用白铝渣生产的绢玉石处理水

D. Gautam, Anant Jain, Arunabh Meshram, K. Singh, D. Mohan
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摘要

铝渣是铝冶炼厂大量产生的工业有害副产物。当受到水体的影响时,垃圾会降低地下水的pH值,而垃圾中NaCl和KCl等可浸出盐的存在会增加环境危机(Meshram和Singh, 2018)。通常白色渣渣有足够的金属铝含量,通过现有的火法冶金和湿法冶金路线提取。尽管这些技术可以回收垃圾,但大量的垃圾最终还是被填埋。本文重点研究了利用废渣中所含的铝合成一种无机混凝剂——绢黄石。作为一种稀有矿物,柽柳石的应用尚未得到彻底研究,但作者观察到在水处理中使用人造矿物作为混凝剂(Meshram et al. 2019)。本研究采用浓硫酸对白铝渣进行浸出。采用EDTA-EBT反滴定法分析铝的含量。随后将等摩尔氢氧化钠溶液加入浸出后的滤液中。这种溶液被加热至饱和。乙醇作为溶剂从饱和溶液中析出亲水分子。沉淀物被倒出,用甲醇洗涤,并储存在干燥器中,以相、元素、显微结构和热分析来表征。研究了其在不同ph值范围内对不同类型水的混凝潜势,并用能谱仪对所得污泥进行了检测,以进一步了解其对重金属的去除效果。通过Jar试验,对绢黄石与各种商用混凝剂进行了比较。因此,提出了一种独特的处理工业废水的方法,将固体废物管理与水处理联系起来。从各种废物中开发出大量有价值的产品是工业废物管理工程的一个令人兴奋的方面,这是可持续发展的关键。
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Treatment of Water by Tamarugite Produced from White Aluminium Dross
Aluminium dross is an industrial hazardous by-product obtained in aluminium smelter plants in large quantities. Dross when subjected to water bodies decreases the groundwater pH and presence of leachable salts like NaCl and KCl in dross increases the environmental crisis (Meshram and Singh, 2018). Usually white dross has adequate metallic aluminium content that is extracted through existing pyrometallurgical and hydrometallurgical routes. Even though dross may be recycled using these technologies, large quantities of dross remains end up being land filled. This research work emphasizes on synthesis of an inorganic coagulant, tamarugite, by utilizing the aluminium content entrapped in the dross. Application of tamarugite, being a rare mineral, has not been thoroughly examined but the authors have observed the use of manufactured mineral as a coagulant in water treatment (Meshram et al. 2019).

In this work, white aluminium dross is subjected to leaching with concentrated sulphuric acid. Analysis of aluminium content was being done by EDTA-EBT back titrations. Subsequently equimolar sodium hydroxide solution is added to the filtrate obtained after leaching. This solution is heated to saturation. As a solvent ethanol is employed to precipitate hydrophilic molecules of tamarugite from the saturated solution. The precipitate is decanted, washed with methanol and stored in desiccator is characterized with respect to phase, elemental, microstructural and thermal analysis. Authors have studied its coagulation potential for various types of water under different ranges of pH. Obtained sludge has been examined using EDS to understand further about the heavy metal removal. Comparison between tamarugite and various commercial coagulants has been done by Jar test. Therefore, a unique method of treating water from an industrial waste is proposed that connects solid waste management and water treatment. Development of number of such valuable products from various waste materials is an exciting aspect of industrial waste management engineering, which is the crux of sustainable development.
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