Showing total 1,896 results

1. Chemical characterization of green liquor dregs from 16 Swedish pulp and paper mills between 2017 and 2019

Author

Stahre, Nanna, Sartz, Lotta, and Bäckström, Mattias

Published

2024

2. Field Investigation of Controlling Acid Mine Drainage Using Alkaline Paper Mill Waste

Author

Chtaini, Abdessadek, Bellaloui, Achour, Ballivy, Gérard, and Narasiah, Subba

Published

2001

3. Laboratory Investigation of the Control of Acid Mine Drainage Using Alkaline Paper Mill Waste

Author

Bellaloui, Achour, Chtaini, Abdessadek, Ballivy, Gérard, and Narasiah, Subba

Published

1999

4. Acid neutralization by dissolution of alkaline paper mill wastes and implications for treatment of sulfide-mine drainage.

Author

PÉREZ-LÓPEZ, RAFAEL, QUISPE, DINO, CASTILLO, JULIO, and NIETO, JOSÉ MIGUEL

Subjects

ACID mine drainage, MINE drainage, AMBIENT temperature ferrite process, HYDROLYSIS, PAPER mills

Abstract

Metal removal and neutralization of acid mine drainage (AMD) in treatment systems is often controlled by addition of alkaline reagents and metal hydrolysis reactions. To overcome the disadvantage of high cost by conventional treatments, the use of paper mill wastes was evaluated as an alkaline additive to treat AMD at sites within the Iberian Pyrite Belt (IPB) through batch experiments in the laboratory. Paper wastes include three by-products from kraft pulping in a nearby mill: green liquor dregs, slacker grits, and lime mud. When paper mill wastes interacted with AMD, the initial pH increased up to circumneutral values and enhanced greatly the metal removal, reaching average ratios of up to 100% for Al, 98% for Fe, and 66% for Zn (major elements) and 100% for As, Cr, and Cu, 84% for Cd, and 75% for Ni (minor elements). After reaction, gypsum and poorly crystalline Fe-Al oxy-hydroxides and oxy-hydroxysulfates were the main precipitates identified by X-ray diffraction and scanning electron microscopy. Trace metal uptake is mainly attributed to co-precipitation and/or adsorption onto the newly formed Fe-Al precipitates. Geochemical modeling of solutions using the PHREEQC code predicted supersaturation of the observed phases. The experimental results were optimized with the PHREEQC code and combined with the annual production of each waste to quantify the extent of a possible treatment at field-scale. According to our estimations, the system proposed is able to treat effectively an annual total volume of 11.6 hm³, which is equivalent to a mean discharge of 368 L/s. Green liquor dregs alone would be able to treat 86% of the total volume. This result demonstrates the possibility of using alkaline paper mill wastes for treatment and restoration of worldwide natural resources extremely contaminated by AMD such as the IPB. [ABSTRACT FROM AUTHOR]

Published

2011

5. Neutralization of acid mine drainage using the final product from CO2 emissions capture with alkaline paper mill waste

Author

Pérez-López, Rafael, Castillo, Julio, Quispe, Dino, and Nieto, José Miguel

Subjects

*ACID mine drainage, *NEUTRALIZATION (Chemistry), *CARBON sequestration, *INDUSTRIAL wastes, *TRACE elements, *PAPER mills, *PULPING, *CARBON dioxide, *GEOCHEMICAL modeling

Abstract

Abstract: In this study, experiments were conducted to investigate the applicability of low-cost alkaline paper mill wastes as acidity neutralizing agents for treatment of acid mine drainage (AMD). Paper wastes include a calcium mud by-product from kraft pulping, and a calcite powder from a previous study focused on sequestering CO2 by carbonation of calcium mud. The neutralization process consisted of increase of pH by alkaline additive dissolution, decrease of metals solubility and precipitation of gypsum and poorly crystallized Fe–Al oxy-hydroxides/oxy-hydroxysulphates, which acted as a sink for trace elements to that extent that solutions reached the pre-potability requirements of water for human consumption. This improvement was supported by geochemical modelling of solutions using PHREEQC software, and observations by scanning electron microscope and X-ray diffraction of reaction products. According to PHREEQC simulations, the annual amount of alkaline additive is able to treat AMD (pH 3.63, sulphate 3800mgL−1, iron 348mgL−1) with an average discharge of about 114 and 40Ls−1 for calcium mud and calcite powder, respectively. Likewise, given the high potential of calcium mud to sequester CO2 and of resulting calcite powder to neutralize AMD, paper wastes could be a promising solution for facing this double environmental problem. [Copyright &y& Elsevier]

Published

2010

6. Acid mine drainage neutralization in a pilot sequencing batch reactor using limestone from a paper and pulp industry.

Author

Vadapalli, V.R.K., Zvimba, J.N., Mathye, M., Fischer, H., and Bologo, L.

Subjects

LIMESTONE, ACID mine drainage, SEQUENCING batch reactor process, CALCIUM carbonate, ACTIVATED sludge process

Abstract

This study investigated the implications of using two grades of limestone from a paper and pulp industry for neutralization of acid mine drainage (AMD) in a pilot sequencing batch reactor (SBR). In this regard, two grades of calcium carbonate were used to neutralize AMD in a SBR with a hydraulic retention time (including settling) of 100 min and a sludge retention time of 360 min, by simultaneously monitoring the Fe(II) removal kinetics and overall assessment of the AMD after treatment. The Fe(II) kinetics removal and overall AMD treatment were observed to be highly dependent on the limestone grade used, with Fe(II) completely removed to levels lower than 50 mg/L in cycle 1 after 30 min using high quality or pure paper and pulp limestone. On the contrary, the other grade limestone, namely waste limestone, could only achieve a similar Fe(II) removal efficiency after four cycles. It was also noticed that suspended solids concentration plays a significant role in Fe(II) removal kinetics. In this regard, using pure limestone from the paper and pulp industry will have advantages compared with waste limestone for AMD neutralization. It has significant process impacts for the SBR configuration as it allows one cycle treatment resulting in a significant reduction of the feed stock, with subsequent generation of less sludge during AMD neutralization. However, the use of waste calcium carbonate from the paper and pulp industry as a feed stock during AMD neutralization can achieve significant cost savings as it is cheaper than the pure limestone and can achieve the same removal efficiency after four cycles. [ABSTRACT FROM PUBLISHER]

Published

2015

7. Selected papers from 26th regional symposium on chemical engineering, Kuala Lumpur, Malaysia, October 2019.

Author

Hussain, Mohd Azlan, Tan, Chee Keong, and Zainal Abidin, Mohd Izzudin Izzat

Subjects

*CHEMICAL engineering, *FLUIDIZED bed reactors, *POLYIMIDES, *ACID mine drainage, *CHEMICAL processes, *INDUSTRIAL chemistry

Abstract

The practice of engineering as a whole is undergoing major changes especially in dealing with the needs and requirements of advancing IR 4.0 concepts in its discipline. On this note, the 26th Regional Symposium on Chemical Engineering (RSCE 2019) was organized by the Department of Chemical Engineering, Faculty of Engineering, University of Malaya from October 30 to 31, 2019 in Kuala Lumpur, Malaysia. This symposium with the theme "Role of Chemical Engineering in the Era of Industrial Revolution 4.0" had been a great avenue towards dealing with the changes facing the Chemical Engineering society at this present moment. [Extracted from the article]

Published

2020

8. An Evaluation of Using Various Admixtures of Green Liquor Dregs, a Residual Product, as a Sealing Layer on Reactive Mine Tailings.

Author

Mäkitalo, Maria, Stenman, David, Ikumapayi, Fatai, Maurice, Christian, and Öhlander, Björn

Subjects

*PAPER mills, *WOOD pulp industry, *PROPERTIES of matter, *MINE waste, *INDUSTRIAL wastes

Published

2016

9. Special Issue on "Heavy Metal Toxicity: Environmental and Human Health Risk Assessment".

Author

Sinicropi, Maria Stefania

Subjects

HEALTH risk assessment, HEAVY metal toxicology, ENVIRONMENTAL health, HEAVY metals, FLY ash, COPPER, ACID mine drainage

Abstract

This document is a summary of a special issue on "Heavy Metal Toxicity: Environmental and Human Health Risk Assessment." The issue includes fourteen papers that cover various aspects of heavy metal toxicity, such as metal pollution, bioindicators, environmental indicators, phytoremediation, epigenetics, and detoxification therapies. The papers discuss topics such as the monitoring of particulate matter using olive pollen as a bioindicator, the impact of heavy metals on fish and medicinal plants, the presence of toxic elements in sediment and water, lead contamination in soils and sediments, the effectiveness of substances in reducing heavy metal content in soil, the potential sources and concentration of heavy metals in sediments and flamingo tissues, the cellular effects of silver nanoparticle suspensions, the morphological and molecular alterations induced by lead in fish embryos and larvae, heavy metal concentrations in wild brown trout, microbial-based heavy metal bioremediation techniques, and the uses, toxicity, and detoxification therapies of arsenic and thallium. The special issue concludes by mentioning the possibility of further exploration and research in this field. [Extracted from the article]

Published

2024

10. Influence of rheological characteristics on the fluidization catastrophe of tailings flows.

Author

Wang, Dao-zheng, Lian, Bao-qin, Wang, Xin-gang, Chen, Xiao-qing, Wang, Jia-ding, and Wang, Fei

