Giuseppe Cocomazzi scite author profile

Giuseppe Cocomazzi

3Publications

9Citation Statements Received

131Citation Statements Given

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121

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University of Milan

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Environmental Impact Variability of Copper Tailing Dumps in Fushe Arrez (Northern Albania): The Role of Pyrite Separation during Flotation

et al. 2021

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Acid mine drainage and potentially toxic elements release are a major source of pollution in sulfide-rich mining sites. Pyrite is the most impacting mineral due to its high acidification potential when it reacts with water under oxidizing conditions. At the Fushe Arrez dressing plant in Northern Albania, a volcanic massive sulfide copper mining district, pyrite was in past separated, with a double flotation process, to produce a pyrite concentrate and relatively-pyrite-poor tailings. In the last twenty years single flotation has replaced the double flotation process and pyrite has been deposited in pyrite-rich tailings stacked separately from the old ones. The study of the solid tailing materials and natural waters flowing through the dumping area, together with leaching tests show that waters interacting with single flotation tailings are slightly more acidic and much higher in total metal contents than those interacting with double flotation tailings. Also, the metal distribution is different, with the former being higher in sulfide-hosted metals and the latter higher in gangue-hosted metals. It is thus suggested that separation of pyrite can play an important role in the sustainable mining of pyrite-rich ores, either for dumping high hazardous pyrite concentrate separately or for marketing it as a by-product. An implementation of studies for the industrial uses of pyrite is pivotal in this last case.

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Buffering Copper Tailings Acid Mine Drainage: Modeling and Testing at Fushë Arrëz Flotation Plant, Albania

Cocomazzi

Grieco

Sinojmeri

et al. 2022

Water

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The beneficiation process of sulfide ores has the inevitable consequence of generating huge amounts of tailings highly enriched in sulfur, thus inducing acid mine drainage (AMD) and the release of potentially toxic elements. The aim of the work was to define the most suitable procedures for buffering acid drainage waters through the addition of commercial CaCO3 paste, provided by UNICALCE. High- and low-pyrite tailing samples were collected at the copper enrichment plant of Fushë Arrëz (Northern Albania copper mining district). They were used for leaching and buffering tests, whose leachates and precipitation products were characterized by ICP-MS, chromatographic, XRD and TEM analyses. In addition, a geochemical model was developed in order to predict the pH trend of the leachate as a function of the addition of CaCO3. The results show the good buffering capacity of CaCO3, accurately predicted by the geochemical model. A drastic reduction in metals in the solution can be easily attained for low-pyrite samples, whereas high amounts of buffering agent are required to reach similar metals concentration reduction in high-pyrite. Precipitates are dominated by oxyhidroxides, followed by sulfates and hydrosilicates, but TEM showed also the presence of nanocrystalline and amorphous phases.

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Carbonate-rich limestone quarry waste as a doping agent to implement AMD buffering potential of feldspar mine waste

Zanetta

Grieco

Bussolesi

et al. 2023

Preprint

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Buffering Acid Mine Drainage (AMD) is an essential part of the remediation procedures aimed to reduce the environmental impact of high-sulfur waste and tailing dumps. As solubility of most of the heavy metals dramatically decreases at increasing pH, buffering also results in a strong reduction of potentially toxic elements load of waters. Adding carbonate-based materials, like lime, can neutralize acid mine drainage by raising pH of water and triggering precipitation of metals as hydroxides (Grieco et al., 2021), but the treatment processes are often expensive in terms of capital and operating costs. The use of mining waste as buffering agent, on the other hand, could positively contribute to a circular economy strategy for the secondary recovery of metals from abandoned mine wastes and tailings. The addition of the buffering agent to reworked tailings can result in secondary dumps with highly reduced or even absent acid mine drainage potential. The aim of the present research is to evaluate the buffering potential and the leaching waters heavy metal load reduction of feldspar mining wastes and the effect of doping it with a minor fraction of carbonate-rich limestone quarrying wastes. The frame of the research is the evaluation of potential metal recovery from the dumps of the many abandoned sulfide mines of Sardinia as the island also hosts major feldspar mines that produce a high amount of carbonate-bearing waste. Selected samples were collected from sulfide-rich lead-zinc Campo Pisano and gold Furtei abandoned mines. The former is part of a giant and high-grade MVT and SEDEX Zn-Pb-Fe district while the latter exploited an epithermal deposit. Mineralogy and chemistry of the samples were determined by XRD and XRF and the acidification potential by standard Lapakko modified Acid Base Accounting tests. Leaching tests simulated the contaminant release from tailings following the Synthetic Precipitation Leaching Procedure. Leachates were analyzed for major and trace elements by ICP-MS and were then buffered with material from feldspar wastes, provided by Minerali Industriali. The Potential Toxic Element contents of buffered materials was also determined by ICP-MS. All samples show positive Net Acid Potential Production, with higher values at Campo Pisano. Leaching tests show pH around 3 and high metal contents at Furtei. Campo Pisano leachates are only slightly acidic and the metal load is much lower due to the initial internal buffering by the carbonate gangue. Buffering with feldspar waste was efficient on highly acidic Furtei samples, even though the amount of buffered material required is high. Doping feldspar waste with carbonate-rich limestone waste grants the same buffering capacity at a highly reduced amount of buffering agent added. The results show that limestone waste-doped feldspar waste can be an effective acid buffering agent both for mixing with secondary tailings and for treatment of polluted acidic waters. References Grieco, G., Sinojmeri, A., Bussolesi, M., Cocomazzi, G. and Cavallo, A. (2021). Environmental impact variability of copper tailing dumps in Fushe Arrez (Northern Albania): The role of pyrite separation during flotation. Sustainability, 13(17), 9643.

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