• Title/Summary/Keyword: Acid Rock Drainage(ARD)

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Generation Characteristics and Prediction of Acid Rock Drainage(ARD) of Road Cut Slopes (건설현장 절취사면의 산성배수 발생특성과 잠재적 산발생능력 평가)

  • Lee, Gyoo-Ho;Kim, Jae-Gon;Lee, Jin-Soo;Chon, Chul-Min;Park, Sam-Gyu
    • Proceedings of the Korean Geotechical Society Conference
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    • 2005.03a
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    • pp.491-498
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    • 2005
  • Acid Rock Drainage(ARD) is the product formed by the atmospheric(i.e. by water, oxygen and carbon dioxide) oxidation of the relatively common iron-sulphur minerals pyrite($FeS_2$). ARD causes the acidification and heavy metal contamination of water and soil and the reduction of slope stability. In this study the generation characteristics and the prediction of ARD of various road cut slopes were studied. An attempt to classify the rocks into several groups according to their acid generation potentials was made. Acid Base Accounting(ABA) tests, commonly used as a screening tool in ARD predictions, were performed. Sixteen rock samples were classified into PAF(potentially acid forming) group and four rock samples into NAF(non-acid forming) group. The chemical analysis of water samples strongly suggested that ARD with high content of heavy metals and low pH could pollute the ground water and/or stream water.

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Damage Conditions of the Slope Structures due to ARD (산성암반배수에 의한 사면구조물의 피해 현황)

  • Park, Sam-Gyu;Kim, Jae-Gon;Lee, Jin-Soo;Kim, Tong-Kwon;Ko, Kyung-Seok;Lee, Gyoo-Ho
    • Proceedings of the Korean Geotechical Society Conference
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    • 2005.03a
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    • pp.878-883
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    • 2005
  • This paper describes the effect of acid rock drainage(ARD) produced from the cut slope on the slope structures. Acid rock drainage is originated from a rock quarry located in coal mine zone and mineralization belt of Chosen Supergroup and Ogcheon group, andesite with the pyrite, and acid sulfate soils of Tertiary in Korea. The cut slope, where acid rock drainage comes out, almost has been constructed by shotcrete and planting works. According to the field observation results, in most cases, the acid rock drainage has an adverse effect on slope structures. The shotcrete, anchors and rock bolts produced corrosive action, and bad germination and growth diseases of covering plants of the slope planting construction due to ARD.

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Damage Conditions and Assessment for Cut Slope Structures due to Acid Rock Drainage (산성암반배수에 의한 절취사면 구조물의 피해 현황과 평가)

  • Lee Gyoo Ho;Kim Jae Gon;Park Sam-Gyu;Lee Jin-Soo;Chon Chul-Min;Kim Tack Hyun
    • Journal of the Korean Geotechnical Society
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    • v.21 no.5
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    • pp.83-92
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    • 2005
  • The aim of this study was to investigate damage conditions of cut slope structures due to acid rock drainage (ARB) and to assess the acid production potential of various rocks. Acid rock drainage is produced by the oxidation of sulfide minerals contained in coal mine zone and mineralization belt of Pyeongan supergroup and Ogcheon group, pyrite-bearing andesite, and Tertiary acid sulfate soils in Korea. Most of cut slopes producing ARB have been treated with shotcrete to reduce ARD. According to the field observations, ARD had an adverse effect on slope structures. The corrosion of shotcrete, anchors and rock bolts and the bad germination and growth diseases of covering plants due to ARD were observed in the field. The concentration of heavy metals and pH of ARD from cut slope exceeded the environmental standard, indicating a high potential of environmental pollution of surrounding soil, surface water and ground water by the ARD. According to acid base accounting (ABA) of the studied samples, hydrothermally altered volcanic rocks, tuffs, coaly shales, tailings of metallic mine had a relatively high potential of acid production but gneiss and granite had no or less acid production potential. It is expected that the number of cut slopes will increase hereafter considering the present construction trend. In order to reduce the adverse effect of ARD in construction sites, we need to secure the data base for potential ARD producing area and to develop the ARD reduction technologies suitable.