Subjects

FLUIDIZATION, RHEOLOGY, YIELD stress, HAZARD mitigation, ACID mine drainage, DEBRIS avalanches, DISASTERS

Abstract

Limited by mining technology, mineral exploitation can produce large amounts of tailings. Heavy summer rainfall or seasonal freeze-thaw can lead to physical and chemical modification of tailing material in mountainous areas, resulting in fluidized tailings flow and severe disaster losses. Therefore, aiming at the problem of tailings fluidization catastrophe, this paper tried to reveal the rheological mechanism of tailings fluidization transformation by combining rheological tests and theoretical analysis. The results show that the yield stress increases with decreasing temperature, and when the density of debris flow (ρ) is more than 1.9 g/cm3, this behavior becomes more pronounced as the density increases. The storage modulus decreases by at least two orders of magnitude at the solid-fluid transition under amplitude test sweep. Storage and loss modulus in the linear viscoelastic range and yield stress have an exponential growth relationship with sediment concentration. In addition, a stress constitutive relation and a new exponential law describing the evolution of yield stress required for solid-liquid transformation were proposed, and the relationship is further strengthened through a comprehensive analysis of existing results, which expands the evaluation application of the rheological characteristics of tailings flow. This paper provides a new insight into the rheological properties of tailing and how they occur through solid-liquid transition under different environments, which is beneficial to geological hazard prevention and the ecological remediation of the mining area. [ABSTRACT FROM AUTHOR]

Published

2023

11. Microbial community structure in an uranium-rich acid mine drainage site: implication for the biogeochemical release of uranium.

Author

Xinxiang Wei, Hongliang Chen, Fangfang Zhu, and Jiang Li

Subjects

ACID mine drainage, WATER sampling, MICROBIAL communities, URANIUM, SULFIDE minerals, ACIDOPHILIC bacteria

Abstract

The generation of acid mine drainage (AMD) characterized by high acidity and elevated levels of toxic metals primarily results from the oxidation and dissolution of sulfide minerals facilitated by microbial catalysis. Although there has been significant research on microbial diversity and community composition in AMD, as well as the relationship between microbes and heavy metals, there remains a gap in understanding the microbial community structure in uranium-enriched AMD sites. In this paper, water samples with varying levels of uranium pollution were collected from an abandoned stone coal mine in Jiangxi Province, China during summer and winter, respectively. Geochemical and high-throughput sequencing analyses were conducted to characterize spatiotemporal variations in bacterial diversity and community composition along pollution groups. The results indicated that uranium was predominantly concentrated in the AMD of new pits with strong acid production capacity, reaching a peak concentration of 9,370 µg/L. This was accompanied by elevated acidity and concentrations of iron and total phosphorus, which were identified as significant drivers shaping the composition of bacterial communities, rather than fluctuations in seasonal conditions. In an extremely polluted environment (pH < 3), bacterial diversity was lowest, with a predominant presence of acidophilic iron-oxidizing bacteria (such as Ferrovum), and a portion of acidophilic heterotrophic bacteria synergistically coexisting. As pollution levels decreased, the microbial community gradually evolved to cohabitation of various pH-neutral heterotrophic species, ultimately reverting back to background level. The pH was the dominant factor determining biogeochemical release of uranium in AMD. Acidophilic and uranium-tolerant bacteria, including Ferrovum, Leptospirillum, Acidiphilium, and Metallibacterium, were identified as playing key roles in this process through mechanisms such as enhancing acid production rate and facilitating organic matter biodegradation. [ABSTRACT FROM AUTHOR]

Published

2024

12. A Comparative Study of Carbon Emissions from Industrial and Domestic Wastewater Treatment Plants under the Background of Carbon Neutralization.

Author

Liu, Xiaoping, Li, Zhanbin, Li, Peng, Xu, Weiqing, Liu, Tong, Cheng, Shengdong, Li, Jiajia, Miao, Ziyao, Zhang, Lin, and Zheng, Xing

Subjects

SEWAGE purification, EMISSIONS (Air pollution), CARBON emissions, SEWAGE disposal plants, ACID mine drainage, GREENHOUSE gases, CARBON offsetting

Abstract

This paper studied the characteristics of the carbon emission of an industrial wastewater treatment plant (IWWTP) and a domestic WWTP (DWWTP) located in a high-tech industrial park of Shaanxi Province, China. The results showed that the total carbon emissions of the IWWTP and DWWTP were 10.13 kg/t and 1.84 kg/t in 2020, respectively. Indirect carbon emissions play a dominant role in the total carbon emission of the IWWTP, which accounts for about 97.6% of the total amount. The direct carbon emissions of greenhouse gases (e.g., CH4, N2O) account for about 62% of the total carbon emissions in the DWWTP, followed by the indirect carbon emissions generated by electricity consumption (31.06%) and chemical consumption (6.94%). Additionally, the centralized recycling and re-utilization of the wastewater could achieve 1.06 kg/t and 1.16 kg/t of carbon emission reduction in the IWWTP and DWWTP, respectively, while the carbon emissions of the DWWTP are inversely proportional to the treatment capacity. Therefore, it is of great value to collect and utilize intensively the recycled water to achieve the goal of regional carbon emission reduction and carbon neutralization of WWTPs in industrial parks. [ABSTRACT FROM AUTHOR]

Published

2024

13. Accelerated mineralization of textile wastewater under 222 nm irradiation from Kr/Cl2 excilamp: an environmentally friendly and energy efficient approach.

Author

Ahlawat, Kiran, Jangra, Ramavtar, and Prakash, Ram

Subjects

AZO dyes, HIGH resolution spectroscopy, SEWAGE, FOURIER transform infrared spectroscopy, TEXTILE dyeing, ACID mine drainage

Abstract

The textile dyeing and manufacturing industry is the major producer of significant amounts of wastewater that contain persistent substances such as azo dyes that require adequate remediation measures. Far ultraviolet at 222 nm light may provide an advantage for contaminants degradation as compared to conventional UV sources (254 nm). In this paper, the degradation of reactive black 5 (RB5) in artificial wastewater has been performed using a 222 nm Kr/Cl2 excimer source under direct photolysis and an advanced oxidation process using TiO2/H2O2. The solution pH, catalyst concentration, 222 nm intensity, initial concentration of dye, and addition of H2O2 influence the degradation rate constant. The molar absorption coefficient, quantum yield of RB5 at 222 nm and the electrical energy per order (EEO) from different treatment methods have been reported. RB5 shows 1.26 times higher molar absorption at 222 nm than at 254 nm. The EEO for excimer-222/H2O2 (∼ 13 kWh/m3) is five times lower than that of the excimer-222/TiO2 process, which makes the process energy efficient. The degradation of wastewater has been carried out at three distinct pH values (2, 6, and 10), and the pH level of 10 exhibited the highest degree of degradation. The degradation rate in the alkaline medium is 8.27 and 2.05 times higher than in the acidic or ambient medium. Since textile effluent is highly alkaline, this result is significant, as no neutralization of the wastewater is required, and direct treatment is possible. A possible degradation pathway has been established based on Fourier transform infrared spectroscopy (FTIR) and high resolution mass spectroscopy (HRMS) analysis. The phytotoxicity of the treated wastewater has also been evaluated for its suitability for reuse in agriculture. The study reveals that the excimer-222/H2O2 treated wastewater significantly enhanced the germination percentage of Raphanus sativus seed (97%) compared to dye wastewater-grown seeds (75%). This work offers crucial information for future studies on the direct and indirect photolysis of azo dyes, as well as insight into the process of RB5 degradation under Kr/Cl2 excimer radiation. [ABSTRACT FROM AUTHOR]

Published

2024

14. In Situ Use of Mining Substrates for Wetland Construction: Results of a Pilot Experiment.

Author

Hernández-Pérez, Carmen, Martínez-López, Salvadora, Martínez-Sánchez, María José, Martínez-Martínez, Lucia Belén, García-Lorenzo, María Luz, and Perez Sirvent, Carmen

Subjects

WETLANDS, ACID mine drainage, PHRAGMITES, PILOT projects, MINE waste, PLANT growing media, PHRAGMITES australis

Abstract

This paper evaluates an experimental wetland as part of a pilot soil reclamation project in a mining area. The wetland was constructed using materials of mining origin from the area; most reactive materials of acid pH were stabilised using limestone filler. The study selected macrophytes that are tolerant to potentially toxic elements (PTEs) and resistant to salinity, namely Phragmites australis, Juncus effusus, and Iris pseudacorus. These macrophytes were then placed in pots containing substrates composed of different mixtures of topsoil, peat, and mining waste (black or yellow sand). A thorough analysis of the physicochemical and mineralogical characteristics of the materials included studies of PTE mobilisation. This study emphasises the significance of the rhizosphere in directing the transfer of PTEs to the plant and the correlation between the substrate and the development of plant defence mechanisms, such as the formation of Fe-plates. Scanning electron microscopy was used to highlight these aspects and validate the results of the analytical determinations. These wetlands can be proposed as a phytoremediation strategy for areas affected by mining and maritime influence. They are easy to construct and remain stable, providing important ecosystem services such as the natural attenuation of acid mine drainage, support for vegetation development and fauna, and a clean ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

15. Dear Reader.

Author

Kleinmann, Robert

Subjects

DEEP learning, CHATBOTS, SCIENTIFIC communication, ACID mine drainage, MINE water

Abstract

However, while AI-generated text can undoubtedly be beneficial in expediting the writing process, caution must be exercised to ensure that the final output reflects the expertise and intent of the author. Researchers must be able to understand how AI models arrive at their conclusions and be aware of any limitations or potential biases in the algorithms. Before addressing the topic of AI, we need to note that this issue contains fewer papers than any issue we have published in over a decade, and it contains I every i paper that was ready for publication. [Extracted from the article]

Published

2023

16. Geochemical and petrological studies of high sulfur coal and overburden from Makum coalfield (Northeast India) towards understanding and mitigation of acid mine drainage.

