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7. Trace-element imaging at macroscopic scale in a Belgian sphalerite-galena ore using Laser-Induced Breakdown Spectroscopy (LIBS)

Author

Baele, Jean-Marc, BOUZAHZAH, H., Papier, Séverine, Decrée, Sophie, Verheyden, Sophie, Burlet, Christian, Pirard, Eric, Franceschi, Guy, Dejonghe, Léon, Baele, Jean-Marc, BOUZAHZAH, H., Papier, Séverine, Decrée, Sophie, Verheyden, Sophie, Burlet, Christian, Pirard, Eric, Franceschi, Guy, and Dejonghe, Léon

Abstract

info:eu-repo/semantics/published

Published
2021

15. Geochemical behavior and environmental risks related to the use of abandoned base-metal tailings as construction material in the upper-Moulouya district, Morocco.

Author

Argane, R., Adnani, M., Benzaazoua, M., Bouzahzah, H., Khalil, A., Hakkou, R., and Taha, Y.

Subjects
TAILING ponds, MINERALOGICAL research, MINE drainage, LEACHING, POLLUTION, GEOCHEMISTRY, OXIDATION of sulfides
Abstract

In some developing countries, base-metal residues that were abandoned in tailing ponds or impoundments are increasingly used as construction material without any control, engineering basis, or environmental concern. This uncontrolled reuse of mine tailings may constitute a new form of pollution risks for humans and ecosystems through metal leaching. Therefore, the aim of the current study is to assess mine drainage, metal mobility, and geochemical behavior of two abandoned mine tailings commonly used in the upper-Moulouya region (eastern Morocco) as fine aggregates for mortar preparation. Their detailed physical, chemical, and mineralogical properties were subsequently evaluated in the context of developing appropriate alternative reuses to replace their conventional disposal and limit their weathering exposure. The obtained results showed that both tailings contain relatively high quantities of residual metals and metalloids with lead (ranging between 3610 and 5940 mg/kg) being the major pollutant. However, the mineralogical investigations revealed the presence of abundant neutralizing minerals and low sulfide content which influence mine drainage geochemistry and subsequently lower metals mobility. In fact, leachate analyses from weathering cell kinetic tests showed neutral conditions and low sulfide oxidation rates. According to these results, the tailings used as construction material in the upper-Moulouya region have very low generating potential of contaminated effluents and their reuse as aggregates may constitute a sustainable alternative method for efficient tailing management. [ABSTRACT FROM AUTHOR]

Published
2016
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16. Determination of the available acid-generation potential of waste rock, part I: mineralogical approach.

Author

Elghali A., Benzaazoua M., Bouzahzah H., Bussiere B., Villarraga-Gomez H., Elghali A., Benzaazoua M., Bouzahzah H., Bussiere B., and Villarraga-Gomez H.

Abstract

A method is presented to determine net acid-generating potential of waste rock employing acid-base accounting and net acid-generation test results corrected using degrees of liberation of acid-generating and neutralising sulphide and carbonate minerals. Samples of three lithologies - carbonated porphyry, altered greywackes and carbonated greywackes - from an open-pit mine in Abitibi, Quebec, Canada after waste-rock blasting were each separated into seven particle-size fractions ranging from less than 0.053 to less than 50 mm. The samples were analysed using chemical assays, X-ray diffraction, optical microscopy, QEMSCAN and micro-computed tomography. The results indicate that carbonate contents exceeded those of sulphides in all samples, and that the carbonate (mostly calcite) contents decreased as the particle size increased. Liberation of sulphide and carbonate was found to decrease with increasing particle size. A value for the diameter of physical locking of sulphides (DPLS) parameter, the particle size at which the degree of sulphide liberation is approximately zero and which separates waste rock into finer, reactive and coarser, non-reactive fractions, is proposed (2.4 mm)., A method is presented to determine net acid-generating potential of waste rock employing acid-base accounting and net acid-generation test results corrected using degrees of liberation of acid-generating and neutralising sulphide and carbonate minerals. Samples of three lithologies - carbonated porphyry, altered greywackes and carbonated greywackes - from an open-pit mine in Abitibi, Quebec, Canada after waste-rock blasting were each separated into seven particle-size fractions ranging from less than 0.053 to less than 50 mm. The samples were analysed using chemical assays, X-ray diffraction, optical microscopy, QEMSCAN and micro-computed tomography. The results indicate that carbonate contents exceeded those of sulphides in all samples, and that the carbonate (mostly calcite) contents decreased as the particle size increased. Liberation of sulphide and carbonate was found to decrease with increasing particle size. A value for the diameter of physical locking of sulphides (DPLS) parameter, the particle size at which the degree of sulphide liberation is approximately zero and which separates waste rock into finer, reactive and coarser, non-reactive fractions, is proposed (2.4 mm).

