Your search keyword '"Bussière, B."' showing total 40 results

1. Original Ti:Sa 10 kHz Front-end design delivering 17 fs, 170 mrad CEP stabilized pulses up to 5 W

Author

Golinelli, A., Chen, X., Gontier, E., Bussière, B., Tcherbakoff, O., Natile, M., D'Oliveira, P., Paul, P. -M., and Hergott, J. -F.

Subjects

Physics - Applied Physics

Abstract

We present a compact 10 kHz Ti:Sa front-end relying on an original double-crystal regenerative amplifier design. This new configuration optimizes the thermal heat load management, allowing producing a 110 nm large spectrum and maintaining a good beam profile quality. The front-end delivers up to 5 W after compression, 17 fs pulses with a 170 mrad shot-to-shot residual CEP noise., Comment: 5 figures, 1 equation

Published

2019

2. A laboratory set up to evaluate the hydraulic behavior of inclined capillary barriers

Author

Bussière, B., primary, Aubertin, M., additional, and Chapuis, R.P., additional

Published

2022

3. Effects of freeze–thaw cycles on the properties of polyethylene geomembranes

Author

Rarison, R. F. M., primary, Mbonimpa, M., additional, and Bussière, B., additional

Published

2023

4. Development of a modified kinetic test using EDTA and citric acid for the prediction of contaminated neutral drainage

Author

Lévesque Michaud, M., Plante, B., Bussière, B., Benzaazoua, M., and Leroux, J.

Published

2017

5. Integrated environmental management of pyrrhotite tailings at Raglan Mine: Part 1 challenges of desulphurization process and reactivity prediction

Author

Benzaazoua, M., Bouzahzah, H., Taha, Y., Kormos, L., Kabombo, D., Lessard, F., Bussière, B., Demers, I., and Kongolo, M.

Published

2017

6. Isotopic evidence of passive mineral carbonation in mine wastes from the Dumont Nickel Project (Abitibi, Quebec)

Author

Gras, A., Beaudoin, G., Molson, J., Plante, B., Bussière, B., Lemieux, J.M., and Dupont, P.P.

Published

2017

7. Sector impacts and adaptation

Author

Lemmen, D S, primary, Lafleur, C, additional, MacLellan, J, additional, Chabot, D, additional, Shackell, N, additional, Gurney-Smith, H, additional, King, J, additional, Hewitt, J, additional, Braun, M, additional, Bussière, B, additional, Bresson, É, additional, Kulcsar, I, additional, Smalley, E, additional, Osler, M, additional, Scott, D, additional, Dawson, J, additional, and Thistlethwaite, J, additional

Published

2021

8. Impacts sur les secteurs et mesures d'adaptation

Author

Lemmen, D S, primary, Lafleur, C, additional, MacLellan, J, additional, Chabot, D, additional, Shackell, N, additional, Gurney-Smith, H, additional, King, J, additional, Hewitt, J, additional, Braun, M, additional, Bussière, B, additional, Bresson, É, additional, Kulcsar, I, additional, Smalley, E, additional, Osler, M, additional, Scott, D, additional, Dawson, J, additional, and Thistlethwaite, J, additional

Published

2021

9. A quantitative approach for the estimation of the “fizz rating” parameter in the acid-base accounting tests: A new adaptations of the Sobek test

Author

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

Published

2015

10. Hydrogeological Behaviour of Covers with Capillary Barrier Effects Made of Mining Materials

Author

Kalonji Kabambi, A., Bussière, B., and Demers, I.

Published

2017

11. Survey of spatio-temporal couplings throughout high-power ultrashort lasers

Author

Jeandet, A., Jolly, S. W., Borot, A., Bussière, B., Dumont, P., Gautier, J., Gobert, O., Goddet, J.-P., Gonsalves, A., (0000-0002-4626-0049) Irman, A., Leemans, W. P., Lopez-Martens, R., Mennerat, G., Nakamura, K., Ouillé, M., Pariente, G., Pittman, M., (0000-0002-4738-6436) Püschel, T., Sanson, F., Sylla, F., Thaury, C., (0000-0003-3926-409X) Zeil, K., Fabien Quéré, A., Jeandet, A., Jolly, S. W., Borot, A., Bussière, B., Dumont, P., Gautier, J., Gobert, O., Goddet, J.-P., Gonsalves, A., (0000-0002-4626-0049) Irman, A., Leemans, W. P., Lopez-Martens, R., Mennerat, G., Nakamura, K., Ouillé, M., Pariente, G., Pittman, M., (0000-0002-4738-6436) Püschel, T., Sanson, F., Sylla, F., Thaury, C., (0000-0003-3926-409X) Zeil, K., and Fabien Quéré, A.