Author

Mahanta, Angana, Sarmah, Debashis, Bhuyan, Nilotpol, Saikia, Monikankana, Phukan, Sarat, Subramanyam, K. S. V., Singh, Ajit, Saikia, Prasenjit, and Saikia, Binoy K.

Subjects

COAL, RARE earth metals, COAL mining, COALFIELDS, ACID mine drainage, MACERAL, OXIDATION kinetics

Abstract

Opencast coal mining produces trash of soil and rock containing various minerals, that are usually dumped nearby the abandoned sites which causes severe environmental concern including the production of acid mine drainage (AMD) through oxidation pyrite minerals. The current study entailed assessing the potential production of AMD from an opencast coal mining region in Northeast part of India. In order to have a comprehensive overview of the AMD problem in Makum coalfield, the physico-chemical, geochemical, and petrological characteristics of the coal and overburden (OB) samples collected from the Makum coalfield (Northeast India) were thoroughly investigated. The maceral compositions reveal that coal features all three groups of macerals (liptinite, vitrinite, and inertinite), with a high concentration of liptinite indicating the coal of perhydrous, thereby rendering it more reactive. Pyrite (FeS2) oxidation kinetics were studied by conducting the aqueous leaching experiments of coal and (OB) samples to interpret the chemical weathering under controlled laboratory conditions of various temperature and time periods, and to replicate the actual mine site leaching. Inductively coupled plasma-optical emission spectroscopy (ICP-OES) was operated to detect the disposal of some precarious elements from coal and OB samples to the leachates during our controlled leaching experiment. The Rare earth element (REE) enrichment in the samples shows the anthropogenic incorporation of the REE in the coal and OB. These experiments reveal the change in conductivity, acid producing tendency, total dissolved solid(TDS), total Iron(Fe) and dissolved Sulfate(SO42−) ions on progress of the leaching experiments. Moreover, the discharge of FeS2 via atmospheric oxidation in laboratory condition undergoes a significant growth with the rise of temperature of the reaction systems in the environment and follows pseudo first order kinetics. A bio-remediative strategies is also reported in this paper to mitigate AMD water by employing size-segregated powdered limestone and water hyacinth plant in an indigenously developed site-specific prototype station. Apart from neutralisation of AMD water, this eco-friendly AMD remediation strategy demonstrates a reduction in PHEs concentrations in the treated AMD water. [ABSTRACT FROM AUTHOR]

Published

2024

17. Potato (Solanum tuberosum L.) cultivars physiological, biochemical performance and yield parameters response to acid mine water irrigation and soil physiochemical properties.

Author

Munyai, Rabelani and Modise, David M.

Subjects

POTATOES, MINE water, LIME (Minerals), IRRIGATION water, ACID mine drainage, CULTIVARS, WATER reuse

Abstract

This paper aimed to analyse the potato cultivar's response to physiological, biochemical performance, yield parameters and soil physiochemical properties when subjected to quicklime (un)treated acid mine drainage (AMD) irrigation. A randomized design experiment was conducted with five water treatment levels: TW1; TW2; TW3; TW4 to TW5 replicated four times. The results showed that the quicklime treatment increased the pH of the AMD water, reduced the concentration of EC, NO3−, SO42− and ameliorated heavy metals. However, unsafe levels of heavy metals above the maximum permissible (WHO/FAO) levels were found in Pb, Mg and Mo for water (TW4 and TW5), while As, Cd and Cr for soils (ST4 and ST5) respectively. For potato tubers (TT4 and TT5) concentrations of As, Cd, Cr, and Pb were above the maximum levels. Stomatal conductance, chlorophyll content and yield parameters responded positively by increasing significantly on TW4 and TW5 treatments, but negatively (reduced) towards TW2 and TW3 treatments. A higher bioaccumulation factor was obtained for Zn ˃ Cu ˃ Mg ˃ Pb ˃ Mn, which was an indication of the contamination status of soil, with Zn being more concentrated than other metals. The findings indicate that quicklime-treated AMD is usable for potato irrigation with regular monitoring of heavy metal levels and strict observation of water reuse protocols. The use of this large source of ameliorated (AMD) water will go a long way in improving food security in South Africa and/or in countries where agriculture production is around mining areas. [ABSTRACT FROM AUTHOR]

Published

2024

18. Evidence for microbial dissolution of pyrite from the Lower Cambrian oolitic limestone, South China.

Author

Liu, W. and Zhang, X.-L.

Subjects

PYRITES, LIMESTONE, GEOCHEMICAL cycles, ACID mine drainage, PROKARYOTES, EXTRACTION (Chemistry)

Abstract

The oxidative dissolution of the sulphide mineral pyrite (FeS2) has been of significant interest since it affects global geochemical cycles, generates acid mine drainage, and is used in industrial metal extraction. Several different groups of prokaryotes are known to catalyze the dissolution of pyrite and use the free energy generated from the oxidation, which may result in the dissolution of the mineral and the precipitation of the secondary ferric iron minerals either on the cell surface or is separated from the cells. However, straightforward evidence for such metabolic process in the ancient sediments is rare. Here we report pyrite crystals from the Lower Cambrian oolitic limestones that show indications of microbial erosion in various degrees. Erosion pits and tubular micro-tunnels with characteristic shapes and sizes in our samples are generally similar to those obtained from the laboratory studies on the oxidative dissolution of pyrite by ironoxidizing bacteria. Diagenetic examination demonstrates that the bioerosion predates the consolidation of the limestone. In addition, bacillus-sized and -shaped microfossils encrusted with iron oxides are present in our samples, which are very likely to be fossilized sheaths produced by iron-oxidizing bacteria. Our findings indicate that the microbial oxidative dissolution of pyrite existed in the Cambrian shallow marine carbonate sediments. Furthermore, we suggest that characteristic pitting patterns on the pyrite crystals from ancient sediments are an important clue to trace the evolution of life, in particular, the evolution of metabolism like microbial iron oxidation in the remote past on our planet, independent of biomarkers, isotopic signals and body fossils as well. [ABSTRACT FROM AUTHOR]

Published

2011

19. Titration Curves: A Useful Instrument for Assessing the Buffer Systems of Acidic Mining Waters.

Author

Totsche, Oliver, Fyson, Andrew, Kalin, Margarete, and Steinberg, Christian E. W.

Subjects

VOLUMETRIC analysis, BASES (Chemistry), ACID basicity, WATER pollution, INDICATORS & test-papers, COMPOSITION of water, WATER quality management, WATER analysis, CHEMICAL reagents

Abstract

The article focuses on the use of titration curves for analyzing the strength of buffer systems of acidic mining waters. The titration curves are cheap, important and resourceful tools for knowing the acidity of acidic mining waters. The acidity can be calculated by studying the weak acids and bases and strong acids and bases concepts. The information from the titration curves can be compared with traditional endpoint titrations. It can help to improve water quality forecasts, treatment measures and the understanding of environmental processes in mining waters.

Published

2006

20. Development of Decorative Mortars with Pigments from Acid Mine Drainage: Analysis of Physical and Mechanical Properties.

Author

Lermen, Richard Thomas, Orlando, Gabriela de Oliveira, and Silva, Rodrigo de Almeida

Subjects

ACID mine drainage, MORTARS (Ordnance), CONSTRUCTION industry, ENVIRONMENTAL impact analysis, COMPRESSIVE strength, COLORIMETRY

Abstract

The construction industry is recognized for its high consumption of natural resources, resulting in significant environmental impacts. Given this reality, it is essential to seek new methods and solutions that minimize the impact of this activity on the environment. An innovative approach consists of using pigments derived from acid mine drainage (AMD) as a sustainable alternative in the production of mortar for decorative façade cladding. In this context, the main objective of this paper was to evaluate the physical/mechanical properties of decorative mortars developed by partially replacing natural sand with pigment from acid mine drainage. Initially, the pigment (yellow) was produced, characterized, and compared with a commercial pigment. Sequentially, decorative mortars were developed with different pigment concentrations (0%, 2%, 4%, and 6%). The mortars were subjected to compressive strength, flexural tensile strength, shrinkage, loss of mass, and colorimetry tests. The results showed that compressive strength, flexural tensile strength, weight loss, and dimensional variation were significantly affected by the partial addition of pigment to replace natural aggregate. In other words, there was a decrease in strength and an increase in mass loss and expansion of the mortars. However, the main factor influencing these variables was the greater amount of water added in the higher substitution cases. The addition of water was necessary to keep the consistency constant. A possible solution to maintain the same amount of water and avoid negative effects on the mortar properties would be to use additives in the mortar formulation in future work. Therefore, this research contributes to the search for more sustainable solutions in civil construction, exploring the use of pigments from AMD as a viable alternative to reduce the environmental impacts associated with this industry. [ABSTRACT FROM AUTHOR]

Published

2023

21. Mineral Weathering and Metal Leaching under Meteoric Conditions in F-(Ba-Pb-Zn) Mining Waste of Hammam Zriba (NE Tunisia).