The Acid Rock Drainage and Hydraulic Characteristics of the Waste Rock Dump (폐석적치장의 산성배수발생 및 수리특성 분석)

  • Cheong, Young Wook;Ji, Sang Woo;Yim, Gil Jae
    • Journal of the Korean GEO-environmental Society
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    • v.5 no.4
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    • pp.13-24
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    • 2004
  • This study was carried out to plan the prevention of the generation and discharge of Acid Rock Drainage (ARD). The Acid Base Accounting(ABA) test was performed for geological materials such as pit wall, waste rock and stream sediments near the Imgi abandoned pyrophyllite mine in Busan, Korea. In addition, hydraulic characteristics were tested with the disk tension infiltrometer around the waste rock dump. Maximum Potential Acidity(MPA) of geological materials near the Imgi mine was 246.942kg $H_2SO_4/t$, and maximum Acid Neutralising Capacity(ANC) was 8.7kg $H_2SO_4/t$. These results indicate the pit wall and waste rock, except most of stream sediments are acid generating geological materials. These have salt and free hydrogen ion which resulted from oxidation of sulfides. Hence they could be convert rain water to acid rock drainage. Although the waste rock dump of the Imgi mine have very low infiltration rate, slopes of the waste rock dump have many "V" type erosion gullies and multi-layers. These gullies and multi-layers have coarse clastic particle layers which have very large hydraulic conductivity. Through this coarse clastic particle layer a large part of rain flow into ground. And also this layer could function as aeration path which induced oxidation of sulfide minerals and generation of ARD continuously.

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Generation Characteristics and Prediction of Acid Rock Drainage(ARD) of Cut Slopes (건설현장 절취사면의 산성암반배수 발생특성과 잠재적 산발생능력 평가)

  • Lee, Gyoo-Ho;Kim, Jae-Gon;Lee, Jin-Soo;Chon, Chul-Min;Park, Sam-Gyu;Kim, Tack-Hyun;Ko, Kyung-Seok;Kim, Tong-Kwon
    • Economic and Environmental Geology
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    • v.38 no.1
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    • pp.91-99
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    • 2005
  • Acid Rock Drainage(ARD) is the product formed by the atmospheric(i.e. by water, oxygen and carbon dioxide) oxidation of the relatively common iron-sulphur mineral pyrite($FeS_2$). ARD causes the acidification and heavy metal contamination of water and soil and the reduction of slope stability. In this paper the generation characteristics and the prediction of ARD of various cut slopes were studied. An attempt to classify the rocks into several groups according to their acid generation potentials was made. Acid Base Accounting(ABA) tests, commonly used as a screening tool in ARD predictions, were performed. Fourteen rock samples were classified into PAF(potentially acid forming) group and four rock samples into NAF(non-acid forming) group. The chemical analysis of water samples strongly suggested that ARD with high content of heavy metals and low pH could pollute the ground water and/or stream water.

Assessment of Acid Rock Drainage Production Potential and Damage Reduction Strategy: A Case Study of Tunnel Construction Area (암석의 산성배수 발생개연성 평가 및 피해저감대책: 터널건설예정구간 사례)

  • Kim, Jae-Gon;Lee, Jin-Soo;Kim, Tong-Kwon
    • Economic and Environmental Geology
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    • v.41 no.3
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    • pp.335-344
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    • 2008
  • The acid rock drainage (ARD) production potential of rock was assessed for a tunnel construction area, Kimhae and the damage reduction strategy was discussed based on the ARD risk evaluation. The geology of the studied area consisted of Mesozoic quartz porphyry, sandstone, tuff and granite. Sulfides occurred as a disseminated type in quartz porphyry and granite, and a vein type in sandstone. Quartz porphyry and sandstone with a high content of sulfide were classified as a potentially ARD forming rock. The drainage originated from those rocks may acidify and contaminate the surrounding area during the tunnel construction. Therefore, the drainage should be treated before it is discharged. A slope stability problem due to the ARD was also expected and the coating technology was recommended for the reduction of ARD generation before the application of supplementary work for enhancing slope stability such as shotcrete and anchor. From the ARD risk analysis, those rocks should not be used as aggregate and be used as bank fill material with the system for the minimum contact with rain water and ground-water.

