Djebel Onk矿区产生的液体废物和磷酸盐污泥对环境的污染影响

IF 0.4 Q4 GEOSCIENCES, MULTIDISCIPLINARY
T. Tahri, S. Narsis, N. Bezzi, A. Grairia, K. M. Benghadab, A. Benselhoub
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引用次数: 0

摘要

磷酸精矿生产中面临着废料处理的问题,废料处理的数量相当可观。这些废物含有大量对环境有害的元素。在这种情况下,来自Djebel Onk的以污泥形式存在的磷酸盐废物是我们工作的主题,几种微量元素已被记录在有限的水平。事实上,铅和铬等元素的含量分别超过了百万分之60和百万分之300。它们远远超过了矿业的要求。立法的严厉程度因国而异,越来越需要严格管理和监测这些废物,以保证保护环境不受废物中所含这些有毒物质的影响。这项工作的重点是管理的磷酸盐废物从Djebel Onk在液体或污泥形式。目前将他们从邻近山谷疏散到作业地点的做法可能会损害当地环境。此外,这种污泥的流动变得越来越稠,变得更加困难。在这方面,出于环境方面的考虑,并为了确定一个与可持续发展有关的概念,本研究提倡采用一种回收磷酸盐废物的新办法。它是基于现有矿物的内在性质,通过不同的表征技术(XRD, XRF, IR等)进行定性和定量分析。这使得确定液体磷酸盐废物的化学和矿物组成成为可能,这些液体磷酸盐废物富含方解石(CaO含量44.45%),磷酸盐元素(P2O5含量21%)和脉石矿物,如白云石(MgO含量7.6%)和石英(SiO2含量5.8%)。对这些废物进行了显微观察,发现XRD鉴定的主要矿物为氟磷灰石、羟基磷灰石、碳酸盐、白云石、方解石和石英。所寻求的目标是帮助控制这些杂质,从工业装置产生的水中回收这些杂质,以便开采这些材料,以便在采矿综合设施的洗衣房中重新使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Environmental polluting effects of liquid wastes and phosphate sludge generated by the Djebel Onk mining complex
The production of phosphate concentrates is confronted with problems of treatment of wastes, of which the quantities are considerable. These wastes contain a large number of elements that are harmful to the environment. In this case, of phosphate wastes from Djebel Onk in the form of sludge that are the subject of our work, several trace elements have been recorded in limited levels. Indeed, elements such as lead and chromium have levels that exceed 60 and 300 ppm respectively. They far exceed the requirements of the mineral industry. The legislation, the severity of which varies from country to country, increasingly requires rigorous management and monitoring of these wastes in order to guarantee the protection of the environment from these toxic substances contained in the wastes. This work focuses on the management of phosphate wastes from Djebel Onk in liquid or sludge form. Current practices on their evacuation from neighbouring valleys to the operating site may harm the local environment. Moreover, the flow of this sludge which is increasingly thickened becomes more difficult. In this context, for environmental considerations and in order to define a concept linked to sustainable development, this study advocates a new approach in the recovery of phosphate wastes. It is based on the intrinsic properties of the present minerals determined by qualitative and quantitative analysis developed by different characterization techniques (XRD, XRF, IR, etc.). This makes it possible to define the chemical and mineralogical composition of liq- uid phosphate wastes which are rich in calcite (44.45 % in CaO) to those of phosphate elements (21 % in P2O5) and gangue minerals such as dolomite (7, 6 % in MgO), and quartz (5.8 % in SiO2). The microscopic observations carried out on these wastes showed the presence of the main minerals identified by XRD: fluorapatite, hydroxylapatite, carbonate, dolomite, calcite and quartz. The sought objective is to contribute to controlling these impurities to recover them from the water generated by the industrial installations for the exploitation of these materials with a view to their reuse in the laundries of the mining complex.
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来源期刊
Journal of Geology Geography and Geoecology
Journal of Geology Geography and Geoecology GEOSCIENCES, MULTIDISCIPLINARY-
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40.00%
发文量
57
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