Author

Kaba, Oumar Barou, Souissi, Fouad, Keita, Daouda, Filippov, Lev O., Conté, Mohamed Samuel Moriah, and Kanari, Ndue

Subjects

MINE waste, SOIL pollution, LEACHING, ACID mine drainage, POLLUTION, METALS

Abstract

Mining waste is an obvious source of environmental pollution due to the presence of heavy metals, which can contaminate soils, water resources, sediments, air, and people living nearby. The F-(Ba-Pb-Zn) deposit of Hammam Zriba located in northeast Tunisia, 8 km southeast of Zaghouan was intensively exploited from 1970 to 1992. More than 250,000 m3 of flotation tailings were produced and stored in the open air in three dumps without any measure of environmental protection. Thus, in this paper, mineralogical and chemical characterization, especially the sulfide and carbonate phases, were carried out to evaluate the potential for acid mining drainage (AMD) and metal leaching (ML). Conventional analytical methods (XRD, XRF, SEM) have revealed that this mining waste contains on average 34.8% barite–celestine series, 26.6% calcite, 23% quartz, 6.3% anglesite, 4.8% fluorite, 2.1% pyrite, and 0.4% sphalerite. The content of sulfides is less important. The tailing leaching tests (AFNOR NFX 31-210 standard) did not generate acidic leachate (pH: 8.3). The acidity produced by sulfide oxidation was neutralized by calcite present in abundance. Furthermore, the leaching tests yielded leachates with high concentrations of heavy metals, above the authorized thresholds. This high mobilization rate in potential toxic elements (PTE) represents a contamination risk for the environment. [ABSTRACT FROM AUTHOR]

Published

2023

22. Contents list.

Subjects

RUTHENIUM catalysts, CHALCONE, FULLERENE derivatives, ACID mine drainage, MULTIWALLED carbon nanotubes

Published

2022

23. An air/metal hydride battery for simultaneous neutralization treatment of acid–base wastewater and power generation.

Author

Ye, Kangqiang, Du, Yu'an, Yang, Yuxin, Chen, Rong, Deng, Chao, and Weng, Guo-Ming

Subjects

HYDRIDES, ACID mine drainage, WASTEWATER treatment, CIRCULAR economy, PRODUCT life cycle assessment, WASTE heat, SALINE waters

Abstract

How to efficiently deal with waste acids and bases produced by industry has constantly been a tough question for scientists and engineers. Such acid–base wastewaters are normally treated by mixing to give neutral products (i.e., water and salts) and heat which is hard to collect and reuse. Therefore, there is a need for innovative approaches with high efficiencies and high-value added products. Here, we report an air/metal hydride battery with the function of both treating acid–base wastewaters and gathering the waste heat energy in the form of electricity. Remarkably, the proposed battery could exhibit a high coulombic efficiency of up to ca. 94%, along with an effective reduction in the acidity/alkalinity of waste acids/bases and a decent amount of electricity. The proposed battery device also demonstrates a stable operation in semi-flow mode over a two-day timescale, showcasing its potential scalability and long-term stability. Moreover, life cycle assessment results indicate that electricity retrieved from the treatment process is a key contributor to reducing environmental impacts. This work offers alternative opportunities for accelerating the transition to a waste acid–base circular economy. [ABSTRACT FROM AUTHOR]

Published

2024

24. Laboratory investigation of the control of acid mine drainage using alkaline paper mill waste

Author

Ballivy, G., Bellaloui, A., Narasiah, S., and Chtaini, A.

Subjects

MINERAL industries, POLLUTION control industry, HYDROGEN-ion concentration, ACID mine drainage

Abstract

A great deal of research effort has been undertaken to find an effective solution to the problem of acid mine drainage. Indeed, Canadian legislation requires mining companies to respect environmental regulations by providing a rehabilitation plan with a financial guarantee. In order that the Canadian mining industry remains competitive, the proposed solutions have to be not only efficient but also economic, that is why the use of another waste material is attractive. The main objective of this study was to investigate the technical and environmental feasibility of stabilizing acid mine residues using alkaline paper mill waste produced by the pulp and paper industry as a basic source. The mineralogical characterization of the alkaline paper mill shows that calcite is the dominant mineral with hydrated lime (portlandite) present at a low content. The mineralogical characterization of the mining residues shows a polyphasic system where silica dominates the oxidized zone. On the other hand, a high pyrite content is presentin the non-oxidized zone. The essential observations that emerge from the leaching tests undertaken in the laboratory can be summarized by the efficiency of the incorporation of the alkaline paper mill waste (1/3 waste and 2/3 mining residue) on the production of acid mine drainage. In fact, it can be observed that there is a reduction of thehigh toxicity elements like heavy metals. The increase in pH permitsthe reduction of catalytic bacterial activity and reduces the rate of oxidation in the mining residue. [ABSTRACT FROM AUTHOR]

Published

1999

25. Assessment of the Environmental Impact of Acid Mine Drainage on Surface Water, Stream Sediments, and Macrophytes Using a Battery of Chemical and Ecotoxicological Indicators.

Author

Alvarenga, Paula, Guerreiro, Nádia, Simões, Isabel, Imaginário, Maria José, Palma, Patrícia, and Zacchini, Massimo

Subjects

ACID mine drainage, RIVER sediments, ENVIRONMENTAL impact analysis, STRIP mining, MACROPHYTES, INDICATORS & test-papers, ENVIRONMENTAL toxicology, POTAMOGETON

Abstract

Mining activities at the Portuguese sector of the Iberian Pyrite Belt (IPB) have been responsible for the pollution of water, sediments, and biota, caused by the acid mine drainage (AMD) from the tailing deposits. The impact has been felt for years in the rivers and streams receiving AMD from the Aljustrel mine (SW sector of the IPB, Portugal), such as at the Água Forte stream, a tributary of the Roxo stream (Sado and Mira Hydrographic Region). To evaluate the extent of that environmental impact prior to the remediation actions, surface water, sediments, and the macrophyte Scirpus holoschoenus L. were sampled at the Água Forte and the Roxo streams, upstream and downstream from the confluence. The surface water and the sediments were extremely acidic at the Água Forte stream (pH ranges 2.22–2.92 for the water and 2.57–3.32 for the sediment), with high As, Cu, Pb, and Zn concentrations of 2.1, 120, 0.21, and 421 mg kg−1, respectively, in the water, and 661, 1746, 539, and 1994 mg kg−1, respectively, in the sediment, in the location closer to the mine. Two aquatic bioassays evidenced the high ecotoxicity of the Água Forte water at that site, with very low EC50 values for Vibrio fischeri luminescence inhibition (<3.1% v/v) and Daphnia magna 48-hour immobilization/mortality assays (<6.3% v/v). The impact of the AMD was also evident in the sediments of the Roxo stream, but not so marked in the water, with circa neutral pH and lower As, Cu, Pb, and Zn concentrations. Consistently, the ecotoxicological response was only felt in the sampling point closer to the confluence of the Água Forte with the Roxo stream, with an EC20 of 27.0% (v/v) towards the V. fischeri. One of the dominant and well adapted macrophytes, S. holoschoenus L., presented low bioaccumulation factors for Cu (0.04) and Zn (0.15) in their emerging parts, and very low concentrations for As and Pb, making this plant a potential candidate to be used in phytoremediation actions to treat and control AMD in the IPB. [ABSTRACT FROM AUTHOR]

Published

2021

26. Genome-guided prediction of acid resistance mechanisms in acidophilic methanotrophs of phylogenetically deep-rooted Verrucomicrobia isolated from geothermal environments.

Author

Neira, Gonzalo, Vergara, Eva, and Holmes, David S.

Subjects

METHANOTROPHS, ACID mine drainage, INDUSTRIAL minerals, GENETIC engineering, MEMBRANE proteins, POTASSIUM channels, HORIZONTAL gene transfer

