实验方法的设计——在提高天然海水卤水生产氢氧化镁产品质量中的应用

Tam Le-Minh, Nam Hoang Dong, Dzung Nguyen Tan
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引用次数: 1

摘要

海水卤水是生产氢氧化镁的重要资源。对于那些拥有长滩和高温的自然优势的国家来说,这尤其有意义。该生产工艺是基于含镁溶液与各种碱性剂之间的主要反应。在沉淀剂中,石灰浆经常被用作廉价的反应物。然而,最终氢氧化镁中钙的污染是一个主要问题,限制了该产品在许多对氢氧化镁质量要求极高的领域(如制药、催化剂等)的适用性。本研究采用实验设计法(DOE)从天然海水卤水中回收纯度大于99%的氢氧化镁。从9个潜在影响因素中筛选出4个主要影响因素,采用全因子设计构建二阶回归模型,预测从多组分海水卤水和石灰乳中提取高纯度氢氧化镁的有利条件。一方面,通过1.0 L的批量考察,结果表明除了反应温度对产品纯度有积极影响外,石灰悬浮液中Ca(OH)2浓度和停留时间等因素对产品纯度有较强的负面影响。另一方面,回归模型中不存在卤水中镁的浓度。在最佳条件下,固体产物的化学纯度为99.35%。因此,该产品及其相应的生产条件可推荐用于需要高质量氢氧化镁的应用。
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Design of Experiment Method – An Application in Improving Quality of Magnesium Hydroxide Produced from Natural Seawater Bittern
Seawater bittern is an important resource for production of magnesium hydroxide. It is particularly meaningful for countries of which long beaches and high temperatures are available as natural advantages. This production process bases on the main reaction between solutions containing magnesium and various alkaline agents. Among of precipitants, lime slurry is frequently used as an inexpensive reactant. However, the contamination of calcium in the final magnesium hydroxide is a major problem which limits applicability of this product in many fields required extremely high quality of magnesium hydroxide such as pharmaceuticals, and catalyst, etc. In this work, magnesium hydroxide with more than 99% purity will be recovered from natural seawater bitterns by using the design of experiment (DOE) method. Selected from nine potential factors, a full factorial design considering four main effects was applied to construct a second-order regression model which allows predicting favorable conditions to pursuit high purity of magnesium hydroxide from multi-component seawater bittern and lime milk. On the one hand, the results for a 1.0 L batch investigation proved that factors such as concentration of Ca(OH)2 in lime suspension and residence time have strong negative influences on the product purity, besides positive effects of reaction temperature. On the other hand, magnesium concentration in the bittern was absent in the regression model. At the optimal conditions, the chemical purity of the solid product was obtained at a value of 99.35%. Thus, this product, and therefore its corresponding production conditions, can be recommended for applications required high quality of magnesium hydroxide.
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