Seawater brines, generated either by natural or anthropic processes, often cause significant environmental issues related to their disposal. A clear example is the case of brines from desalination plants, which can have severe environmental impacts on the receiving water body. On the other side, brines can represent a rich and appealing source of raw materials, especially when they are very concentrated, as it happens with bitterns (i.e. exhausted brines) produced in saltworks. In particular, magnesium concentration can reach values up to 30-40 kg/m3 of brine, which is 20-30 times that of typical seawater.udAn experimental campaign has been carried out in the present work for assessing the potentials for magnesium recovery from concentrated brines. Real brines were collected from the final basins of the saltworks operating in the district of Trapani (Sicily - Italy).udExperiments were performed both in a semi-batch and in a continuous 5 litre crystalliser operating by a reactive precipitation process. NaOH solutions were adopted as standard alkaline reactant in order to assess the influence of all operating parameters and reactor configuration on the recovery efficiency and purity of the Mg(OH)2 powder produced.udResults have highlighted a very promising strategy for the recovery of Mg from concentrated brines, which could be scaled-up and applied to a number of different scenarios, including existing saltworks and newly designed integrated cycles for Zero Liquid Discharge desalination.
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机译:由自然或人为过程产生的海水盐水通常会导致与处置有关的重大环境问题。一个明显的例子是海水淡化厂的盐水,它会对接收水体产生严重的环境影响。另一方面,盐水可以代表丰富而吸引人的原材料,尤其是当盐浓度很高时,就像盐厂中产生的卤水(即用完的盐水)一样。特别是,镁的浓度最高可达盐水的30-40 kg / m3,是典型海水的20-30倍。 ud目前的工作已开展了一项实验,以评估从中回收镁的潜力。浓盐水。从在特拉帕尼(意大利西西里岛)作业的盐厂的最终盆地中收集了真正的盐水。 ud在半分批和连续5升结晶器中通过反应性沉淀过程进行了实验。为了评估所有操作参数和反应器配置对生产的Mg(OH)2粉的回收效率和纯度的影响,采用NaOH溶液作为标准的碱性反应物。 ud结果突出了一种非常有希望的Mg回收策略从浓缩盐水中提取,可以扩大规模并应用于许多不同的场景,包括现有的盐厂和新设计的零液体排放淡化的集成循环。
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