Abstract

Verrucomicrobia are a group of microorganisms that have been proposed to be deeply rooted in the Tree of Life. Some are methanotrophs that oxidize the potent greenhouse gas methane and are thus important in decreasing atmospheric concentrations of the gas, potentially ameliorating climate change. They are widespread in various environments including soil and fresh or marine waters. Recently, a clade of extremely acidophilic Verrucomicrobia, flourishing at pH < 3, were described from high-temperature geothermal ecosystems. This novel group could be of interest for studies about the emergence of life on Earth and to astrobiologists as homologs for possible extraterrestrial life. In this paper, we describe predicted mechanisms for survival of this clade at low pH and suggest its possible evolutionary trajectory from an inferred neutrophilic ancestor. Extreme acidophiles are defined as organisms that thrive in extremely low pH environments (≤pH 3). Many are polyextremophiles facing high temperatures and high salt as well as low pH. They are important to study for both providing fundamental insights into biological mechanisms of survival and evolution in such extreme environments and for understanding their roles in biotechnological applications such as industrial mineral recovery (bioleaching) and mitigation of acid mine drainage. They are also, potentially, a rich source of novel genes and pathways for the genetic engineering of microbial strains. Acidophiles of the Verrucomicrobia phylum are unique as they are the only known aerobic methanotrophs that can grow optimally under acidic (pH 2–3) and moderately thermophilic conditions (50–60◦C). Three moderately thermophilic genera, namely Methylacidiphilum, Methylacidimicrobium, and Ca. Methylacidithermus, have been described in geothermal environments. Most of the investigations of these organisms have focused on their methane oxidizing capabilities (methanotrophy) and use of lanthanides as a protein cofactor, with no extensive study that sheds light on the mechanisms that they use to flourish at extremely low pH. In this paper, we extend the phylogenetic description of this group of acidophiles using whole genome information and we identify several mechanisms, potentially involved in acid resistance, including “first line of defense” mechanisms that impede the entry of protons into the cell. These include the presence of membrane-associated hopanoids, multiple copies of the outer membrane protein (Slp), and inner membrane potassium channels (kup, kdp) that generate a reversed membrane potential repelling the intrusion of protons. Acidophilic Verrucomicrobia also display a wide array of proteins potentially involved in the “second line of defense” where protons that evaded the first line of defense and entered the cell are expelled or neutralized, such as the glutamate decarboxylation (gadAB) and phosphate-uptake systems. An exclusive N-type ATPase F0-F1 was identified only in acidophiles of Verrucomicrobia and is predicted to be a specific adaptation in these organisms. Phylogenetic analyses suggest that many predicted mechanisms are evolutionarily conserved and most likely entered the acidophilic lineage of Verrucomicrobia by vertical descent from a common ancestor. However, it is likely that some defense mechanisms such as gadA and kup entered the acidophilic Verrucomicrobia lineage by horizontal gene transfer. [ABSTRACT FROM AUTHOR]

Published

2022

27. Biosorptive treatment of acid mine drainage: a review.

Author

Kim, N. and Park, D.

Subjects

ACID mine drainage, COAL mining, MINES & mineral resources, MINE water, HEAVY metals, MINERAL industries

Abstract

Acid mine drainage (AMD) is the biggest environmental problem of water related to the mining industry in many countries. Recently, coal mining and mineral mining industries use various AMD treatment systems. The main problem, however, is the very expensive and long retention times for treatment of AMD. For this reason, biosorption technology has been tested recently as a promising method for AMD treatment. The authors review presently available or potential biosorption methods to remove and detoxify toxic heavy metals and organic pollutants from AMD. Biosorption technology is evolving as an attractive option to supplement conventional AMD treatment. However, a literature review indicates that there is a lack of studies examining biosorption of AMD treatment. This paper examines a range of subjects, including laboratory scale experiments and the commercial application of biosorption for treatment of AMD. Our review paper will help direct future studies on the development of biosorption technology for treating AMD. [ABSTRACT FROM AUTHOR]

Published

2022

28. An Assessment of the Environmental Impact of Coal Mining through Acid Mine Drainage and Soil Degradation from Makum Coalfields, Upper Assam, India: A Case Study.

Author

Kumar, Manish, Srivastava, Manish Kumar, Kishor, Kaushal, and Singh, Alok K.

Subjects

ACID mine drainage, COAL mining, ENVIRONMENTAL impact analysis, COALFIELDS, MINE soils, MINE drainage, PLATEAUS

Abstract

Acid mine drainage and soil erosion are significant problems in the coal mining area. It affects the water quality and soil quality, henceforth affecting plant growth and most aquatic life. During the last two decades, coal mining areas were increased by 194 hectares in Makum coalfield (Assam), which led to an increase in acid mine drainage and soil loss. In this paper, the water chemistry of water samples was analyzed, and annual soil loss near the area of Makum coalfield was calculated to investigate the most affected region by Acid Mine Drainage (AMD) and soil erosion. The Watershed delineation, slope angle, elevation contour map, and drainage system of 57 km2 of the study area were developed by ArcGIS Pro. The Universal Soil Loss Equation was used to estimate the amount of annual soil loss. The USLE parameter was assessed using a Digital Elevation Model with a 30-meter X 30-meter resolution. The result indicates that the quality of drainage near the mines was highly acidic. Also, compared to the area near the riverside, the proximity of mines is more affected by soil erosion and needs improvement. [ABSTRACT FROM AUTHOR]

Published

2023

29. Remediation potential of mining, agro-industrial, and urban wastes against acid mine drainage.

Author

Aguilar-Garrido, Antonio, Paniagua-López, Mario, Sierra-Aragón, Manuel, Martínez Garzón, Francisco Javier, and Martín-Peinado, Francisco José

Subjects

ACID mine drainage, VERMICOMPOSTING, PERMEABLE reactive barriers, AGRICULTURAL industries, ORGANIC wastes, WASTE products

Abstract

Acid mine drainage (AMD) poses serious consequences for human health and ecosystems. Novel strategies for its treatment involve the use of wastes. This paper evaluates the remediation potential of wastes from urban, mining and agro-industrial activities to address acidity and high concentrations of potentially toxic elements (PTE) in AMD. Samples of these waste products were spiked with an artificially prepared AMD, then pH, electrical conductivity (EC), and PTE concentrations in the leachates were measured. The artificial AMD obtained through oxidation of Aznalcóllar's tailing showed an ultra-acid character (pH − 2.89 ± 0.03) and extreme high electrical conductivity (EC − 3.76 ± 0.14 dS m−1). Moreover, most PTE were above maximum regulatory levels in natural and irrigation waters. Wastes studied had a very high acid neutralising capacity, as well as a strong capacity to immobilise PTE. Inorganic wastes, together with vermicompost from pruning, reduced most PTE concentrations by over 95%, while organic wastes retained between 50 and 95%. Thus, a wide range of urban, mining, and agro-industrial wastes have a high potential to be used in the treatment of AMD. This study provides valuable input for the development of new eco-technologies based on the combination of wastes (eg. Technosols, permeable reactive barriers) to remediate degraded environments. [ABSTRACT FROM AUTHOR]

Published

2023

30. The Implications of AMD Induced Acidity, High Metal Concentrations and Ochre Precipitation on Aquatic Organisms.

Author

Ngole-Jeme, Veronica M. and Ndava, Jenias

Subjects

*ACID mine drainage, *AQUATIC organisms, *ACIDITY, *METALS, *WATER pollution, *ABANDONED mines, *IRON, *HEAVY metals

Abstract

Acid mine drainage (AMD) is a legacy left behind by abandoned and active mines that affects all environmental media. Contamination of water resources by AMD presents significant challenges to aquatic ecosystem stability and on the abundance and diversity of aquatic species. Aquatic organisms react and are affected differently by these conditions. Several studies have reported on how AMD affects aquatic organisms with most of these studies focusing on a specific group of organisms or characteristic of the water. This review paper presents a holistic view on how aquatic organisms cope with, and are affected by the high acidity, high heavy metals content and precipitation of oxides of iron and aluminium which are characteristic of AMD contaminated freshwater ecosystems. Mechanisms of tolerance and the effects of high acidity, high heavy metals content, and precipitates of oxides of iron and aluminium on diatoms, algae, fish, and amphibians are discussed. The paper concludes by discussing the implications of AMD contamination of aquatic environments on the United Nations Sustainable Development Goals (SDGs) and recommendations on possible future prospects. [ABSTRACT FROM AUTHOR]

Published

2023

31. A Reduced-Order Fluid Flow Model for Gas Injection into Porous Media: For Application in Carbon Sequestration in Mine Tailings.

Author

Baidya, Durjoy, Wynands, Eric, Samea, Parham, Ghoreishi-Madiseh, Seyed Ali, and Dipple, Gregory

Subjects

CARBON sequestration, GAS flow, GAS injection, POROUS materials, FLUID flow, ACID mine drainage, PIPE flow

Abstract

One method to accelerate carbon sequestration within mine tailings from remote mines involves the injection of diesel generator exhaust into dry stack tailings. The techno-economic feasibility of this approach heavily depends on understanding the flow characteristics inside the perforated injection pipes embedded within the tailings. Two distinctive yet dynamically coupled transport phenomena were identified and evaluated: (i) gas transport inside the pipe and (ii) gas injection into the porous body of the tailings. This paper presents two models to investigate these transport phenomena, a three-dimensional (3D) and a one-plus-one-dimensional (1 + 1)D model. An experimental investigation of the pressure profile through the injection pipe was carried out to validate the models at the experimental scale. To apply the (1 + 1)D model to larger scales, the results were compared with those of the 3D model, as the (1 + 1)D model required significantly less computational resources and time. To include the effect of the perforations in the pipe on the pressure profile of the (1 + 1)D model, an analytical fluid velocity profile was developed in relation to geometric and physical parameters. The performance of the (1 + 1)D model with an impact factor was then evaluated against the 3D model results for the inlet pressure, pressure profile and gas outflow distribution under various conditions than those investigated experimentally. The developed (1 + 1)D model can be used to design an energy-efficient approach for large-scale implementation with a wide range of desired operating parameters. [ABSTRACT FROM AUTHOR]

Published

2023

32. The Development of Environmental Geoscience Contributes to the Construction of Ecological Civilization.

Author

Lei, Pei, Zhang, Hong, Wu, Qihang, Li, Ping, Wang, Bing, and Wu, Pan

Subjects

EARTH sciences, ACID mine drainage, ENVIRONMENTAL sciences, ARSENIC

Abstract

Recently, China unveiled "The Implementation Plan for the National Ecological Civilization Zone", which recognizes ecosystems as a community of life and fosters such things as environmental restoration, ecological restoration, and watershed management. In addition, this section explores the environmental state and heavy metal contamination in the Beijing-Tianjin-Hebei region, North China; (3) The final section, including 1 research article and 2 review papers, highlights the aspects of environmental mechanisms and application technologies for metal-contaminated sites. [Extracted from the article]

Published

2022

33. Emerging trends of carbon emissions and foreign direct investment: accounting for ecological footprints, renewable energy, globalization, and technological innovations in BRICS.