Abstract

The investigation of spatio-temporal couplings (STCs) of broadband light beams is becoming a key topic for the optimization as well as applications of ultrashort laser systems. This calls for accurate measurements of STCs. Yet, it is only recently that such complete spatio-temporal or spatio-spectral characterization has become possible, and it has so far mostly been implemented at the output of the laser systems, where experiments take place. In this survey, we present for the first time STC measurements at different stages of a collection of high-power ultrashort laser systems, all based on the chirped-pulse amplification (CPA) technique, but with very different output characteristics. This measurement campaign reveals spatio-temporal effects with various sources, and motivates the expanded use of STC characterization throughout CPA laser chains, as well as in a wider range of types of ultrafast laser systems. In this way knowledge will be gained not only about potential defects, but also about the fundamental dynamics and operating regimes of advanced ultrashort laser systems.

Published

2022

12. Climate change risks and vulnerabilities during mining exploration, operations, and reclamation: A regional approach for the mining sector in Québec, Canada

Author

Bresson, É., primary, Bussière, B., additional, Pabst, T., additional, Demers, I., additional, Charron, P., additional, and Roy, P., additional

Published

2022

13. CEP-stabilized, sub-18 fs, 10 kHz and TW-class 1 kHz dual output Ti:Sa laser with wavelength tunability option

Author

Golinelli, A., primary, Chen, X., additional, Bussière, B., additional, Gontier, E., additional, Paul, P.-M., additional, Tcherbakoff, O., additional, D’Oliveira, P., additional, and Hergott, J.-F., additional

Published

2019

14. The role of hardpan formation on the reactivity of sulfidic mine tailings: A case study at Joutel mine (Québec)

Author

Elghali, A., primary, Benzaazoua, M., additional, Bussière, B., additional, Kennedy, C., additional, Parwani, R., additional, and Graham, S., additional

Published

2019

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

Author

Elghali, A., primary, Benzaazoua, M., additional, Bussière, B., additional, and Bouzahzah, H., additional

Published

2019

16. Determination of the available acid-generating potential of waste rock, part I: Mineralogical approach

Author

Elghali, A., primary, Benzaazoua, M., additional, Bouzahzah, H., additional, Bussière, B., additional, and Villarraga-Gómez, H., additional

Published

2018

17. Ti:Sa CEP-Stabilized Laser System Allowing Wavelength Tunability or 1kHz, sub-18fs, TW-class Level Amplification.

Author

Golinelli, A., primary, Chen, X., additional, Gontier, E., additional, Bussière, B., additional, Paul, P.-M., additional, Tcherbakoff, O., additional, d’Oliveira, P., additional, and Hergott, J.-F., additional

Published

2018

18. Original Ti:Sa 10 kHz front-end design delivering 17 fs, 170 mrad CEP stabilized pulses up to 5 W

Author

Golinelli, A., primary, Chen, X., additional, Gontier, E., additional, Bussière, B., additional, Tcherbakoff, O., additional, Natile, M., additional, d’Oliveira, P., additional, Paul, P.-M., additional, and Hergott, J.-F., additional

Published

2017

19. Original Ti:Sa 10 kHz Front-End design delivering 17 fs, 170 mrad CEP stabilized pulses up to 7 W

Author

Golinelli, A., primary, Chen, X., additional, Gontier, E., additional, Bussière, B., additional, Tcherbakoff, O., additional, d’Oliveira, P., additional, Paul, P.-M., additional, and Hergott, J.-F., additional

Published

2017

20. A multiscale accuracy assessment of moisture content predictions using time-lapse electrical resistivity tomography in mine tailings.

Author

Dimech A, Isabelle A, Sylvain K, Liu C, Cheng L, Bussière B, Chouteau M, Fabien-Ouellet G, Bérubé C, Wilkinson P, Meldrum P, and Chambers J

Abstract

Accurate and large-scale assessment of volumetric water content (VWC) plays a critical role in mining waste monitoring to mitigate potential geotechnical and environmental risks. In recent years, time-lapse electrical resistivity tomography (TL-ERT) has emerged as a promising monitoring approach that can be used in combination with traditional invasive and point-measurements techniques to estimate VWC in mine tailings. Moreover, the bulk electrical conductivity (EC) imaged using TL-ERT can be converted into VWC in the field using petrophysical relationships calibrated in the laboratory. This study is the first to assess the scale effect on the accuracy of ERT-predicted VWC in tailings. Simultaneous and co-located monitoring of bulk EC and VWC are carried out in tailings at five different scales, in the laboratory and in the field. The hydrogeophysical datasets are used to calibrate a petrophysical model used to predict VWC from TL-ERT data. Overall, the accuracy of ERT-predicted VWC is [Formula: see text], and the petrophysical models determined at sample-scale in the laboratory remain valid at larger scales. Notably, the impact of temperature and pore water EC evolution plays a major role in VWC predictions at the field scale (tenfold reduction of accuracy) and, therefore, must be properly taken into account during the TL-ERT data processing using complementary hydrogeological sensors. Based on these results, we suggest that future studies using TL-ERT to predict VWC in mine tailings could use sample-scale laboratory apparatus similar to the electrical resistivity Tempe cell presented here to calibrate petrophysical models and carefully upscale them to field applications., (© 2023. The Author(s).)

