A review of permeable reactive barrier as passive sustainable technology for groundwater remediation

Faisal, Ayad A.H.; Sulaymon, Abbas H.; Khaliefa, Qusey M.

doi:10.1007/s13762-017-1466-0

Cited by 126 publications

(45 citation statements)

References 85 publications

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“…In this condition, at a 1:20 (solid:liquid) ratio, there will be a consumption of 0.05 t of material to treat a cubic meter of acid mine drainage (AMD). The quantity of material and lifespan of the PRB can be estimated through modeling techniques 14 . For instance, in the case of an abandoned gold and www.nature.com/scientificreports www.nature.com/scientificreports/ silver mine in Japan with an AMD flow of 18,000 m³/year 70 , it would take approximately 900 t/year of dregs or grits to treat the drainage.…”

Section: Resultsmentioning

confidence: 99%

“…Other metals such as Al, Mn, Fe, Mg, and Zn are also commonly found in AMD in these mines 10,12 .AMD remediation can be actively accomplished off-site with the pumping of the contamination plume to a treatment plant, or passively on-site with the use of permeable reactive barriers (PRB), with lower installation and maintenance costs. It can be carried out with the flow directed to the system, by the Funnel model, or the grid-type, by the installation of a perpendicular barrier to the contamination plume 13,14 . The PRB was first proposed in Canada in the 1990s 13,15 , with different materials used as adsorbent media, from single barriers with only one material to composites of different materials, or multiple sequential barriers 16,17 .…”

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confidence: 99%

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Kraft pulp mill dregs and grits as permeable reactive barrier for removal of copper and sulfate in acid mine drainage

Farage

Quina

Gando-Ferreira

et al. 2020

Sci Rep

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Mining is an essential human activity, but results in several environmental impacts, notably the contamination of ground and surface water through the presence of toxic substances such as metals and sulfates in mine drainage. permeable reactive barriers (pRB) have been applied to remediate this environmental impact, but the high costs associated with the maintenance of this system are still a challenge. the main objective of this study was to evaluate the use of kraft pulp mill alkaline residues, known as dregs and grits, as material for pRB, and to determine their capacity for retaining copper and sulfate. the work was carried out in laboratory adsorption kinetics assays, batch assays and column tests. tests for elemental characterization, point of zero charge, acid neutralization capacity, total porosity, bulk density and moisture of the dregs and grits were conducted. the results showed high retention of Cu due to a chemical precipitation mechanism, notably for dregs (99%) at 5 min in adsorption kinetics. The grits presented similar results after 180 min for the same assay. Sulfate retention was effective at pH below 5, with an efficiency of 79% and 89% for dregs and grits, respectively. Dregs presented the best results for acid drainage remediation, notably with a solid:liquid (S:L) ratio of 1:10.Acid mine drainage (AMD) is caused by the oxidation of sulfur-bearing materials in the presence of oxygen and water, resulting in sulfate and metals solubilization and forming acidic solutions 1-4 . Active and inactive mining activities for metals, such as copper, lead, zinc, gold, silver and uranium, provoke potential degradation of the environment by the presence of different contaminants, particularly due to metals and sulfates in acid drainage 5 . Indeed, the acid drainage formation is an important environmental aspect of mining practices. The sulfate concentrations may reach 2,400 to 20,800 mg/L 6,7 , well above the limit of 250 mg/L established by the World Health Organization 8 . It might cause damage not only to human health but also to the environment, and depreciation of structures and equipment 2,9 , resulting in high costs for control and management by the mining companies 2,10 . Copper concentration may be in the range from 77 to 615 mg/L, with higher values in the Cu mines 1,11 . Other metals such as Al, Mn, Fe, Mg, and Zn are also commonly found in AMD in these mines 10,12 .AMD remediation can be actively accomplished off-site with the pumping of the contamination plume to a treatment plant, or passively on-site with the use of permeable reactive barriers (PRB), with lower installation and maintenance costs. It can be carried out with the flow directed to the system, by the Funnel model, or the grid-type, by the installation of a perpendicular barrier to the contamination plume 13,14 . The PRB was first proposed in Canada in the 1990s 13,15 , with different materials used as adsorbent media, from single barriers with only one material to composites of different materials, or multiple sequential barrier...

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Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

Kraft pulp mill dregs and grits as permeable reactive barrier for removal of copper and sulfate in acid mine drainage

Farage

Quina

Gando-Ferreira

et al. 2020

Sci Rep

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“…Los medios reactivos utilizados en barreras permeables deben ser compatibles con el entorno subsuperficial (Faisal et al 2018). En el caso de la arena sílica del Municipio de Alvarado, Veracruz, este material, que se obtiene de manera natural y que proviene de los sedimentos que arrastra el río Papalopan hacia el mar, donde por las corrientes marinas se deposita en la zona de estudio (Díaz et al, 2018), se ha usado como biofiltros, ya que se ha comprobado que tienen la capacidad de eliminar la turbidez, color, sólidos suspendidos, compuestos orgánicos e inorgánicos y bacterias (Payan, 2013).…”

Section: Discussionunclassified

“…El análisis granulométrico resultante (tabla 2) de la arena sílica de las costas de Alvarado, Veracruz, México, determinó que el 99.67 % de las partículas tiene un tamaño de 0.707 mm. Esta homogeneidad en el tamaño de las partículas permitirá asegurar un flujo uniforme en las BRP , y una conductividad hidráulica adecuada para la retención de iones metálicos divalentes (Courcelles et al, 2011), mediante el mecanismo de adsorción por el medio mineral (ITRC, 2011), lo que permitirá minimizar las limitaciones de flujo del agua de los acuíferos subterráneos, ya que por su tamaño homogéneo no se presentaría el bloqueo entre los espacios intergranulares (Faisal, 2018).…”

Section: Discussionunclassified

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Características de la arena sílica de Alvarado, Veracruz, México, como material para barreras reactivas permeables, para la remediación de acuíferos contaminados con lixiviados de basureros no controlados

2020

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En este artículo se caracteriza la arena sílica de las costas del municipio de Alvarado, Veracruz, México, y se compara sus propiedades con los materiales usados en las barreras reactivas permeables, para permitir su uso, como una solución de remediación de acuíferos contaminados con lixiviados de basureros no controlados. Esto se logra mediante análisis granulométrico, determinación de humedad y concentración de sílice y fierro, con lo cual se obtienen partículas con tamaño de 0.707 mm, humedad relativa de 0.52 % y concentración de SiO2 y de Fe2O3 87.38 % y 2.72 % respectivamente, lo que, al comparar con materiales reactivos en uso, cumple con los criterios para ser usado como barrera para la remediación de acuíferos con lixiviados.

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Various Remediation Measures for Groundwater Contamination

Kaur

Dawar

Singh

2021

Groundwater Geochemistry

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A review of permeable reactive barrier as passive sustainable technology for groundwater remediation

Cited by 126 publications

References 85 publications

Kraft pulp mill dregs and grits as permeable reactive barrier for removal of copper and sulfate in acid mine drainage

Kraft pulp mill dregs and grits as permeable reactive barrier for removal of copper and sulfate in acid mine drainage

Características de la arena sílica de Alvarado, Veracruz, México, como material para barreras reactivas permeables, para la remediación de acuíferos contaminados con lixiviados de basureros no controlados

Various Remediation Measures for Groundwater Contamination

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