Effect of Impurities on Solubility and Metastable Zone Width of Manganese Sulfate Monohydrate

IF 1.5 4区 材料科学 Q3 Chemistry
Sen Yang, Xiaomeng Zhou, Haowen Du, Chuang Xie
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Abstract

Recovering manganese from waste batteries is an important issue to promote the development of new energy. Herein, nickel sulfate and cobalt sulfate, representative impurities in waste battery leachate, are selected to examine their influence on the crystallization thermodynamics and crystal nucleation of manganese sulfate monohydrate. This work assessed alterations in solubility and metastable zone width (MSZW) due to the presence of impurities. The results showed a decrease in manganese sulfate monohydrate solubility in water with increasing impurity concentrations of either nickel sulfate or cobalt sulfate. The effects of initial concentration, heating rate, and impurity concentration on MSZW demonstrated a consistent increase in MSZW as these factors increased. The MSZW data are fitted using the self-consistent Nývlt-like model and the classical 3D nucleation theory model. The results revealed a general increase in the nucleation rate constant, K, with increasing saturation temperature or decreasing nickel sulfate concentration. Conversely, the solid-liquid interface energy, γ, generally decreases with increasing saturation temperature or decreasing nickel sulfate concentration. Based on the influence observed on the interface energy, a possible mechanism is proposed that suggests that impurities inhibit crystal nucleation through adsorption.

Abstract Image

杂质对一水硫酸锰溶解度和可迁移区宽度的影响
从废电池中回收锰是促进新能源发展的重要课题。本文选取废电池浸出液中具有代表性的杂质硫酸镍和硫酸钴,研究它们对一水硫酸锰结晶热力学和晶核形成的影响。这项研究评估了由于杂质的存在而导致的溶解度和蜕变区宽度(MSZW)的变化。结果表明,随着硫酸镍或硫酸钴杂质浓度的增加,一水硫酸锰在水中的溶解度降低。初始浓度、加热速率和杂质浓度对 MSZW 的影响表明,随着这些因素的增加,MSZW 也在持续增加。MSZW 数据使用自洽 Nývlt 类模型和经典三维成核理论模型进行拟合。结果显示,成核速率常数 K 随饱和温度的升高或硫酸镍浓度的降低而普遍升高。相反,固液界面能 γ 一般随饱和温度升高或硫酸镍浓度降低而降低。根据观察到的界面能的影响,提出了一种可能的机制,即杂质通过吸附作用抑制晶体成核。
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来源期刊
CiteScore
2.50
自引率
6.70%
发文量
121
审稿时长
1.9 months
期刊介绍: The journal Crystal Research and Technology is a pure online Journal (since 2012). Crystal Research and Technology is an international journal examining all aspects of research within experimental, industrial, and theoretical crystallography. The journal covers the relevant aspects of -crystal growth techniques and phenomena (including bulk growth, thin films) -modern crystalline materials (e.g. smart materials, nanocrystals, quasicrystals, liquid crystals) -industrial crystallisation -application of crystals in materials science, electronics, data storage, and optics -experimental, simulation and theoretical studies of the structural properties of crystals -crystallographic computing
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