Published

2023

21. Survey of spatio-temporal couplings throughout high-power ultrashort lasers.

Author

Jeandet A, Jolly SW, Borot A, Bussière B, Dumont P, Gautier J, Gobert O, Goddet JP, Gonsalves A, Irman A, Leemans WP, Lopez-Martens R, Mennerat G, Nakamura K, Ouillé M, Pariente G, Pittman M, Püschel T, Sanson F, Sylla F, Thaury C, Zeil K, and Quéré F

Abstract

The investigation of spatio-temporal couplings (STCs) of broadband light beams is becoming a key topic for the optimization as well as applications of ultrashort laser systems. This calls for accurate measurements of STCs. Yet, it is only recently that such complete spatio-temporal or spatio-spectral characterization has become possible, and it has so far mostly been implemented at the output of the laser systems, where experiments take place. In this survey, we present for the first time STC measurements at different stages of a collection of high-power ultrashort laser systems, all based on the chirped-pulse amplification (CPA) technique, but with very different output characteristics. This measurement campaign reveals spatio-temporal effects with various sources, and motivates the expanded use of STC characterization throughout CPA laser chains, as well as in a wider range of types of ultrafast laser systems. In this way knowledge will be gained not only about potential defects, but also about the fundamental dynamics and operating regimes of advanced ultrashort laser systems.

Published

2022

22. Fiber Optic Measurements of Soil Moisture in a Waste Rock Pile.

Author

Wu R, Martin V, McKenzie JM, Broda S, Bussière B, Selker J, and Aubertin M

Subjects

Rain, Soil, Water, Groundwater, Water Pollutants analysis

Abstract

The design and construction of a waste rock pile influences water infiltration and may promote the production of contaminated mine drainage. The objective of this project is to evaluate the use of an active fiber optic distributed temperature sensing (aFO-DTS) protocol to measure infiltration and soil moisture within a flow control layer capping an experimental waste rock pile. Five hundred meters of fiber optic cable were installed in a waste rock pile that is 70 m long, 10 m wide, and was covered with 0.60 m of fine compacted sand and 0.25 m of non-reactive crushed waste rock. Volumetric water content was assessed by heating the fiber optic cable with 15-min heat pulses at 15 W/m every 30 min. To test the aFO-DTS system 14 mm of recharge was applied to the top surface of the waste rock pile over 4 h, simulating a major rain event. The average volumetric water content in the FCL increased from 0.10 to 0.24 over the duration of the test. The volumetric water content measured with aFO-DTS in the FCL and waste rock was within ±0.06 and ±0.03, respectively, compared with values measured using 96 dielectric soil moisture probes over the same time period. Additional results illustrate how water can be confined within the FCL and monitored through an aFO-DTS protocol serving as a practical means to measure soil moisture at an industrial capacity., (© 2021, National Ground Water Association.)

Published

2021

23. In situ monitoring of an inclined cover made with mine waste materials to control water infiltration on a reactive waste rock dyke.

Author

Kalonji-Kabambi A, Bussière B, and Demers I

Subjects

Canada, Environmental Monitoring, Mining, Quebec, Water, Water Pollutants analysis

Abstract

The development of a cover for inclined acid-generating areas, such as the external face of dykes and the slope of waste rock piles, is undoubtedly one of the biggest technical reclamation challenges at several mine sites. The LaRonde mine site, owned and operated by Agnico Eagle Mines (Quebec, Canada) is currently engaged to identify an optimal reclamation scenario for the Dyke 1 of its acid-generating tailings storage facilities. One of the promising reclamation options for controlling water infiltration in the acid-generating waste rock on the Dyke 1 is the use of an inclined cover built with available mine waste materials. An instrumented inclined cell with an inclination angle of 18.3 degrees was built on a slope of this dyke to validate if low sulfide tailings and non potentially acid-generating waste rock can be used as cover material to reclaim the Dyke 1. The instrumented inclined cell was monitored for 3 years (2017 to 2019) using volumetric lysimeters, suction sensors, and volumetric water content sensors. The monitoring was done under natural climatic conditions and artificial wetting events. Under natural conditions, less than 1% (5 mm) of incident rainfall percolated in the volumetric lysimeters installed along the slope of the inclined cell. Under controlled conditions associated with artificial wetting events of 6.4 mm/h over a period of 12 h, net percolation values between 1 and 9% (4 to 60 mm) of the sum of incident precipitation were measured. The distance between the top of the cell and the Down Dip Limit (DDL) point was greater than the slope length of the cover under natural conditions and the DDL point moved from the bottom toward the top to reach values between 12 and 20 m from the top of the slope when the wetting events were applied on the cover. These results confirmed the suitability of mining materials as an inclined cover material to control water infiltration in reactive mine waste rocks., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

24. Treatment efficiency of iron-rich acid mine drainage in a tri-unit pilot system.

Author

Genty T, Bussière B, Benzaazoua M, Neculita CM, and Zagury GJ

Subjects

Hydrogen-Ion Concentration, Mining, Acids chemistry, Iron, Metals chemistry, Water Pollutants, Chemical