17. Determination of the available acid-generating potential of waste rock, part II: waste management involvement.

Author

Elghali A., Benzaazoua M., Bouzahzah H., Bussiere B., Elghali A., Benzaazoua M., Bouzahzah H., and Bussiere B.

Abstract

The main results of this study showed that fine fractions of the studied waste rock were more sulphidic than the coarse fractions. Moreover, sulphide liberation was negligible for fractions larger than 2.4 mm. Consequently, 2.4 mm was defined as the critical diameter of sulphide reactivity for the three studied waste rocks from an open-pit gold mine. Column kinetic tests were used to confirm this hypothesis and to assess the geochemical behaviour of the three lithologies. Geochemical analysis of leachates from the column tests showed that pH values remained between 7 and 8 and the instantaneous concentrations of metals such as iron (Fe) and zinc (Zn) were below environmental limits over the entire test duration (543 days). Considering sample reactivity, the data showed that the fine fractions primarily control the geochemical behaviour of total samples. Sulphide and carbonate contents and their liberation were defined as key factors controlling the geochemical behaviour of the studied waste rock, which was confirmed by the correlation factor between calcium leaching vs. carbonate liberation and between sulphur leaching vs. sulphide liberation. The coarse, unreactive fraction (larger than 2.4 mm) comprised a high proportion of the total sample weight (up to 90 wt.%). Screening waste rock, after blasting, according to the critical diameter of sulphide reactivity could be an efficient technique for global waste rock management that will reduce the economic costs related to waste rock pile reclamation., The main results of this study showed that fine fractions of the studied waste rock were more sulphidic than the coarse fractions. Moreover, sulphide liberation was negligible for fractions larger than 2.4 mm. Consequently, 2.4 mm was defined as the critical diameter of sulphide reactivity for the three studied waste rocks from an open-pit gold mine. Column kinetic tests were used to confirm this hypothesis and to assess the geochemical behaviour of the three lithologies. Geochemical analysis of leachates from the column tests showed that pH values remained between 7 and 8 and the instantaneous concentrations of metals such as iron (Fe) and zinc (Zn) were below environmental limits over the entire test duration (543 days). Considering sample reactivity, the data showed that the fine fractions primarily control the geochemical behaviour of total samples. Sulphide and carbonate contents and their liberation were defined as key factors controlling the geochemical behaviour of the studied waste rock, which was confirmed by the correlation factor between calcium leaching vs. carbonate liberation and between sulphur leaching vs. sulphide liberation. The coarse, unreactive fraction (larger than 2.4 mm) comprised a high proportion of the total sample weight (up to 90 wt.%). Screening waste rock, after blasting, according to the critical diameter of sulphide reactivity could be an efficient technique for global waste rock management that will reduce the economic costs related to waste rock pile reclamation.

18. ASTM normalised humidity cell kinetic test: protocol improvements for optimal sulphide tailings reactivity.

Author

Bouzahzah H., Benzaazoua M., Bussiere B., Plante B., Bouzahzah H., Benzaazoua M., Bussiere B., and Plante B.

Abstract

The humidity cell (HC) kinetic method is widely used to assess acid-generating potential and is the only method approved by the American Society for Testing and Materials (ASTM). A protocol modification of the HC involves keeping the sample permanently at an optimal degree of saturation, between 40 and 60%, corresponding to maximal sulphide reactivity. Two mine tailings with different acid-generating potentials were submitted to both modified and standard ASTM HC protocols. The influence of the thickness and the porosity of the sample into the HC were also investigated. The results showed that, for a given sample, the oxidation rate under the modified ASTM protocol was higher than the standard ASTM protocol, which underestimated tailings reactivity due to excessive drying of the sample. When the porosity of the sample decreased, and its thickness increased, the difference between the standard and the modified HC protocol results decreased. These differences were more significant when the sample was more acid-generating. It is concluded that the best protocol for concentrator tailings to allow maximum reactivity and more conservative AMD prediction is to install a compacted 1 kg sample with 50% saturation (which should be maintained at a saturation of 40-60%) and a porosity representative of that expected in the field., The humidity cell (HC) kinetic method is widely used to assess acid-generating potential and is the only method approved by the American Society for Testing and Materials (ASTM). A protocol modification of the HC involves keeping the sample permanently at an optimal degree of saturation, between 40 and 60%, corresponding to maximal sulphide reactivity. Two mine tailings with different acid-generating potentials were submitted to both modified and standard ASTM HC protocols. The influence of the thickness and the porosity of the sample into the HC were also investigated. The results showed that, for a given sample, the oxidation rate under the modified ASTM protocol was higher than the standard ASTM protocol, which underestimated tailings reactivity due to excessive drying of the sample. When the porosity of the sample decreased, and its thickness increased, the difference between the standard and the modified HC protocol results decreased. These differences were more significant when the sample was more acid-generating. It is concluded that the best protocol for concentrator tailings to allow maximum reactivity and more conservative AMD prediction is to install a compacted 1 kg sample with 50% saturation (which should be maintained at a saturation of 40-60%) and a porosity representative of that expected in the field.

