废催化剂萃取液中氢氧化镍的合成及表征

IF 0.6 Q4 METALLURGY & METALLURGICAL ENGINEERING

Metalurgija Pub Date : 2020-12-28 DOI:10.14203/metalurgi.v35i3.572

K. C. Wanta, Felisha Hapsari Tanujaya, Federick Dwi Putra, R. F. Susanti, G. P. Gemilar, W. Astuti, H. T. Petrus

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引用次数: 1

摘要

镍是一种重要的金属元素，应用于各个领域。一种有用的镍基衍生物是氢氧化镍[Ni（OH）2]。该化合物被广泛用作可充电电池、电容器、电解槽和催化剂的电极的原料。本研究的重点是使用氢氧化物沉淀法合成Ni（OH）2。使用来自废催化剂提取过程的溶液作为前体溶液。获得前体溶液后，在pH 10下进行沉淀过程，其中操作温度在30–60℃下变化。使用NaOH、KOH和MgO溶液作为沉淀剂。实验结果表明，Ni（OH）2化合物是在30℃的低温下最佳制备的。这可以从达到该温度的液相中最低浓度的Ni2+离子来指示。三种沉淀剂在Ni2+离子的沉淀中也给出了良好的结果，其中几乎所有的Ni2+离子都从液相沉淀。使用SEM、XRD和XRF对沉淀产物进行了表征。分析结果表明，该产物呈团聚状、无定形。对于沉淀剂MgO和NaOH，所形成的沉淀物的纯度分别为24.1%和29%。

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SYNTHESIS AND CHARACTERIZATION OF NICKEL HYDROXIDE FROM EXTRACTION SOLUTION OF SPENT CATALYST

Nickel is an essential metal element and is applied in various sectors. One of the useful nickel–based derivatives products is nickel hydroxide [Ni(OH) 2 ]. This compound is widely applied as raw material for electrodes of rechargeable batteries, capacitors, electrolyzers, and catalysts. This study focuses on the synthesis of Ni(OH) 2 using the hydroxide precipitation method. A solution from the extraction process of spent catalysts was used as a precursor solution. After the precursor solution was obtained, the precipitation process was carried out at pH 10, where the operating temperature was varied at 30–60 o C. NaOH, KOH, and MgO solutions were used as precipitating agents. The experimental results show that the Ni(OH) 2 compounds were produced optimally at low temperatures, 30 o C. It could be indicated from the lowest concentration of Ni 2+ ions in the liquid phase that reached that temperature. The three precipitation agents also gave good results in the precipitation of Ni 2+ ions, where almost all of the Ni 2+ ions were precipitated from the liquid phase. The precipitated products were characterized using SEM, XRD, and XRF. The analysis results showed that the product was agglomerated and formless. The purity of the precipitates formed were 24.1 and 29% for the precipitating agents MgO and NaOH, respectively.

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来源期刊

Metalurgija 工程技术-冶金工程

CiteScore

1.20

自引率

33.30%

发文量

审稿时长

4-8 weeks

期刊介绍： The journal Metalurgija is primary scientific periodical that publishes scientific papers (original papers, preliminary notes, reviewed papers) as well as professional papers from the area of basic, applicable and developing researching in metallurgy and boundary metallurgy areas (physics, chemistry, mechanical engineering). These papers relate to processing ferrous and non-ferrous metallurgy, treating investigating as well as testing of raw materials, semi products and products, especially in the area of improving new materials and possibilities of their implementation. The journal is the only national periodical of this kind in the Republic of Croatia and covers the scientific field of metallurgy, especially: physical metallurgy and materials; process metailurgy, (ferrous and non-ferrous); mechanical metallurgy (processing, power , etc.); related (adjoing) branches: mechanlcal engineering, chemistry, physics etc.