Abstract

Treatment efficiency of iron-rich acid mine drainage (AMD; pH 3, and 2 and 4 g/L Fe) was tested in a laboratory tri-unit pilot-scale reactor (2.65 m 3 ) for 1 year. The first unit consisted of a passive biochemical reactor (PBR1), filled with reactive mixture (50% of manure, sawdust, maple chips, compost, urea, sediment, and sand; 50% of calcite), with the aim to neutralize acidity and to partially remove metals. The second unit contained wood ash and acted as neutralizer and iron retention filter (by sorption and precipitation). The last unit was a second polishing PBR2, filled with reactive mixture (98% of manure, sawdust, maple chips, compost, urea, sediment, and sand; 2% of calcite), which aim was to remove the residual metals. The results showed that pH increased to about 6 and redox potential decreased significantly (from 550 mV to -100 mV). Iron, the most challenging metal in the AMD, decreased from 4 g/L (the highest tested concentration) to approximately 100 mg/L. The performance of the multistep treatment system was controlled by the capacity of the wood ash to immobilize iron.

Published

2020

25. Comparative performance of cover systems to prevent acid mine drainage from pre-oxidized tailings: A numerical hydro-geochemical assessment.

Author

Pabst T, Bussière B, Aubertin M, and Molson J

Subjects

Canada, Oxidation-Reduction, Oxygen chemistry, Quebec, Groundwater, Mining

Abstract

The generation of acid mine drainage (AMD) remains a major environmental challenge for the mining industry. The reclamation of old mine sites with pre-oxidized tailings is particularly challenging because of indirect oxidation reactions which can limit the overall effectiveness of an oxygen barrier to prevent AMD. The goal of this project was to quantitatively compare the effectiveness of different cover systems to reclaim two pre-oxidized acid-generating tailings sites, located in Quebec (Canada). Following laboratory column tests, field measurements and observations, coupled hydrogeological and geochemical numerical simulations were conducted to evaluate the effect of various system characteristics. Cover performance was assessed by simulating the evolution of the degree of (water) saturation, pore water pressures, oxygen fluxes and leachate quality. Several reclamation options, including monolayer covers and two- or three-layer covers with capillary barrier effect(s) were simulated. The simulations indicate that because of reduced cover effectiveness with pre-oxidized tailings, the general design targets developed for non-oxidized tailings may not always be directly applicable to already oxidized tailings. The simulations also illustrate how the behaviour and efficiency of a monolayer cover placed over reactive tailings depend on specific factors, including water table position, initial porewater chemistry, and cover materials' hydrogeological properties and thicknesses. The results indicate that under a given set of conditions, a bilayer cover (with a capillary break above the reactive tailings) would not significantly improve cover performance (compared to a monolayer cover) due to water losses by evaporation. The simulations show, however, that a well-designed three-layer cover with capillary barrier effects (CCBE) would be efficient in reducing the oxygen flux and AMD generation, even in the case of highly pre-oxidized tailings. The outcomes from this investigation highlight some of the advantages of carrying out coupled hydrogeological and geochemical simulations to assess the long-term behaviour of reclaimed mining sites., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

26. Performance assessment of laboratory and field-scale multi-step passive treatment of iron-rich acid mine drainage for design improvement.

Author

Rakotonimaro TV, Neculita CM, Bussière B, Genty T, and Zagury GJ

Subjects

Hydrogen-Ion Concentration, Mining, Acids chemistry, Calcium Carbonate chemistry, Iron chemistry, Magnesium chemistry, Water Pollutants, Chemical analysis

Abstract

Multi-step passive systems for the treatment of iron-rich acid mine drainage (Fe-rich AMD) perform satisfactorily at the laboratory scale. However, their field-scale application has revealed dissimilarities in performance, particularly with respect to hydraulic parameters. In this study, the assessment of factors potentially responsible for the variations in performance of laboratory and field-scale multi-step systems was undertaken. Three laboratory multi-step treatment scenarios, involving a combination of dispersed alkaline substrate (DAS) units, anoxic dolomitic drains, and passive biochemical reactors (PBRs), were set up in 10.7-L columns. The field-scale treatment consisted of two PBRs separated by a wood ash (WA) reactor. The parameters identified as possibly influencing the performances of the laboratory and field-scale experiments were the following: AMD chemistry (electrical conductivity and Fe and SO 4 2- concentrations), flow rate (Q), and saturated hydraulic conductivity (k sat ). Based on these findings, the design of an efficient passive multi-step treatment system is suggested to consider the following: (1) Fe pretreatment, using materials with high k sat and low HRT. If a PBR is to be used, the Fe load should be < 26 g/m 3 substrate/day (Fe < 200 mg/L) and SO 4 2- < 110 g/m 3 substrate/day; (2) PBR/DAS filled with a mixture with at least 20% of neutralizing agent; (3) include Q and k sat (> 10 -3  cm/s) in the long-term prediction. Finally, mesocosm testing is strongly recommended prior to construction of full-scale systems for the treatment of Fe-rich AMD.