19. Laboratory study of highly pyritic tailings submerged beneath a water cover under various hydrodynamic conditions.

Author

Awoh A.S., Bouzahzah H., Bussiere M., Mbonimpa M., Plante B., Awoh A.S., Bouzahzah H., Bussiere M., Mbonimpa M., and Plante B.

Abstract

Pyritic tailings can be oxidised in the presence of oxygen and water resulting in the generation of acid mine drainage. Reducing the oxygen supply by placing the tailings under water appears to be an effective method of preventing acid mine drainage in humid climates. The effects were investigated of hydrodynamic conditions on water quality when tailings containing 80% pyrite were deposited beneath a water cover. The tailings were placed at the bottom of laboratory columns and covered with deionised water, and hydrodynamic conditions applied including stagnant, stagnant with downward intermittent infiltration, continuous stirring with low tailings re-suspension of 130-180 mg/l and continuous stirring with high tailings re-suspension of 2 910–3 100 mg/l. A continuously stirred water cover with a sand layer placed over the tailings was also studied. With stagnant water covers, the pH remained near neutral and concentrations of dissolved metals were generally low compared to columns with tailings re-suspension. Re-suspension greatly enhanced the production and release of sulphate and metals from the tailings into the water cover. Intermittent downward infiltration promoted contact between the tailings and a water cover with high dissolved oxygen, leading to oxidation of the tailings, lower pH and the production of sulphate and dissolved metals, compared with a stagnant water cover without infiltration. The addition of a layer of inert material significantly prevented pyrite oxidation. Except for Fe, Zn was the dissolved metal with the highest concentration in all of the column leachates, although the tailings contained only 0.38% Zn., Pyritic tailings can be oxidised in the presence of oxygen and water resulting in the generation of acid mine drainage. Reducing the oxygen supply by placing the tailings under water appears to be an effective method of preventing acid mine drainage in humid climates. The effects were investigated of hydrodynamic conditions on water quality when tailings containing 80% pyrite were deposited beneath a water cover. The tailings were placed at the bottom of laboratory columns and covered with deionised water, and hydrodynamic conditions applied including stagnant, stagnant with downward intermittent infiltration, continuous stirring with low tailings re-suspension of 130-180 mg/l and continuous stirring with high tailings re-suspension of 2 910–3 100 mg/l. A continuously stirred water cover with a sand layer placed over the tailings was also studied. With stagnant water covers, the pH remained near neutral and concentrations of dissolved metals were generally low compared to columns with tailings re-suspension. Re-suspension greatly enhanced the production and release of sulphate and metals from the tailings into the water cover. Intermittent downward infiltration promoted contact between the tailings and a water cover with high dissolved oxygen, leading to oxidation of the tailings, lower pH and the production of sulphate and dissolved metals, compared with a stagnant water cover without infiltration. The addition of a layer of inert material significantly prevented pyrite oxidation. Except for Fe, Zn was the dissolved metal with the highest concentration in all of the column leachates, although the tailings contained only 0.38% Zn.

20. Prediction of acid mine drainage: importance of mineralogy and the test protocols for static and kinetic tests.

Author

Bouzahzah H., Benzaazoua M., Bussiere B., Plante B., Bouzahzah H., Benzaazoua M., Bussiere B., and Plante B.