Assessment and Damage Reduction Strategy of Acid Rock Drainage in Highway Construction Site: ○○ Highway Construction Site (고속도로 건설현장의 산성배수 발생개연성평가 및 피해저감대책: ○○고속도로건설현장)

  • Lee, Jin-Soo;Kim, Jae Gon;Park, Jeong-Sik;Chon, Chul-Min;Nam, In-Hyun
    • Economic and Environmental Geology
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    • v.46 no.5
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    • pp.411-424
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    • 2013
  • Assessment and damage reduction strategy of acidic rock drainage were conducted in a section of ${\bigcirc}{\bigcirc}$ highway construction site. The geology of the studied section consists of Icheonri sandstone and intermediate to acidic volcanic rocks. Sulfides occur as a disseminated type in sandstone and volcanics which were altered by the hydrothermal solution of granite intrusion. Volcanics and sandstone with a high content of sulfide were classified as a potentially acid rock drainage(ARD) forming rock. The drainage originated from those rocks may acidify and contaminate the surrounding area during the highway construction. Therefore, the drainage should be treated before it is discharged. A slope landslide hazard due to the ARD was also expected and the coating technology was recommended for the reduction of ARD generation as a preemptive measure before reinforcement work for enhancing slope stability such as shotcrete and anchor. According to the ARD risk analysis, those rocks should not be used as cement aggregate, but only to be used as a bank fill material of a filling-up system that allows minimal contact with rainfall and groundwater.

Efficiency of Apatite and Limestone in Removing Arsenic from Acid Rock Drainage at the Goro Abandoned Mine (인회석 및 석회석을 이용한 고로폐광산 ARD 내의 비소 저감효율 연구)

  • Park, Myung-Ho;Lee, Young-Woo;Hur, Yon-Kang;Park, Hae-Cheol;Sa, Sung-Oh;Choi, Jung-Chan
    • The Journal of Engineering Geology
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    • v.21 no.3
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    • pp.231-237
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    • 2011
  • An active apatite drainage system has been developed at the Goro abandoned mine, comprising a grit cell, a reaction cell, and a precipitation pond. Leachate from an abandoned adit and tailing ponds is collected in a pipeline and is transported to the apatite drainage system under the influence of the hydraulic gradient. The results of a laboratory experiment performed in 2004 indicate that the reaction cell requires 38.8 ton/year of apatite and that precipitate will have to be removed from the precipitation pond every 3 months. The purpose of this study is to evaluate a laboratory test on the efficiency of limestone and apatite in removing arsenic from ARD (acid rock drainage), and to evaluate the suitability of materials for use as a precipitant for the leachate treatment disposal system. The laboratory tests show that the arsenic removal ratios of limestone and apatite are 67.4%-98.3%, and the arsenic removal ratio of apatite is inversely proportional to its grain size. The arsenic compounds are assumed to be Johnbaumnite and Ca-arsenic hydrate. Therefore, apatite and phosphorous limestone can be used as a precipitant for the removal of arsenic, although it is difficult to remove arsenic from ARD when it occurs in low concentrations.

Evaluation for Predicting Acid-forming Potential of Domestic Forest Aggregate Samples (국내 산림골재 시료의 산성암석배수 발생 가능성 예측 평가)

  • Yim, Gil-Jae;Jang, Jeong-Yun;Cho, Dong-Wan;Ji, Sangwoo;Cheong, Young-Wook;Hong, Sei-Sun;Lee, Jin-Young
    • Economic and Environmental Geology
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    • v.54 no.5
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    • pp.561-572
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    • 2021
  • Aggregate collection is taking place in many areas in Korea, resulting in large cut slopes or large amounts of cut rocks. If the development site for such aggregate collection is a stratum accompanied by sulfide minerals, Acid Rock Drainage (ARD) may occur, which may cause environmental pollution in the development site and surrounding areas. As a result of the study on forest aggregate samples, most of the samples were classified as acid-forming potential samples, and among them, some samples from Gwangju, Goyang, and Sokcho were classified as potential acid-generating samples. This can be expected to affect the quality of aggregates when a large amount of aggregate is used in the future. Therefore, it is judged that these forest aggregates need to be managed when they are used. By predicting the occurrence of ARD through the acid-generating ability test, it is expected that economic losses that may occur in the future can be reduced, and it is judged that the problem of surrounding environmental pollution can be further alleviated.