Published

2018

27. Iron removal in highly contaminated acid mine drainage using passive biochemical reactors.

Author

Genty T, Bussière B, Benzaazoua M, Neculita CM, and Zagury GJ

Subjects

Animals, Hydrogen-Ion Concentration, Industrial Waste, Manure analysis, Sulfates chemistry, Waste Disposal, Fluid, Water Pollutants, Chemical chemistry, Iron chemistry, Mining, Wastewater chemistry

Abstract

Passive biochemical reactors (PBRs) are a viable alternative to neutralization plants for the treatment of acid mine drainage (AMD) because they require lower investment costs and use residual materials. However, high iron (Fe) concentrations (≥0.5 g/L) in AMD are challenging for their long-term efficiency. Sorption and precipitation are the main Fe removal mechanisms, but the relative importance of each is mostly unknown. In this study, locally available natural materials (organic and inorganic) were characterized and tested for their performance in Fe removal from highly contaminated AMD (pH 3.5, 4 g/L of Fe, and 9 g/L of sulfate). Iron retention capacity of the materials was then evaluated and the efficiency of eight mixtures of materials was compared through 40-day laboratory batch tests. All batch-type PBRs increased the pH up to 6.5 and decreased dissolved metals concentrations, including Fe, up to 99%. Results showed that organic residual materials (manures, municipal wastewater sludge, and compost) were the best substrates for Fe removal.These findings allowed for the selection of three reactive mixtures with distinct characteristics (mixture #1 - 30% organic wastes; mixture #4 - 50% calcite; and mixture #7 - 50% sand) to be further evaluated in column type PBRs.

Published

2017

28. Effect of material variability and compacted layers on transfer processes in heterogeneous waste rock piles.

Author

Lahmira B, Lefebvre R, Aubertin M, and Bussière B

Subjects

Computer Simulation, Models, Theoretical, Permeability, Water Pollutants, Chemical chemistry, Construction Materials, Geology methods, Mining, Waste Products, Water Pollutants, Chemical analysis

Abstract

The heterogeneity of waste rock piles is due to the wide and variable grain size distribution of waste rock and construction methods leading to complex internal structures. The general objective of this work was to better understand the effect of such heterogeneity on the coupled transfer processes acting within waste rock piles producing Acid Mine Drainage (AMD). For this purpose, parametric numerical simulations were conducted with the TOUGH AMD numerical simulator, considering 1) three random spatial distributions of the same material properties to assess the resulting behavior, 2) four ranges of material properties with the same spatial distribution to evaluate the effect of the degree of heterogeneity, and 3) the effect of compacted layers due to circulation of heavy equipment during construction. Results show that fine-grained (denser with lower permeability) material present near the boundary of a pile can limit air entry. Coarse materials promote preferential flow of gas and water vapor. Fine-grained materials beneath the pile surface favor the internal condensation of water vapor and thus minimize water loss. The initiation of secondary gas convection cells requires a minimal degree of heterogeneity, which is closely related to the range of permeability between the coarse and the finer material ratio (k(coarse)/k(fine)). The presence of coarse grained material in the pile does not necessarily lead to more convection and higher AMD production. The magnitude of convection rather depends on the amount of fine-grained material and its distribution in the pile. Results also show that low-permeability compacted layers strongly limit convection. Results thus support waste rock pile construction methods integrating fine-grained materials or compacted layers to minimize AMD production.

Published

2017

29. Frontline Science: Human bone cells as a source of IL-27 under inflammatory conditions: role of TLRs and cytokines.

Author

Larousserie F, Bsiri L, Dumaine V, Dietrich C, Audebourg A, Radenen-Bussière B, Anract P, Vacher-Lavenu MC, and Devergne O

Subjects

Bone Neoplasms immunology, Bone Neoplasms metabolism, Bone Neoplasms pathology, Bone and Bones cytology, Bone and Bones immunology, Cell Differentiation, Cells, Cultured, Humans, Inflammation immunology, Inflammation pathology, Monocytes cytology, Monocytes immunology, Osteoclasts cytology, Osteoclasts immunology, Osteosarcoma immunology, Osteosarcoma metabolism, Osteosarcoma pathology, Bone and Bones metabolism, Cytokines metabolism, Inflammation metabolism, Interleukins metabolism, Monocytes metabolism, Osteoclasts metabolism, Toll-Like Receptors metabolism