Abstract

Static tests are used to compare the acid-generating and acid-neutralising potentials of mine wastes such as tailings or waste rocks, but are characterised by a wide uncertainty zone in which it is impossible to accurately predict the acid-generating potential. Kinetic tests are then usually carried out to better assess long-term acid-generating potential. The classic Sobek static test was compared with three mineralogical static tests proposed by Kwong (1993), Lawrence and Scheske (1997) and Paktunc (1999) in which the respective contributions of each neutralising mineral are summed based on their proportions and relative reactivity to calculate a global neutralising potential. The experiments were carried out using synthetic tailings containing pyrite, pyrrhotite, chalcopyrite and sphalerite as the sulphide phases and siderite, dolomite, calcite and quartz as gangue minerals. All the static tests gave similar results, and the acid-generating potential predictions were then validated using a modified kinetic test which employed weathering cells instead of humidity cells. The results correlated well with the static test results, in contrast to the standard kinetic test protocol. The original protocols for the chemical and mineralogical static tests may provide contradictory results, particularly for samples containing Fe-Mn-bearing materials. The oxidation/neutralisation curves obtained from the modified weathering cells may be a valuable tool for assessing the ability of a kinetic test to predict acid-generating potential., Static tests are used to compare the acid-generating and acid-neutralising potentials of mine wastes such as tailings or waste rocks, but are characterised by a wide uncertainty zone in which it is impossible to accurately predict the acid-generating potential. Kinetic tests are then usually carried out to better assess long-term acid-generating potential. The classic Sobek static test was compared with three mineralogical static tests proposed by Kwong (1993), Lawrence and Scheske (1997) and Paktunc (1999) in which the respective contributions of each neutralising mineral are summed based on their proportions and relative reactivity to calculate a global neutralising potential. The experiments were carried out using synthetic tailings containing pyrite, pyrrhotite, chalcopyrite and sphalerite as the sulphide phases and siderite, dolomite, calcite and quartz as gangue minerals. All the static tests gave similar results, and the acid-generating potential predictions were then validated using a modified kinetic test which employed weathering cells instead of humidity cells. The results correlated well with the static test results, in contrast to the standard kinetic test protocol. The original protocols for the chemical and mineralogical static tests may provide contradictory results, particularly for samples containing Fe-Mn-bearing materials. The oxidation/neutralisation curves obtained from the modified weathering cells may be a valuable tool for assessing the ability of a kinetic test to predict acid-generating potential.

21. The geochemical behaviour of mine tailings from the Tourief Pb-Zn district in Tunisia in weathering cells leaching tests.

Author

Othmani M.A., Benzaazoua M., Bouzahzah H., Bussiere B., Mansouri A., Souissi F., Othmani M.A., Benzaazoua M., Bouzahzah H., Bussiere B., Mansouri A., and Souissi F.

Abstract

The physical, mineralogical and geochemical characteristics were investigated of oxidised and unoxidised flotation tailings samples from the abandoned Tourief mine. The tailings contained galena, sphalerite, pyrite and marcasite in a carbonate gangue, and their geochemical behaviour was consistent with their mineralogical and chemical characteristics. Leaching tests in weathering cells showed that leaching proceeded under neutral to slightly alkaline conditions at pH 7.3-8.5 and positive eH values of 250-470 mV. The concentrations of sulphate and calcium released were associated with the neutralisation of acidity by carbonates and the dissolution of gypsum initially present in the tailings. Iron was precipitated but significant amounts of Zn, Cd and Pb in the ranges 5-3 300, 3-18 and 28-83 microg/l, respectively, were released, the latter two exceeding international environmental standards. The multiple trace element load transported by drainage water may represent and environmental hazard to local surface and ground waters and in sediments and soils in the flood area below the tailings., The physical, mineralogical and geochemical characteristics were investigated of oxidised and unoxidised flotation tailings samples from the abandoned Tourief mine. The tailings contained galena, sphalerite, pyrite and marcasite in a carbonate gangue, and their geochemical behaviour was consistent with their mineralogical and chemical characteristics. Leaching tests in weathering cells showed that leaching proceeded under neutral to slightly alkaline conditions at pH 7.3-8.5 and positive eH values of 250-470 mV. The concentrations of sulphate and calcium released were associated with the neutralisation of acidity by carbonates and the dissolution of gypsum initially present in the tailings. Iron was precipitated but significant amounts of Zn, Cd and Pb in the ranges 5-3 300, 3-18 and 28-83 microg/l, respectively, were released, the latter two exceeding international environmental standards. The multiple trace element load transported by drainage water may represent and environmental hazard to local surface and ground waters and in sediments and soils in the flood area below the tailings.

22. Erratum to: Geochemical behavior and environmental risks related to the use of abandoned base-metal tailings as construction material in the upper-Moulouya district, Morocco.

Author

Argane, R., Adnani, M., Benzaazoua, M., Bouzahzah, H., Khalil, A., Hakkou, R., and Taha, Y.

Subjects
BUILDING materials & the environment, ENVIRONMENTAL risk
Abstract

A correction to the article "Geochemical Behavior and Environmental Risks Related to the Use of Abandoned Base-Metal Tailings As Construction Material in the Upper-Moulouya District, Morocco" by R. Argane at al. that was published in a 2015 issue is presented.

Published
2016
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23. Role of secondary minerals in the acid generating potential of weathered mine tailings: Crystal-chemistry characterization and closed mine site management involvement.

