Pathways to magnesium supplementation of drinking water: An overview of the saline water conversion corporation experience

IF 5.5 Q1 ENGINEERING, CHEMICAL
Christopher M. Fellows , Ali A. Al Hamzah , Seungwon Ihm
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Abstract

Magnesium (Mg) in drinking water is essential for human health, with low concentrations in drinking water being reported to be correlated with poor cardiovascular health outcomes. Based on the literature and suggestions that the World Health Organization would soon announce guidelines for Mg content of drinking water, the Saline Water Conversion Corporation (SWCC) announced specifications in October 2020 targeting 15–25 ppm of Mg in product water. SWCC produces approximately 6 million m3 of potable water daily for domestic and industrial use in the Kingdom of Saudi Arabia, so meeting this Mg target will require the allocation of significant resources. In this report the different approaches to adding Mg in post-treatment of the product water from the SWCC's network of desalination plants are reviewed in order to optimise the additional capital investment and ongoing operational expenses. The most cost-effective option is to mix produced water with groundwater containing Mg, but where this is not feasible the next most cost-effective method for achieving a 15 ppm target was assessed to be treating desalination brine with nanofiltration (NF) to generate a magnesium-rich brine fraction that can be mixed with produced water. A one-stage NF process can meet the 15 ppm Mg target only with levels of chloride and total dissolved solids exceeding regulatory maximums in the produced water, so a multi-stage NF process with intermediate dilution was designed. While this has a significantly higher capital expenditure and energy requirement than one-stage NF, at the cost of energy in the Kingdom of Saudi Arabia it is still significantly less expensive than alternative approaches (0.009 USD/m3). This solution was implemented at an SWCC desalination plant on the Red Sea and has been delivering Mg-enriched water (∼15 ppm) to approximately 1.3 million people since May 2022 at an estimated additional operational cost of 0.007 USD per m3. For lower target levels of Mg supplementation (∼5 ppm), replacement of limestone with dolomite in post-treatment limestone contactors has been found to be a cost-effective process in plant-scale trials at another SWCC plant on the Red Sea.

饮用水镁补充途径:咸水转换公司经验综述
饮用水中的镁(Mg)对人类健康至关重要,据报道,饮用水中的低浓度与心血管健康状况不佳有关。根据文献和建议,世界卫生组织将很快宣布饮用水中Mg含量的指导方针,盐水转换公司(SWCC)于2020年10月宣布了产品水中Mg含量为15 - 25ppm的规格。在沙特阿拉伯王国,SWCC每天生产约600万立方米供家庭和工业使用的饮用水,因此要实现这一Mg目标将需要分配大量资源。在本报告中,为了优化额外的资本投资和持续的运营费用,审查了在SWCC海水淡化厂网络的产品水后处理中添加Mg的不同方法。最具成本效益的选择是将采出水与含镁的地下水混合,但如果这一方法不可行,那么实现15 ppm目标的下一个最具成本效益的方法是用纳滤(NF)处理海水淡化盐水,生成富镁盐水部分,可以与采出水混合。一段纳滤工艺只有在采出水中氯化物和总溶解固体含量超过规定最大值时才能达到15 ppm Mg的目标,因此设计了一种中间稀释的多级纳滤工艺。虽然这种方法的资本支出和能源需求明显高于一级NF,但在沙特阿拉伯王国,它的能源成本仍然明显低于其他方法(0.009美元/立方米)。该解决方案已在红海的SWCC海水淡化厂实施,自2022年5月以来,已向约130万人提供富镁水(约15 ppm),估计每立方米额外运营成本为0.007美元。在红海的另一家SWCC工厂进行的工厂规模试验发现,对于较低的Mg补充目标水平(~ 5ppm),在处理后的石灰石接触器中用白云石代替石灰石是一种具有成本效益的工艺。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Chemical Engineering Journal Advances
Chemical Engineering Journal Advances Engineering-Industrial and Manufacturing Engineering
CiteScore
8.30
自引率
0.00%
发文量
213
审稿时长
26 days
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