Abstract

IL-27 regulates immune responses as well as hematopoiesis and bone remodeling, but its cellular sources in the bone remain unknown. In this study, we investigated whether osteoclasts and osteoblasts-the 2 cell types orchestrating bone homeostasis-could be a source of IL-27 and identified stimuli that induce its expression in vitro. We observed that human monocyte-derived osteoclasts expressed a broader range of TLRs than did human primary osteoblasts and that both cell types exhibited a differential induction of IL-27 expression in response to TLR or cytokine stimulation. Whereas several TLR agonists, notably TLR4 and TLR7/8 agonists, induced substantial expression of IL-27 by osteoclasts, stimulation of osteoblasts with agonists of TLR3 and/or TLR4-the 2 TLRs selectively expressed by these cells-resulted in no or low IL-27 expression. In addition, IL-27 increased TLR3 expression in osteoclasts and enhanced poly(I:C)-mediated induction of IL-27 in these cells. IFN-γ, when combined with either IL-1β plus TNF-α, IL-11, or CNTF, induced significant levels of IL-27 in osteoclasts but not in osteoblasts. In the latter cells, the addition of type I IFN, together with proinflammatory cytokines, was necessary to induce substantial levels of IL-27. Immunohistochemical studies of inflamed and remodeling bone tissue, including cases of infectious osteomyelitis and bone metastases, provided evidence that osteoclasts, osteoblasts, and occasionally osteocytes or chondrocytes, could express IL-27 in situ. This autocrine production of IL-27 by TLR- or cytokine-activated bone cells might constitute a negative-feedback mechanism to limit bone erosion and to dampen T cell-mediated immune pathology during bone inflammation., (© Society for Leukocyte Biology.)

Published

2017

30. Importance of surface topography on pulsed laser-induced damage threshold of Sapphire crystals.

Author

Bussière B, Sanner N, Sentis M, and Utéza O

Abstract

We measure the laser-induced damage threshold (LIDT) fluence under single shot at the surface of Sapphire samples prepared following the standards of two methods yielding to different surface finish and used in optical and laser industry. We use AFM microscopy to measure the roughness parameter Ra and power spectral density (PSD) of the sample surface. We show that the quality of surface topography resulting from surface preparation affects the damage threshold of Sapphire crystals exposed to femtosecond, picosecond, and nanosecond laser conditions at visible and near-infrared wavelengths. We observe a higher resistance to laser damage or macroscopic modification when the surface finish presents a smooth and regular topography. We indeed measure a 1.4 to 2 times increase of the LIDT fluence in femtosecond and picosecond regimes and up to 5 times with nanosecond pulses. Using simple damage model and PSD data, we correlate the LIDT reduction of Sapphire samples of lower quality of surface finish with the high-frequency tail component of their PSD distribution corresponding to striations of the width of a fraction of the laser wavelength. This study emphasizes the importance of detailed assessment of surface topography for laser damage evaluation and understanding and for indicating directions of improvement.

Published

2017

31. Geochemical behavior of ultramafic waste rocks with carbon sequestration potential: a case study of the Dumont Nickel Project, Amos, Québec.

Author

Kandji EH, Plante B, Bussière B, Beaudoin G, and Dupont PP

Subjects

Mining, Quebec, Carbon Sequestration, Nickel

Abstract

The geochemical behavior of ultramafic waste rocks and the effect of carbon sequestration by these waste rocks on the water drainage quality were investigated using laboratory-scale kinetic column tests on samples from the Dumont Nickel Project (RNC Minerals, QC, Canada). The test results demonstrated that atmospheric CO 2 dissolution induced the weathering of serpentine and brucite within the ultramafic rocks, generating high concentrations of Mg and HCO 3 - with pH values ranging between 9 and 10 in the leachates that promote the precipitation of secondary Mg carbonates. These alkaline pH values appear to have prevented the mobilization of many metals; Fe, Ni, Cu, and Zn were found at negligible concentrations in the leachates. Posttesting characterization using chemical analyses, diffuse reflectance infrared Fourier transform (DRIFT), and scanning electron microscope (SEM) observations confirmed the precipitation of secondary hydrated Mg carbonates as predicted by thermodynamic calculations. The formation of secondary Mg carbonates induced cementation of the waste particles, resulting in the development of a hardpan.

Published

2017

32. Removal of Ni and Zn in contaminated neutral drainage by raw and modified wood ash.

Author

Calugaru IL, Neculita CM, Genty T, Bussière B, and Potvin R

Subjects

Canada, Environmental Pollution prevention & control, Humans, Mining, Waste Disposal Facilities, Wood chemistry, Industrial Waste, Metals, Heavy chemistry, Nickel chemistry, Zinc chemistry

Abstract

In the present study, wood ash was modified by alkaline fusion, prior to hydrothermal synthesis, for potential application in the treatment of mine drainage impacted water. With this objective, two types of wood ash (both raw and modified) were evaluated for the treatment of Ni and Zn in contaminated neutral drainage (CND). Batch adsorption experiments were initially conducted on synthetic CND, and then on two real CND, sampled on two active mine sites, contaminated by either Ni (3.7 mg/L) or Zn (9.1 mg/L). Leaching of Zn was observed during the kinetic tests for the raw wood ash, whereas its modification suppressed the leaching. The cation exchange capacity acquired by modification of the two samples of wood ash exceeded 300 meq/100 g (which is two to fourfold higher than those of the raw ash), while sorption capacity for Ni and Zn tripled relative to the raw material. The Langmuir model best described the sorption process for all materials, while potential mechanisms of metal removal include adsorption, precipitation and ion exchange, following pseudo second-order kinetics. Results also showed that within 2 h of contact of mine effluents with one modified wood ash, Ni and Zn concentrations decreased below the maximum authorized monthly mean concentration allowed by the Canadian law (0.5 mg/L), whereas the other modified wood ash allowed reaching the regulatory conformity after 2 h for Ni but 7 days for Zn (although 93% removed after 2 h). Nonetheless, the pH was raised (10.9-11.8) above the legally allowed limits (6-9.5). Based on these findings, modified wood ash could be considered as a promising option for the treatment of Ni and Zn in CND, but the pH correction of final effluent might be necessary.