Author

Kayani, Umar Nawaz, Nasim, Ismat, Aysan, Ahmet Faruk, Bashir, Farrukh, and Iqbal, Umer

Subjects

FOREIGN investments, ECOLOGICAL impact, CARBON emissions, RENEWABLE energy sources, TECHNOLOGICAL innovations, ACID mine drainage

Abstract

This paper investigates the intricate interplay between carbon emissions and foreign direct investment within the context of Brazil, Russia, India, China, and South Africa (BRICS) for the period spanning 2000 to 2022. In our comprehensive analysis, we incorporate ecological footprint, renewable energy, globalization, and technological innovations as exogenous variables. Employing a system of simultaneous equations across the BRICS panel, we aim to fully elucidate the proposed relationships. Our empirical findings underscore the following key insights: foreign direct investment, technological innovations, and the adoption of renewable energy sources significantly contribute to the mitigation of carbon emissions in these selected nations. However, it is essential to note that ecological footprints exhibit a positive association with carbon emissions, raising concerns on two fronts: escalating environmental degradation and increased land pressure, both of which contribute to rising ecological footprints in BRICS countries. Additionally, our analysis reveals that foreign direct investment is influenced by its capacity to reduce carbon emissions and bolster renewable energy adoption, while globalization amplifies investment trends within the BRICS nations. To address the environmental repercussions of mining activities, it is imperative to implement stringent control and regulation measures, given their potential adverse impacts, including soil pollution, acid mine drainage, erosion, biodiversity loss, excessive water resource consumption, and wastewater disposal challenges. Nevertheless, proactive steps such as recycling mining waste, adopting environmentally friendly mining equipment, combatting illegal mining, and enhancing overall mining sustainability offer promising avenues to mitigate the environmental footprint of mining operations. [ABSTRACT FROM AUTHOR]

Published

2024

34. Water monitoring with an automated smart sensor supported with solar power for real-time and long range detection of ferrous iron.

Author

Ozer, Tugba, Agir, Ismail, and Borch, Thomas

Subjects

SOLAR energy, INTELLIGENT sensors, WATER quality monitoring, METHYL parathion, ACID mine drainage, IRON, MICROFLUIDIC devices

Abstract

Low-power and smart sensing systems for iron detection are necessary for in situ monitoring of water quality. Here, a potentiometric Fe2+-selective electrode (ISE) was fabricated based on cyanomethyl N-methyl-N-phenyl dithiocarbamate for the first time as an ionophore. Under optimal conditions, the ISE showed a Nernstian slope of 29.76 ± 0.6 mV per decade for Fe2+ ions over a wide concentration range from 1.0 × 10−1 to 1.0 × 10−5 M with a lower detection limit (LOD) of 1.0 × 10−6 M. The ISE interference of various cations on the potentiometric response was also investigated. The ISE had a response time less than 3 s and the lifetime was two months. Also, an automated, long-range (LoRa), wireless enabled sampling microfluidic device powered with a solar panel as an autonomous power source was developed for a continuous sampling and sensing process. The sensing platform was employed in the determination of Fe2+ in acid mine drainage and spiked water samples with an average recovery of 100.7%. This simple, inexpensive (below $350), portable sensing platform will allow for rapid real-time monitoring of ground-, drinking-, and industrial waters contaminated with iron. [ABSTRACT FROM AUTHOR]

Published

2024

35. Ashes from challenging fuels in the circular economy.

Author

Lehmusto, Juho, Tesfaye, Fiseha, Karlström, Oskar, and Hupa, Leena

Subjects

*CIRCULAR economy, *CARBON sequestration, *FLY ash, *INCINERATION, *WASTE treatment, *ALUMINUM oxide, *ACID mine drainage

Abstract

• A review with over 300 references on the utilization of challenging ashes. • Metal and phosphorus recovery from different ashes was addressed. • The key beneficial properties of biomass and MSW ashes were identified. In line with the objectives of the circular economy, the conversion of waste streams to useful and valuable side streams is a central goal. Ash represents one of the main industrial side-products, and using ashes in other than the present landfilling applications is, therefore, a high priority. This paper reviews the properties and utilization of ashes of different biomass power plants and waste incinerations, with a focus on the past decade. Possibilities for ash utilization are of uttermost importance in terms of circular economy and disposal of landfills. However, considering its applicability, ash originating from the heat treatment of chemically complex fuels, such as biomass and waste poses several challenges such as high heavy metal content and the presence of toxic and/or corrosive species. Furthermore, the physical properties of the ash might limit its usability. Nevertheless, numerous studies addressing the utilization possibilities of challenging ash in various applications have been carried out over the past decade. This review, with over 300 references, surveys the field of research, focusing on the utilization of biomass and municipal solid waste (MSW) ashes. Also, metal and phosphorus recovery from different ashes is addressed. It can be concluded that the key beneficial properties of the ash types addressed in this review are based on their i) alkaline nature suitable for neutralization reactions, ii) high adsorption capabilities to be used in CO 2 capture and waste treatment, and iii) large surface area and appropriate chemical composition for the catalyst industry. Especially, ashes rich in Al 2 O 3 and SiO 2 have proven to be promising alternative catalysts in various industrial processes and as precursors for synthetic zeolites. [ABSTRACT FROM AUTHOR]

Published

2024

36. Spatial Distribution, Migration, and Ecological Risk of Cd in Sediments and Soils Surrounding Sulfide Mines—A Case Study of the Dabaoshan Mine of Guangdong, China.

Author

Sheng, Weikang, Hou, Qingye, Yang, Zhongfang, and Yu, Tao

Subjects

ACID mine drainage, METAL tailings, ALLUVIAL plains, SOILS, SULFIDE minerals, SEDIMENTS, AGRICULTURE

Abstract

Acid mine drainage (AMD) resulting from metal sulfide mining activities can lead to contamination by potentially toxic elements (PTEs) primarily concentrated around the mining area and gradually spreading outward. However, ecological risks do not correspond directly to PTE concentrations, making it challenging to effectively manage the mining environment and accurately prevent potential ecological impacts. In this paper, we analyzed Cd levels in sediments, soils, and corresponding rice grains sampled from four villages near Dabaoshan Mine of Guangdong, China, in 2017. Our results reveal that Cd is the most prominent pollutant element, exhibiting significant enrichment and spatial heterogeneity in both soil and sediments and higher accumulation levels in rice grains compared to other PTEs. Cd concentrations in soil decrease from the tailings pond to the river terrace, with a slight increase after Taiping River joins and flows into the alluvial plain. However, the concentrations in sediments show the opposite trend. The bioconcentration factor (BCF) for Cd in agricultural soil from the river terrace is lower than that from the alluvial plain and the degree of exceeding the maximum permit level (MPL) of Cd in rice grains increases along the river. Mineral transformation and topography are important factors in controlling the geochemical behavior of PTEs. Remediation efforts alter the physicochemical properties of the river, resulting in the release of PTEs during schwertmannite transformation followed by their adsorption by clay minerals. Furthermore, the random forest (RF) analysis highlights that the bioavailability and potential ecological risk of Cd in soils are governed by the occurrence form of Cd in different topographies, mainly controlled by TFe2O3, Mn, and CaO in the river terrace and CaO, Al2O3/SiO2, and Mn in the alluvial plain. Therefore, considering the impact of topography on mineral compositions, physicochemical properties, and occurrence form of PTEs in soil and sediments is essential for assessing ecological risk in mining areas. [ABSTRACT FROM AUTHOR]

Published

2023

37. How natural attenuation can benefit the environment: a case study of a water reservoir in Brazil.

Author

Chaves, Renata Dias Abreu, Rodrigues, Paulo César Horta, de Souza, Lívia Ribeiro, and Ladeira, Ana Cláudia Queiroz

Subjects

RADIOISOTOPES, ACID mine drainage, RESERVOIRS, POLLUTANTS, RADIOACTIVE contamination

Abstract

This paper investigates the occurrence of natural attenuation in sediments from a water reservoir impacted by metals and radionuclides resulting from acid mine drainage. The chemical and radiochemical characterization indicated the enrichment of radionuclides (238U and 226Ra) and metals (Zn) in the sediments. The isotopic deviation δ34S (− 1.3 to − 17.4‰) and high contents of Acid Volatile Sulfide (2.34 to 5.71 g kg−1) indicated the occurrence of natural attenuation all through the reservoir, which contributes to the chemical stabilization of the contaminants. [ABSTRACT FROM AUTHOR]

Published

2023

38. Optimization of Soil-Sludge Mixtures by Compaction for Potential Use in Mine Site Reclamation.

Author

Mbonimpa, Mamert, Ngabu, Élysée Tshibangu, Belem, Tikou, Kanteye, Ousseynou, and Maqsoud, Abdelkabir

Subjects

SODIC soils, ACID mine drainage, HYDRAULIC conductivity, COMPACTING, POTTING soils, MIXTURES