Author

Elghali A, Benzaazoua M, Bouzahzah H, Abdelmoula M, Dynes JJ, and Jamieson HE

Abstract

Mine tailings exposed to water and oxygen generate acid mine drainage (AMD) when the neutralizing minerals are insufficient to buffer the acid produced by sulfide oxidation. Mineral reactivity, such as sulfide oxidation and carbonate dissolution, leads to several changes within mine tailings in terms of their physical, mineralogical, and geochemical properties, which may lead to the release of metal(oid)s (e.g., As, Cu, Zn, Fe, S) into the environment. Fresh and oxidized tailings were sampled at two vertical profiles in a tailings storage facility (TSF). The TSF contains tailings from gold ore processing at a mine that has been closed for more than 25 years. Oxidized tailings have formed by in-situ oxidation of fresh tailings over more than 20 years. The collected samples were analyzed for: i) chemical composition by inductively coupled plasma atomic emission spectroscopy (ICP-AES), X-ray fluorescence (XRF), and total S/C; and ii) mineralogical composition by X-ray diffraction (XRD), Mineral Liberation Analyzer (MLA), Mossbauer spectroscopy, and Fe L-edge X-ray absorption near-edge spectroscopy (XANES). Mineralogically, the fresh tailings included more than 22 wt% carbonates and more than 10 wt% sulfides. In contrast, the oxidized tailings were composed mainly of secondary minerals such as iron oxy-hydroxides and gypsum. Geochemically, the fresh tailings exhibited a circumneutral behavior during weathering cell experiments and contaminants such as As were negligibly released (<0.3 mg/L). The latter is explained by formation of secondary iron oxy-hydroxides, which are known for the capacity to uptake several contaminants from the leachate. Long term oxidation of fresh tailings will lead to highly oxidized tailings similar to those collected in situ. The oxidized tailings exhibited an acidic behavior despite sulfide depletion due to latent acidity. The geochemical behavior was strongly controlled by the reactivity of secondary minerals (e.g., dissolution of gypsum and iron oxy-hydroxides). Quantitatively, the oxidized tailings released 163 mg/kg Fe, around 12,000 mg/kg S, and around 6 mg/kg Zn., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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24. Characterization of how contaminants arise in a dredged marine sediment and analysis of the effect of natural weathering.

Author

Couvidat J, Chatain V, Bouzahzah H, and Benzaazoua M

Abstract

Millions of tons of contaminated sediments are dredged each year from the main harbors in France. When removed from water, these sediments are very reactive, therefore their geochemical behavior must be understood in order to avoid dispersion of contaminated lixiviates in the surrounding soils. In this objective, it is necessary to evaluate the principal physicochemical parameters, and also achieve advanced mineralogical characterization. These studied sediments are highly contaminated by metals, notably copper (1445 and 835mg/kg, in the unweathered and naturally-weathered sediments, respectively), lead (760 and 1260mg/kg, respectively), zinc (2085 and 2550mg/kg, respectively), as well as by organic contaminants (PAH, PCB) and organometallics (organotins). A high concentration of sulfide minerals was also observed both in the unweathered sediment preserved under water (3.4wt% of pyrite especially), and in the naturally weathered sediment (2wt% pyrite), and in particular framboïdal pyrite was observed in the two materials. The presence of reactive mineral species in the naturally-weathered sediment can be explained by the deposit of a protective layer, composed of sulfide and their oxidation products (sulfate and iron oxides), thus preventing oxygen from diffusing through to the sulfide minerals. Additionally, the presence of aluminosilicates aggregates coating the sulfide minerals could also explain their presence in the naturally-weathered sediment. As organic matter is one of the principal constituents of the sediments (5.8 and 6.3wt% total organic carbon in the unweathered and weathered sediment, respectively), the aggregates are probably partially constituted of refractory humic material. It therefore appears that the natural weathering has led to a significant decrease in PAHs and organotins, but not in PCBs. The evolution of the granulometric structure and the distribution of the metallic contaminants could therefore lead us to consider a treatment by size separation, and a possible valorization of the dredged sediments in civil engineering., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2018
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25. The effect of the origin of MSWI bottom ash on the H 2 S elimination from landfill biogas.

Author

Fontseré Obis M, Germain P, Bouzahzah H, Richioud A, and Benbelkacem H

Subjects
Air Pollutants analysis, Hydrogen Sulfide analysis, Incineration methods, Solid Waste, Waste Disposal Facilities
Abstract

Municipal Solid Waste Incineration (MSWI) Bottom Ash (BA) is a potential alternative adsorbent for biogas treatment due to its reactivity with hydrogen sulfide (H 2 S). The quality of BA depends however on the nature of the waste and the process technology of the waste incineration facility. To determine whether the origin of the BA could have an influence on its H 2 S elimination efficiency, comparative experimental tests were conducted in a landfill site with six bottom ashes from different MSW incinerators. Results showed that one of the BAs (A) had a much higher adsorption capacity than the rest (B-F), with 37g H 2 S/kg dry BA, compared to 11-16g H 2 S/kg dry BA for the other bottom ashes. Detailed physico-chemical analyses of the six BA were performed and complemented by principal component analysis to understand the different behaviors. BA iron content and specific surface area provided by the quench product stood out as key factors that promote the elimination of H 2 S., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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26. A contribution to improve the calculation of the acid generating potential of mining wastes.

