microwave-assisted acid extraction procedures at high pressures and temperatures is often used. In this study, a microwave acid digestion method was optimized for the extraction of Pd and Pt from spent catalysts, using a four-step program, at a maximum 200 °C. The resulting solutions were analyzed using ICP-OES, at two different wavelengths for each metal (Pd at 340.458 and 363.470 nm, and Pt at 265.945 and 214.423 nm, respectively) and using GFAAS (Pd at 247.64 nm, Pt at 265.94 nm). Five types of spent catalyst were analyzed and the standard deviations of repeatability for five parallel samples were less than predicted relative standard deviations (PRSD%) calculated using Horvitz’s equation for all the analyzed samples.
机译:钯(Pd)和铂(Pt)广泛用作石化和汽车工业中的催化剂,由于对市场的需求很高,清楚地需要从支撑的催化剂中的回收。为了评估催化剂中Pd和Pt的含量,以建立其商业价值或评估用于再循环的技术的恢复效率,因此需要用于测定这些元素的可靠分析方法。光谱法,例如电感耦合等离子体光发射光谱法(ICP-OES)和石墨炉原子吸收光谱法(GFAAS)是能够用于在各种样品矩阵中测定PD和PT的强力工具。然而,这些方法仅允许注射液体样品。在这方面,经常使用通过微波辅助酸提取方法在高压和温度下消化固体样品。在该研究中,使用四步骤中,优化了微波酸消化方法,用于从废催化剂中萃取Pd和Pt,最大值为200℃。使用ICP-OES,在每种金属的两种不同波长(Pd为340.458和363.470nm,分别为265.945和214.423nm)并使用GFAAs(247.64nm,pt,pt,pt为265.94nm,pt,pt,在265.64nm,pt)的两个不同波长下进行所得溶液。分析了五种类型的废催化剂,并且使用Horvitz的所有分析样品计算的预测相对标准偏差(PRSD%)的预测相对标准偏差(PRSD%)小于预测的相对标准偏差(PRSD%)。

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