Published

2017

33. Recovery and reuse of sludge from active and passive treatment of mine drainage-impacted waters: a review.

Author

Rakotonimaro TV, Neculita CM, Bussière B, Benzaazoua M, and Zagury GJ

Subjects

Industrial Waste, Environmental Restoration and Remediation methods, Mining, Sewage chemistry, Water Pollutants, Chemical chemistry, Water Purification methods

Abstract

The treatment of mine drainage-impacted waters generates considerable amounts of sludge, which raises several concerns, such as storage and disposal, stability, and potential social and environmental impacts. To alleviate the storage and management costs, as well as to give the mine sludge a second life, recovery and reuse have recently become interesting options. In this review, different recovery and reuse options of sludge originating from active and passive treatment of mine drainage are identified and thoroughly discussed, based on available laboratory and field studies. The most valuable products presently recovered from the mine sludge are the iron oxy-hydroxides (ochre). Other by-products include metals, elemental sulfur, and calcium carbonate. Mine sludge reuse includes the removal of contaminants, such as As, P, dye, and rare earth elements. Mine sludge can also be reused as stabilizer for contaminated soil, as fertilizer in agriculture/horticulture, as substitute material in construction, as cover over tailings for acid mine drainage prevention and control, as material to sequester carbon dioxide, and in cement and pigment industries. The review also stresses out some of the current challenges and research needs. Finally, in order to move forward, studies are needed to better estimate the contribution of sludge recovery/reuse to the overall costs of mine water treatment.

Published

2017

34. Performance of thermally activated dolomite for the treatment of Ni and Zn in contaminated neutral drainage.

Author

Calugaru IL, Neculita CM, Genty T, Bussière B, and Potvin R

Abstract

Intensive research is ongoing for developing low-cost and highly efficient materials in metal removal from contaminated effluents. The present study evaluated dolomite [CaMg(CO3)2], both raw and modified by thermal activation (charring), for Ni and Zn treatment in contaminated neutral drainage (CND). Batch adsorption testing (equilibrium and kinetics) were conducted at pH 6, to evaluate the performance of initial vs. modified dolomite, and to assess potential mechanisms of metal removal. Charring of dolomite led to a rigid and porous material, mainly consisting of CaCO3 and MgO, which showed a sorption capacity increased sevenfold for Zn and doubled for Ni, relative to the raw material. In addition, Freundlich model best described the sorption of the both metals by dolomite, whereas the Langmuir model best described their sorption on charred dolomite. Plausible mechanisms of metal removal include cation exchange, surface precipitation and sorption processes, with carbonate ions and magnesium oxides acting as active centers. Based on these results, charred dolomite seems a promising option for the efficient treatment of Ni and Zn in CND., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

35. Tree-Substrate Water Relations and Root Development in Tree Plantations Used for Mine Tailings Reclamation.

Author

Guittonny-Larchevêque M, Bussière B, and Pednault C

Subjects

Biodegradation, Environmental, Mining, Plant Roots growth & development, Soil, Soil Pollutants, Trees growth & development, Water

Abstract

Tree water uptake relies on well-developed root systems. However, mine wastes can restrict root growth, in particular metalliferous mill tailings, which consist of the finely crushed ore that remains after valuable metals are removed. Thus, water stress could limit plantation success in reclaimed mine lands. This study evaluates the effect of substrates varying in quality (topsoil, overburden, compost and tailings mixture, and tailings alone) and quantity (50- or 20-cm-thick topsoil layer vs. 1-m plantation holes) on root development and water stress exposure of trees planted in low-sulfide mine tailings under boreal conditions. A field experiment was conducted over 2 yr with two tree species: basket willow ( L.) and hybrid poplar ( Moench × A. Henry). Trees developed roots in the tailings underlying the soil treatments despite tailings' low macroporosity. However, almost no root development occurred in tailings underlying a compost and tailings mixture. Because root development and associated water uptake was not limited to the soil, soil volume influenced neither short-term (water potential and instantaneous transpiration) nor long-term (δC) water stress exposure in trees. However, trees were larger and had greater total leaf area when grown in thicker topsoil. Despite a volumetric water content that always remained above permanent wilting point in the tailings colonized by tree roots, measured foliar water potentials at midday were lower than drought thresholds reported for both tested tree species., (Copyright © by the American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Inc.)

Published

2016

36. Impact of fresh tailing deposition on the evolution of groundwater hydrogeochemistry at the abandoned Manitou mine site, Quebec, Canada.