Author

Chopard A, Benzaazoua M, Bouzahzah H, Plante B, and Marion P

Subjects
Environmental Monitoring methods, Kinetics, Oxidation-Reduction, Sulfides analysis, Sulfides chemistry, Acids analysis, Mining, Models, Chemical, Wastewater chemistry, Water Quality
Abstract

Mine wastes from sulfide-bearing ore extraction and processing are often stored at the surface of mine sites and could generate mine drainage. Prediction tests are completed to predict the water quality associated with the deposition of mining wastes. Static tests can quickly assess the acid-generating potential (AP) and the neutralization potential (NP). Whereas some studies recommend to take into account a mineral reactivity factor for the NP determination, the reactivity rates of acidifying minerals are not considered in the AP calculation. The aim of this study is to bring contribution to the improvement of the static test determination by adding kinetic factors in the AP determination. Eight sulfides (pyrite, Ni-pyrite, pyrrhotite, Ni-pyrrhotite, chalcopyrite, galena, sphalerite, arsenopyrite) and a sulfosalt (gersdorffite) were separately submitted to kinetic tests in modified weathering cells. This test was selected for its rapidity of results and for the low amount of material used, as it is somewhat difficult to obtain pure minerals samples. Five synthetic tailings were composed by mixing pure sulfides in various proportions and submitted to the same kinetic tests. The oxidation rates of synthetic tailings were compared with the weighted combined oxidation rates of individual pure sulfides. The oxidation rates of the synthetic tailings calculated from those of pure sulfides are within the same order of magnitude than those obtained through the kinetic experiments. The AP of synthetic tailings were calculated according to standard equations of the literature and compared with the new method., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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27. Geochemical investigation of the galvanic effects during oxidation of pyrite and base-metals sulfides.

Author

Chopard A, Plante B, Benzaazoua M, Bouzahzah H, and Marion P

Subjects
Acids chemistry, Copper analysis, Environmental Pollutants chemistry, Hydrogen-Ion Concentration, Kinetics, Microscopy, Electron, Scanning, Minerals analysis, Mining, Oxidation-Reduction, Quartz, Reproducibility of Results, Sulfates analysis, Sulfur chemistry, Zinc Compounds chemistry, Electrochemistry methods, Iron chemistry, Sulfides chemistry
Abstract

Predicting the water quality at mine sites is of significant importance for developing mines with respect for the environment. Acid mine drainage (AMD) occurs when sulfides are in contact with oxygen and water, and several parameters and mechanisms influence final drainage quality. Galvanic interactions influence the reactivity of sulfide minerals, which act as semi-conductors. These galvanic interactions have been insufficiently studied in the context of AMD generation. In this study, the influence of pyrite on the reactivity of sphalerite and chalcopyrite was investigated. Five blends, comprised of free grains of quartz/pyrite, quartz/chalcopyrite, quartz/sphalerite, quartz/pyrite/chalcopyrite, and quartz/pyrite/sphalerite, were subjected to geochemical testing. Five weathering cells were monitored over a 200-day period during which they were leached twice weekly. Leachates were analyzed for pH, Eh, electrical conductivity, and sulfate and metal concentrations. The results of these analyses showed that galvanic interactions occurred between free sulfide grains. Pyrite was galvanically protected over the full testing period in the quartz/pyrite/chalcopyrite blend, and partially protected in the quartz/pyrite/sphalerite blend. Moreover, the release of Cu from chalcopyrite and Zn, Mn, and Cd from sphalerite was accelerated in the presence of pyrite. This work provides a better understanding of the influence of pyrite on chalcopyrite and sphalerite reactivity by highlighting the galvanic effects. In the future, to improve the reliability of AMD prediction tests, galvanic interactions should be considered in both the prediction of the acid generation potential and the estimation of metal and metalloid release rates., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2017
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28. Environmental evaluation of dredged sediment submitted to a solidification stabilization process using hydraulic binders.