Abstract

Studies have indicated the potential of mixtures of silty soil and sludge produced by active treatment of acid mine drainage for use in covers with capillary barrier effects for mine site reclamation. Very high water contents of sludge in the settling pond could negatively affect the required hydrogeotechnical properties of soil sludge mixtures with high sludge contents. The challenge is then to determine the optimum wet sludge content of soil-sludge mixtures with air entry values (AEV) and/or saturated hydraulic conductivity (ksat) required for use in mine site reclamation covers. This paper presents a method to determine the optimum wet sludge content βopt for obtaining the maximum dry density of compacted soil-sludge mixtures. Two types of soil (S1 and S2) and two types of sludge (A and W) were tested. It was observed that βopt can be determined when the initial water content of the soil used in the mixture is lower than the optimum water content determined from the Proctor curve of the soil alone (10 wt% and 6 wt% for soils S1 and S2, respectively) and that βopt does not change with increasing initial soil water content. Optimum wet sludge contents found were low (≈15 wt% and ≈7 wt% for mixtures containing soils S1 and S2, respectively) for the test conditions, indicting a limited quantity of reusable sludge in the mixtures. For all mixtures, the water content corresponding to βopt was close to the optimum water content of the soil alone. Results of soil water retention and saturated hydraulic conductivity (ksat) tests conducted on selected optimized mixtures indicated that the mixtures based on soils S1 and S2 have air entry values higher than 20 kPa and would be suitable for use in the moisture retention layer of covers with capillary barrier effects, while soil S2 and the derived mixtures exhibited ksat < 10−7 cm/s and would be potential materials for the low permeability layer in low saturated hydraulic conductivity covers. [ABSTRACT FROM AUTHOR]

Published

2023

39. Characteristics and Mechanisms of Heavy Metal Pollution in Acid Mine Drainage Environments.

Author

GAO Kun, ZHANG Bowei, and LIU Chongxuan

Subjects

ACID mine drainage, HEAVY metals, MINERALS, COPPER, IRON, ECOLOGICAL risk assessment, HEAVY metal toxicology, CHEMICAL speciation

Abstract

Acid mine drainage (AMD) is an environmental problem commonly found in mining area. This paper collectively investigated the physicochemical parameters in AMD, and the speciation of heavy metals in the sediment and the associated risk of their re-mobilization in the Shirenzhang mine site. Results indicated that the aquatic systems suffered a combined pollution of heavy metals As, Zn, Cu, and Fe. The secondary Fe minerals in the sediments were capable of immobilizing the heavy metals and the immobilization affinity of minerals to As was stronger than that to Zn, Cu, and Cd. At pH<3, the well crystalline minerals including jarosite and ferroarsenite were detected in the sediments, and the heavy metals were mainly presented in the crystalline iron oxide-bound phase and the residual phase. The stability of heavy metals was relative high. At pH>3, however the poor crystalline iron oxyhydroxide including schwertmannite and β - Fe(OOH) were the dominant secondary minerals. And the heavy metals in the sediments were mainly presented in the surface-adsorbed phase and the poor crystalline iron oxide-bound phase, which led to a low stability of the heavy metals. In addition, the relative abundance of iron reducing bacteria was high in the sediments at pH>3, which might induce the transformation of the secondary minerals and the associated mobilization of heavy metals. These results provided important insights into the geochemical behavior of heavy metals in AMD environments. [ABSTRACT FROM AUTHOR]

Published

2023

40. Use of time-lapse 2D and 3D geoelectrical inverse models for monitoring acid mine drainage -a case study.

Author

Jodeiri Shokri, Behshad, Shafaei, Foojan, Doulati Ardejani, Faramarz, Mirzaghorbanali, Ali, and Entezam, Shima

Subjects

SULFIDE minerals, COAL mine waste, ACID mine drainage

Abstract

Coal washing plants produce large amounts of waste, and tailings are generally dumped in piles and impoundments nearby the plants. Sulfide minerals, water infiltration, and oxygen diffusion can result in acid mine drainage (AMD). In this paper, monitoring the AMD generated by a coal washing plant in northeastern Iran was investigated by applying time-lapse 2D and 3D geoelectrical techniques. For this purpose, 2D and 3D geoelectrical surveys with the Dipole-Dipole array were conducted in the area surrounded by an abandoned pile and nearby two impoundments. The surveys were repeated six months after the first measurements to characterize the temporal changes in the medium. 2D geoelectrical time-lapse suggests that the AMD is being generated at the shallower level of the pile. Moreover, the 3D time-lapse and hydrogeochemical analysis indicate that the likely plume is conveyed to the groundwater downstream of the pile. Besides, the results of time-lapse 3D geoelectrical models illustrate that seasonal changes, mainly precipitation, could affect the likely plume and transport it to subsurface layers. [ABSTRACT FROM AUTHOR]

Published

2023

41. Demonstration of a methodology for measuring the neutralization potential in coal waste.

Author

de Jesús López-Saucedo, Felipe, Batista-Rodríguez, José Alberto, Carrillo-Pedroza, Francisco Raúl, Díaz-Martínez, Roberto, and Ramos-Méndez, Karen Larissa

Subjects

COAL mine waste, COAL preparation, WASTE management, ACID mine drainage

Abstract

This paper presents an easy-to-understand and easy-to-use methodology for monitoring the neutralization potential of residues derived from coal preparation. The methodology was developed based on the chemical composition of the waste and the relationship between calcium and sulfur. The effectiveness of this, in the control of residues, is demonstrated through in situ testing in a coal preparation plant in San Juan de Sabinas, Coahuila. The tests were carried out by collecting samples in three waste streams for five days at the plant. The methodology presents a strong linear correlation between the neutralization potential and the Ca/S ratio of 0.91. The estimation of neutralization potential through the Ca/S ratio represents a practical, easy-to-apply methodology that saves time and favors the decision-making required by waste management plans, to avoid the generation of acid drainage in coal waste. [ABSTRACT FROM AUTHOR]

Published

2023

42. Impact of acid mine drainage on groundwater hydrogeochemistry at a pyrite mine (South China): a study using stable isotopes and multivariate statistical analyses.

Author

Liu, Yu, Wei, Lezhang, Wu, Qinghua, Luo, Dinggui, Xiao, Tangfu, Wu, Qihang, Huang, Xuexia, Liu, Juan, Wang, Jin, and Zhang, Ping

Subjects

MULTIVARIATE analysis, STABLE isotopes, WATER chemistry, GROUNDWATER, PRINCIPAL components analysis, PONDS, GROUNDWATER purification, ACID mine drainage

Abstract

Combining environmental isotope analysis with principal component analysis can be an effective method to discriminate the inflows and sources of contamination in mining-affected watersheds. This paper presents a field-scale study conducted at an acid mine drainage (AMD)-contaminated site adjacent to a pyrite mine in South China. Samples of surface water and groundwater were collected to investigate transport in the vadose zone using stable isotopes of oxygen (δ18O) and hydrogen (δD) as environmental tracers. Principal component analysis of hydrogeochemical data was used to identify the probable sources of heavy metals in the AMD. The heavy metal pollution index (HPI) was applied to evaluate the pollution status of heavy metals in the groundwater. The groundwater associated with the Datai reservoir was recharged by atmospheric precipitation and surface water. On the side near the AMD pond, the groundwater was significantly affected by the soluble metals produced by pyrite oxidation. The concentrations of some metals (Al, Mn, and Pb) in all of the samples exceed the desirable limits prescribed by the World Health Organization (Guidelines for drinking-water quality, 4th edn. World Health Organization, Geneva, 2011). Among them, the concentration of Al is more than 30,000 times higher than the desirable limits prescribed by the World Health Organization (2011), and the concentration of Mn is more than 3000 times higher. The HPI values based on these heavy metal concentrations were found to be 10–1000 times higher than the critical pollution index value of 100. These findings provide a reference and guidance for research on the migration and evolution of heavy metals in vadose zone water in AMD-contaminated areas. [ABSTRACT FROM AUTHOR]

Published

2023

43. Polymer-modified bentonites with low hydraulic conductivity and improved chemical compatibility as barriers for Cu2+ containment.