Author

Maqsoud A, Neculita CM, Bussière B, Benzaazoua M, and Dionne J

Subjects

Canada, Environment, Quebec, Environmental Monitoring, Groundwater chemistry, Mining, Water Pollutants, Chemical analysis

Abstract

The abandoned Manitou mine site has produced acid mine drainage (AMD) for several decades. In order to limit the detrimental environmental impacts of AMD, different rehabilitation scenarios were proposed and analyzed. The selected rehabilitation scenario was to use fresh tailings from the neighboring Goldex gold mine as monolayer cover and to maintain an elevated water table. In order to assess the impact of the Goldex tailing deposition on the hydrogeochemistry of the Manitou mine site, a network of 30 piezometers was installed. These piezometers were used for continuous measurement of the groundwater level, as well as for water sampling campaigns for chemical quality monitoring, over a 3-year period. Hydrochemical data were analyzed using principal component analysis. Results clearly showed the benefic impact of fresh tailing deposition on the groundwater quality around the contaminated area. These findings were also confirmed by the evolution of electrical conductivity. In addition to the improvement of the physicochemical quality of water on the Manitou mine site, new tailing deposition induced an increase of water table level. However, at this time, the Manitou reactive tailings are not completely submerged and possible oxidation might still occur, especially after ceasing of the fresh tailing deposition. Therefore, complementary rehabilitation scenarios should still be considered.

Published

2016

37. Effect of heterogeneity and anisotropy related to the construction method on transfer processes in waste rock piles.

Author

Lahmira B, Lefebvre R, Aubertin M, and Bussière B

Subjects

Anisotropy, Canada, Germany, Indonesia, Models, Theoretical, Quebec, Refuse Disposal, United States, Environmental Restoration and Remediation methods, Mining, Soil Pollutants chemistry, Water Pollutants chemistry

Abstract

Waste rock piles producing acid mine drainage (AMD) are partially saturated systems involving multiphase (gas and liquid) flow and coupled transfer processes. Their internal structure and heterogeneous properties are inherited from their wide-ranging material grain sizes, their modes of deposition, and the underlying topography. This paper aims at assessing the effect of physical heterogeneity and anisotropy of waste rock piles on the physical processes involved in the generation of AMD. Generic waste rock pile conditions were represented with the numerical simulator TOUGH AMD based on those found at the Doyon mine waste rock pile (Canada). Models included four randomly distributed material types (coarse, intermediate, fine and very fine-grained). The term "randomly" as used in this study means that the vertical profile and spatial distribution of materials in waste rock piles (internal structure) defy stratigraphy principles applicable to natural sediments (superposition and continuity). The materials have different permeability and capillary properties, covering the typical range of materials found in waste rock piles. Anisotropy with a larger horizontal than vertical permeability was used to represent the effect of pile construction by benches, while the construction by end-dumping was presumed to induce a higher vertical than horizontal permeability. Results show that infiltrated precipitation preferentially flows in fine-grained materials, which remain almost saturated, whereas gas flows preferentially through the most permeable coarse materials, which have higher volumetric gas saturation. Anisotropy, which depends on pile construction methods, often controls global gas flow paths. Construction by benches favours lateral air entry close to the pile slope, whereas end-dumping leads to air entry from the surface to the interior of the pile by secondary gas convection cells. These results can be useful to construct and rehabilitate waste rock piles to minimize AMD, while controlling gas flow and oxygen supply., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2016

38. Bluejoint Is an Effective Bio-Barrier Species on Mine Covers.

Author

Kamorina G, Tremblay F, Bussière B, Smirnova E, and Thiffault N

Abstract

Covers with capillary barrier effects (CCBE) are used to prevent acid mine drainage from mine wastes in the short term. However, the long-term efficiency of CCBE can be affected by trees because their roots may reduce the ability of covers to limit oxygen migration and also physically damage the CCBE. Two plant species that are native to boreal Canada, bluejoint () and sheep laurel (, were selected as bio-barrier species (BBS) to test if they reduce the growth and root system architecture of trees established on mine covers (balsam poplar [], willow [ spp], and black spruce []). The experiment was established in 2008 on a mine tailings impoundment located in northwestern Quebec, Canada. Trees were measured for height, diameter, and biomass. Coarse roots were excavated from the plots and digitized in three dimensions. Compared with the control (no BBS), bluejoint strongly decreased tree height and diameter increment, biomass, maximum root depth and radial extension, total root length and volume, and number of second- and third-order tree roots. Height and diameter increment, biomass, maximum root depth and volume, and number of second-order roots of balsam poplar increased with sheep laurel compared with control conditions, whereas willow showed no response to this treatment. Most characteristics of black spruce (except root-to-shoot ratio and number of second-order roots) improved in the presence of sheep laurel compared with the control. Thus, bluejoint was a more efficient BBS than sheep laurel. Bio-barriers comprised of bluejoint can be used as a countermeasure for controlling tree invasion of CCBE., (Copyright © by the American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Inc.)

Published

2015

39. 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

40. 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