Author

Couvidat J, Benzaazoua M, Chatain V, and Bouzahzah H

Subjects
Oxidation-Reduction, Sulfides analysis, Trace Elements analysis, Geologic Sediments analysis
Abstract

Purpose: Dredging of sediments, a requirement for harbor maintenance, removes millions of tons of mineral wastes, contaminated at varying degrees with trace metals, from the water. In previous investigations, Cu and Zn have been identified as highly concentrated trace metals associated to sulfides, mineral phases sensitive to oxidation. In order to ensure their sustainable management, the solidification/stabilization (S/S) and/or the valorization of contaminated sediments as secondary raw materials is a way to be promoted. Indeed, their reuse as a substitute of sand in cemented mortar formulation would allow combining both treatment and valorization of such wastes., Methods: In the present study, the environmental assessment of mortars formulated with raw and weathered marine sediments (in particular contaminated with Cu, Pb and Zn), compared to sand reference mortars, was conducted through two kinetic leaching tests: weathering cell tests (WCTs), in which mortars were crushed and leached twice a week, and a tank monolith leaching test (MLT), in which leaching was performed on monolithic mortars with increasing leachate renewal time., Results: In both leaching tests, calcium and sulfur were released continuously from sediment mortars, showing the oxidation-neutralization processes of sulfides and carbonates. In the MLT, Cu was released by sediment mortars through diffusion, particularly by weathered mortars, at low concentrations during 60 days of the test duration. With the more aggressive WCT, Cu concentrations were higher at the beginning but became negligible after 7 days of testing. Pb was released through diffusion mechanisms until depletion in both tests, whereas Zn was particularly well immobilized in the cemented matrices., Conclusions: The S/S process applied using hydraulic binders proved to be efficient in the stabilization of Cu, Pb, and Zn highly presents in studied sediments, and further valorization in civilian engineering applications could be considered.

Published
2016
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29. An innovative coupling between column leaching and oxygen consumption tests to assess behavior of contaminated marine dredged sediments.

Author

Couvidat J, Benzaazoua M, Chatain V, Zhang F, and Bouzahzah H

Subjects
Water Pollutants, Chemical chemistry, Geologic Sediments chemistry, Metals chemistry, Oxygen chemistry, Sulfides chemistry
Abstract

Contaminated dredged sediments are often considered hazardous wastes, so they have to be adequately managed to avoid leaching of pollutants. The mobility of inorganic contaminants is a major concern. Metal sulfides (mainly framboïdal pyrite, copper, and zinc sulfides) have been investigated in this study as an important reactive metal-bearing phase sensitive to atmospheric oxygen action. An oxygen consumption test (OC-Test) has been adapted to assess the reactivity of dredged sediments when exposed to atmospheric oxygen. An experimental column set-up has been developed allowing the coupling between leaching and oxygen consumption test to investigate the reactivity of the sediment. This reactivity, which consisted of sulfide oxidation, was found to occur for saturation degree between 60 and 90 % and until the 20th testing week, through significant sulfates releases. These latter were assumed to come from sulfide oxidation in the first step of the test, then probably from gypsum dissolution. Confrontation results of OC-Test and leachate quality shows that Cu was well correlated to sulfates releases, which in turn, leads to Ca and Mg dissolution (buffer effect). Cu, and mostly Zn, was associated to organic matter, phyllosilicates, and other minerals through organo-clay complexes. This research confirmed that the OC-Test, originally developed for mine tailings, could be a useful tool in the dredged sediment field which can allow for intrinsic characterization of reactivity of a material suspected to readily reacting with oxygen and for better understanding of geochemical processes that affect pollutants behavior, conversion, and transfer in the environment.

Published
2015
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30. Use of EDTA in modified kinetic testing for contaminated drainage prediction from waste rocks: case of the Lac Tio mine.

Author

Plante B, Benzaazoua M, Bussière B, Kandji el-HB, Chopard A, and Bouzahzah H

Subjects
Kinetics, Mining, Quebec, Chelating Agents chemistry, Edetic Acid chemistry, Environmental Restoration and Remediation methods, Metals analysis, Minerals analysis, Water Pollutants, Chemical chemistry, Water Pollution, Chemical prevention & control
Abstract

The tools developed for acid mine drainage (AMD) prediction were proven unsuccessful to predict the geochemical behavior of mine waste rocks having a significant chemical sorption capacity, which delays the onset of contaminated neutral drainage (CND). The present work was performed in order to test a new approach of water quality prediction, by using a chelating agent solution (0.03 M EDTA, or ethylenediaminetetraacetic acid) in kinetic testing used for the prediction of the geochemical behavior of geologic material. The hypothesis underlying the proposed approach is that the EDTA solution should chelate the metals as soon as they are released by sulfide oxidation, inhibiting their sorption or secondary precipitation, and therefore reproduce a worst-case scenario where very low metal attenuation mechanisms are present in the drainage waters. Fresh and weathered waste rocks from the Lac Tio mine (Rio tinto, Iron and Titanium), which are known to generate Ni-CND at the field scale, were submitted to small-scale humidity cells in control tests (using deionized water) and using an EDTA solution. Results show that EDTA effectively prevents the metals to be sorbed or to precipitate as secondary minerals, therefore enabling to bypass the delay associated with metal sorption in the prediction of water quality from these materials. This work shows that the use of a chelating agent solution is a promising novel approach of water quality prediction and provides general guidelines to be used in further studies, which will help both practitioners and regulators to plan more efficient management and disposal strategies of mine wastes.