Author

Jia-Kai, Chen, Liang-Xiong, Xia, Yi-Xin, Yang, Mulati, Dina, Shuai, Zhang, Liang-Tong, Zhan, Yun-Min, Chen, and Bate, Bate

Subjects

HYDRAULIC conductivity, GEOSYNTHETIC clay liners, ACID mine drainage, COPPER mining, SURFACE plates, BENTONITE, CHANNEL flow

Abstract

Containment and remediation of copper mine contamination with high concentration of heavy metals (Cu, Pb, Zn) and low pH (2–5) demand barriers with low hydraulic conductivity (k) and good chemical compatibility. To prepare modified barriers containing copper erosion by replacing Wyoming bentonite with local bentonite and screen out economic dosage, the k of 12 polymer-modified bentonites with sodium polyacrylate (PAA) or sodium-carboxymethyl cellulose (CMC) at dosages from 2 to 10%, was measured by modified fluid loss (MFL) test. The k of unmodified bentonites at 690 kPa top pressure ranged from 1.8 × 10−11 m/s to 1.9 × 10−11 m/s, which were reduced down to 4.6 × 10−12 m/s by 5% PAA or to 5.5×10−12 m/s by 5% CMC. The SEM & EDX-substantiated pore-filling effect of PAA, exfoliation of bentonite plates by PAA and CMC, and the XRD & FTIR-substantiated intercalation of CMC contributed to the decrement of available flow space and the increment of tortuosity of flow channel, and eventually k reduction. Excessive polymer (> 5%) might prop open interaggregate voids, increase pore connectivity and cause slight k increment up to 9.8 × 10−12 m/s and 6.5 × 10−12 m/s for 10% PAA- and 10% CMC-modified bentonites, respectively. Acidic condition (pH = 3) slightly increased the k of unmodified, 5% PAA- and 5% CMC-modified bentonite by less than 42%. At Cu2+ concentrations ([Cu2+]) of 0.38−10 mM (26 times the field concentration, 3.6 times the maximum concentration in the investigation), the k of 5% CMC-modified bentonite remained at 10−12 m/s, demonstrating good chemical compatibility. This was attributed to the intercalated CMC chains, which increased interlayer repulsion, enhanced osmotic swelling of bentonite plates, and reduced cation exchange reaction with Cu2+ at bentonite plate surfaces. When [Cu2+] reached 15 mM, k of 5% CMC-modified bentonite further increased to 6.0×10−11 m/s. This paper filled the gap of creating low permeable polymer-modified bentonite for permeants with acidic and high heavy metal content condition, which is typical near copper mines. The outcome of this research results in practically usable barrier materials, as used in a geosynthetic clay liner (GCL) or similar applications without the need of importing high-purity bentonite (e.g., Wyoming bentonite). [ABSTRACT FROM AUTHOR]

Published

2023

44. Removal of Sulfate and Metals from Wastewater of a Mining Enterprise by a Dual Sorbent System: A Case Study.

Author

Krasavtseva, Eugenia, Gogoi, Harshita, Svetlov, Anton, Leiviskä, Tiina, and Makarov, Dmitriy

Subjects

METALS, MANGANOUS sulfate, WASTEWATER treatment, SEWAGE, STRONTIUM ions, ACID mine drainage, ORE deposits

Abstract

Copyright of Mine Water & the Environment is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

45. Investigation of Sterile Mining Dumps Resulting from Ore Exploitation and Processing in Maramures County, Romania.

Author

Petrean, Ioana Andreea, Micle, Valer, and Șenilă, Marin

Subjects

SPOIL banks, ACID mine drainage, INDUCTIVELY coupled plasma atomic emission spectrometry, ORES, HEAVY metals, SPECIES distribution

Abstract

Abandoned sterile dumps can be a significant source of environmental pollution, therefore the distribution of trace elements throughout mining is vital. Monitoring environmental factors in closed mining perimeters aims to track the quality of discharged waters in the emissary and assess acid mine drainage, the quality of the soil and vegetation, stability, and the condition of the land surfaces within the perimeter of the sterile deposits. One of the primary sources of land, water and air pollution is sterile mining dumps. Knowing the source of pollution is the first step in adequately managing the affected areas. This paper investigates the physical–chemical properties and the concentrations of heavy metals in sterile dumps resulting from mining. We studied one sterile dump that was the result of ore processing and whose surface was covered with abandoned mixed ore concentrate (Pb, Zn), located in the Băiuț mining area (Romania), and a second sterile mining dump that was the result of exploration and exploitation work in the Ilba mining area (Romania). In order to determine the physicochemical characteristics of the studied sterile dumps and to determine the concentration of heavy metals, 27 sterile samples and one soil sample were taken from the Băiuț dump. Additionally, 10 sterile samples and one soil sample were collected from the Ilba dump. Aqua regia extractable concentrations of heavy metals were determined by inductively coupled plasma optical emission spectrometry. At the same time, using a portable XRF, we analyzed selected samples from each site for total metal concentrations. Furthermore, from each site, one sample was analyzed by FT–IR spectrometry. The pH values in both sterile dumps were highly acidic (≤3.5) and the content of heavy metals was generally increased. [ABSTRACT FROM AUTHOR]

Published

2023

46. The Transformation of Hg 2+ during Anaerobic S 0 Reduction by an AMD Environmental Enrichment Culture.

Author

Zhou, Yuhang, Liu, Yue, Liu, Hongchang, Nie, Zhenyuan, Wang, Yirong, and Chen, Lu

Subjects

ENVIRONMENTAL enrichment, ACID mine drainage, MERCURY, BULK solids, SURFACE morphology, SPECIATION analysis

Abstract

Mercury (Hg) is a highly toxic and persistent heavy metal pollutant. The acid mine drainage (AMD) environment in sulfide-mining areas is a typical Hg pollution source. In this paper, the transformation of Hg2+ during anaerobic S0 reduction by an AMD environmental enrichment culture was studied by multiple spectroscopic and microscopic techniques. The experimental results showed that the microbial S0 reduction of the AMD enrichment culture was significantly inhibited in the presence of Hg2+. The results of cell surface morphology and composition analysis showed that there was obvious aggregation of flocculent particles on the cell surface in the presence of Hg2+, and the components of extracellular polymeric substances on the cell surface changed significantly. The results of surface morphology and C/S/Hg speciation transformation analyses of the solid particulate showed that Hg2+ gradually transformed to mercuric sulfide and Hg0 under anaerobic S0 reduction by the AMD enrichment culture. The microbial community structure results showed that Hg2+ significantly changed the enrichment community structure by decreasing their evenness. The dominant microorganisms with S0 reduction functions are closely related to mercury transformation and are the key driving force for the transformation of substrate solid particulate and cellular substances, as well as the fixation of Hg2+. [ABSTRACT FROM AUTHOR]

Published

2023

47. Potencial de alcalinización de escorias siderúrgicas para el tratamiento de drenajes ácidos de minas.

Author

Alejandro Glatstein, Daniel and Matías Francisca, Franco

Subjects

ACID mine drainage, BLAST furnaces, MINE drainage, PERMEABLE reactive barriers, SLAG, ENVIRONMENTAL exposure, INDUSTRIALIZATION

Abstract

Copyright of Boletín de la Sociedad Geológica Mexicana is the property of Sociedad Geologica Mexicana and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

48. System based on autonomous aerial and maritime surface vehicles to identify sea mines and support the intervention team in the neutralization mission.

Author

Dobref, V., Tănase, M., Pintilie, A., Ichimoaei, G., and Mocanu, V.

Subjects

IMPROVISED explosive devices, RUSSIAN invasion of Ukraine, 2022-, AUTONOMOUS vehicles, MICROGRIDS, ACID mine drainage

Abstract

As naval forces continue to be increasingly present in today's operational environment, European maritime forces are poised to successfully exploit autonomous mine countermeasures (MCM) technology, not only to save manpower but also to increase operational efficiency. Successfully detecting and removing mines from the maritime environment (especially drifting mines, which have re-emerged in the spotlight following the outbreak of war in Ukraine in February 2022) remains a key requirement for maritime forces trying to maintain the security of waterways and oceans around the world. The overall objective of the project, which is the subject of this paper, is to develop and integrate autonomous means (UAVs and USVs) into the concept of action of specialized forces for the search and identification of sea mines. As a starting point in the definition of the overall objective, it has been taken into account that the intervention of specialized forces to neutralize explosive devices involves a series of complex actions, including search, detection, identification, location-based assessment, safe destruction/neutralization, recovery, and destruction of improvised explosive devices or munitions. [ABSTRACT FROM AUTHOR]

Published

2023

49. BIOREMEDIATION OF SULFATE IN WATER ENVIRONMENT: AN OVERVIEW OF REMOVAL PATHWAYS AND INFLUENCING FACTORS.

Author

Yadav, Golla Sreekanth and Ghosh, Pranab Kumar

Abstract

Sulfate-laden wastewater generated from various natural and industrial activities, including mining, metallurgy, electroplating, and battery manufacturing and recycling, has the potential to contaminate both ground and surface water bodies. It is harmful to all forms of life and the environment. Thus, developing an efficient treatment system to address sulfate pollution is necessary. Biological sulfate reduction (BSR) involving sulfate-reducing bacteria offers a better removal of sulfate than conventional physicochemical methods. BSR offers various advantageous such as lower sludge production, removal and recovery of metals, and production of elemental sulfur. However, the performance of bioreactors depends on wastewater sources, microbes involved, and operating conditions. Currently, limited studies are available encapsulating the current state of the art of biological sulfate remediation aimed at optimization of bioreactor design and operation. Therefore, this paper attempts to provide a comprehensive review of the sources of sulfate, its health and ecological effects, microbes involved in sulfate reduction, and its removal pathways that would be beneficial for future bioreactor design. In addition, theoretical and practical aspects of influencing factors the process parameters have been discussed. Considering the results of the reviewed articles, operating, and set-up conditions are recommended to obtain the higher sulfate removal. It includes dissimilatory sulfate reduction by mixed bacterial culture using sodium lactate as an electron donor with pH near about neutral, mesophilic conditions, COD SO4 2-/ratio of 0.67-1.7, ORP less than -100 mV, and lesser sulfide concentration. This overview helps to develop an effective strategy for bioremediation of sulfate and decreasing the sulfate-rich industrial effluent footprint. [ABSTRACT FROM AUTHOR]

Published

2024

50. 固定化耐酸曲霉对 Pb2+ 的去除及机理研究.

Author

王陈, 王进, 贺笑, 揣新, 王绍平, and 岳正波

Abstract

Copyright of Industrial Water Treatment is the property of CNOOC Tianjin Chemical Research & Design Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024