Published
2015
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31. The flotation tailings of the former Pb-Zn mine of Touiref (NW Tunisia): mineralogy, mine drainage prediction, base-metal speciation assessment and geochemical modeling.

Author

Othmani MA, Souissi F, Bouzahzah H, Bussière B, da Silva EF, and Benzaazoua M

Subjects
Environmental Monitoring, Mining, Models, Theoretical, Tunisia, X-Ray Diffraction, Environmental Pollutants analysis, Industrial Waste analysis, Metals analysis, Minerals analysis, Sulfates analysis, Sulfides analysis
Abstract

The underground extraction of Pb-Zn mineralization in the Touiref area stopped in 1958. A large volume of flotation tailings (more than 500 Mt) containing sulfides were deposited in a tailings impoundment. The goals of this study are to evaluate the neutralization capacity of the unoxidized and oxidized tailings, to assess the speciation of metals between the different components of the tailings material, and to assess the mobility of metals and the secondary minerals' precipitation in pore waters using geochemical modeling. To accomplish these objectives, representative samples from both fresh and oxidized zones were collected along a vertical profile through the tailings pile. Physical, chemical (ICP-MS), and mineralogical characterization (X-ray diffraction (XRD), reflected light microscopy, scanning electron microscope (SEM)) of these samples was performed. Grain size analysis shows that the tailings are dominated by silt- to sand-sized fractions. The microscopic observation highlights the presence of pyrite, marcasite, galena, and sphalerite as primary minerals in a carbonated matrix. The study reveals also the presence of secondary minerals represented by cerussite, smithsonite, anglesite, and Fe oxi-hydroxides as important scavengers for trace elements. The static tests show that the presence of calcite in the tailing samples ensures acid-neutralizing capacity (ANC), which is significantly greater than the acidity potential (PA). The geochemical characterization of the unoxidized samples shows higher Cd, Pb, and Zn concentrations than the oxidized samples containing the highest values for Fe and SO4. Sequential extraction tests show that significant percentages of metals are distributed between the acid-soluble fractions (Cd, Pb, and Zn) and the reducible one (Zn). Pore water analysis indicates that Ca is the dominant cation (8,170 and 6,200 mg L(-1), respectively), whereas sulfate is the principal anion (6,900 and 5,100 mg L(-1), respectively). Saturation index (SI) calculations of minerals in pore water extracted from both the oxidized and unoxidized samples are indicative of gypsum (SI >0) and Fe(III) oxides (SI ≫0) precipitation. The latter controls the Fe concentration in solution.

Published
2015
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32. Mineralogical study and leaching behavior of a stabilized harbor sediment with hydraulic binder.

Author

Chatain V, Benzaazoua M, Loustau Cazalet M, Bouzahzah H, Delolme C, Gautier M, Blanc D, and de Brauer C

Subjects
Copper analysis, Copper chemistry, Lead analysis, Lead chemistry, Metals, Heavy analysis, Ships, Water Pollutants, Chemical chemistry, Water Pollution analysis, Water Pollution prevention & control, Zinc analysis, Zinc chemistry, Environmental Restoration and Remediation methods, Geologic Sediments chemistry, Metals, Heavy chemistry, Water Pollutants, Chemical analysis
Abstract

The environmental assessment of potential effects of contaminated harbor sediments stabilized with hydraulic binders and the determination of remediation endpoints require the determination of pollutants leaching potentials. Moreover, little information about the speciation and mobility of inorganic contaminants in these specific solid matrices is available in the literature. The objective of this paper is to investigate the relationship between mineralogy and leachability of contaminants (copper, lead, and zinc) present in a French harbor sediment stabilized with quicklime and Portland cement. Batch equilibrium leaching tests at various pH, chemical analysis of leachates, and mineralogical studies (X-ray diffraction, scanning electron microscopy-energy dispersive spectroscopy, and diffuse reflectance infrared Fourier transform) have been combined in the present investigation. The acid neutralization capacity of the stabilized matrix studied is first controlled by the dissolution of portlandite (pH ~12), followed by the dissolution of C-S-H (pH ~11) and the dissolution of ettringite (pH ~10). Finally, a very high buffering capacity of this stabilized sediment is observed for pH values around 6. This equilibrium is mainly controlled by the dissolution of iron sulfides and carbonate minerals. Consequently, the mobilization of inorganic contaminants as a function of pH remains very low (<0.1 wt%) for pH values above 6 and significantly increases for pH below these values. This research confirms the importance of a combined methodology for the intrinsic characterization of potential mobilization of contaminants in a stabilized sediment and for a better understanding of geochemical processes that affect contaminant fate, transformation, and transport in the subsurface environment.

Published
2013
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