• 자원환경지질
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• 제38권5호
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• pp.513-523
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• 2005

울산 달천광산의 지하수 및 토양 중에 함유되어 있는 비소의 오염현황을 파악하고, pH와 산화-환원 전위 값의 변화에 따른 자연저감 능력을 평가하였다. 달천광산 지역 비소 오염의 주 근원광물인 유비철석의 광미 내 함량은 최대 $2\%$이며, 비독사석, 니콜라이트, 램멜스버가이트, 거스도르파이트, 코발트석과 황철석 등의 비소함유광물 역시 비소오염의 근원이 되고 있으며, 비소함량은 광물에 따라 다양한 차이를 보인다 광미장 내 유비철석과 황철석의 표면이 부분적으로 철산화물과 철비산염으로 산화된 것을 관찰할 수 있어, 풍화반응이 상당히 진행되었음을 알 수 있다. 지하수 내 비소의 함량과 pH는 뚜렷한 상관관계를 보이지 않지만, 포화대 및 비포화대의 지하수의 비소 농도는 Eh가 감소함에 따라 농도가 감소하는 정(+)의 상관관계를 보인다. RMB(Red Mud Bauxite)는 비소제거 효율이 우수하여 달천광산 지역의 비소로 오염된 지하수 및 토양을 복원 시 자연저감 촉진제로 이용될 수 있을 것이다.

• 한국지하수토양환경학회지:지하수토양환경
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• 제18권5호
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• pp.56-64
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• 2013

After the law has been enacted for the prevention and recovery of mining damage in 2005, efforts of remediation have been started to recover heavy metal contaminated soils in agricultural land near mining sites. As part of an effort, the upper part of cultivation layer has been treated through covering up with clean soil, but the heavy metal contamination could be still spreaded to the surrounding areas because heavy metals may be remained in the lower part of cultivation layers. In this study, the most frequently occurring arsenic (As) contamination was selected to study in agricultural land nearby an abandoned metal mining site. We applied separation technologies considering the differences in the physical characteristics of soil particles (particle size, density, magnetic properties, hydrophobicity, etc.). Based on physical and chemical properties of arsenic (As) containing particles in agricultural lands nearby mining sites, we applied sieve separation, specific gravity separation, magnetic separation, and flotation separation to remove arsenic (As)-containing particles in the contaminated soil. Results of this study show that the removal efficiency of arsenic (As) were higher in the order of the magnetic separation, flotation separation, specific gravity separation and sieve separation.

• 한국습지학회지
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• 제24권2호
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• pp.142-154
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• 2022

지하수의 비소(As) 오염은 방글라데시의 주요 문제 중 하나이다. 독성은 부종, 피부암, 방광암, 폐암, 각화 과다증, 조산, 흑사병과 같은 심각한 건강 문제를 야기한다. 지하수의 오염은 주로 인위적 활동의 영향을 받는 지역의 지질학적 특성에서 발생된다. 방글라데시 국민의 대부분이 지하수에 식수를 의존하고 있기에 비소 오염 현황을 조사하고 물이 부족한 지역에 안전한 식수를 제공하기 위하여 비소 처리를 위한 수처리 기술이 필요하다. 따라서 본 연구는 92개의 논문을 기반으로 방글라데시의 지하수 As 오염 관련 최근 현황과 다양한 저비용 정화 기술에 대한 트렌드를 조사하였다. 방글라데시에서 지하수 비소 오염이 가장 높은 지역은 Brahamanbariya, Tangail, Barisal, Pabna, Patuakhali 및 Kurigram등 총 4곳이며, Magura 및 Faridpur 등의 지역에서는 비소 농도가 0.05mg/L를 초과한다. WHO 표준 가이드라인 값(<0.01 mg/L)을 만족하는 지역은 Kushtia, Khagrachari, Jessore, Dinajpur, Meherpur 및 Munshiganj 등 총 6곳으로 나타났다. 수중에서 As를 처리하는 기술이 다양하다. 시간-비용효율적인 처리 방법은 Mg-Fe계 Hydrotalcite와 유사 화합물, electro-chemical As remediation (ECAR) reactor, aerated electrocoagulation 등이 적용되고 있다. 전반적으로 예산, 운영 및 유지 관리 비용, 재료의 가용성 및 전문 지식 요구 사항 등을 고려하여 수질 내 비소를 처리해야 한다.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2002년도 총회 및 춘계학술발표회
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• pp.347-350
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• 2002

Arsenic speciation changes between As(V) and As(III) are subject to changes in accordance with redox conditions in the environment. It is common to find contaminated sites associated with mixed wastes including both organic pollutants and heavy metals. We conducted microcosm experiment under hypothesis that the co-disposed organic pollutants would influence on the arsenic forms and concentrations, via degradation of the organic pollutants and the consequent impact on the redox conditions in soil. Artificially contaminated soil samples were run for 40 days with control samples without artificial contamination. We noticed arsenic in the contaminated soil showed different behaviour compared with the arsenic in the control soil. The findings indicate degradation of organic pollutants in the contaminated soil influenced on the arsenic speciation and concentrations. A further work is needed to understand the process quantitatively. However, we could confirm that degradation of organic pollutants can influence on the abiotic processes associated with geochemical reactions in contaminated soil. Degradation of organic pollutants can increase the mobility and toxicity of arsenic in soil and sediment by changing redox conditions in the geological media and subsequently from As(V) to As(III).

• Advances in concrete construction
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• 제16권1호
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• pp.69-78
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• 2023

This investigation delves into the adverse repercussions stemming from the impact of arsenic on steel pipes concealed within soil designated for rice cultivation. Simultaneously, the study aims to ascertain effective techniques for detecting arsenic in the soil and to provide strategies for mitigating the corrosion of steel pipes. The realm of nanotechnology presents promising avenues for addressing the intricate intersection of renewable energy, oil, and environmental pollution from a novel perspective. Nanostructured materials, characterized by distinct chemical and physical attributes, unveil novel pathways for pioneering materials that exert a substantial impact across diverse realms of food production, storage, packaging, and quality control. Within the scope of the food industry, the scope of nanotechnology encompasses processes, storage methodologies, packaging paradigms, and safeguards to ensure the safety of consumables. Of particular note, silver nanoparticles, in addition to their commendable antibacterial efficacy, boast anti-fungal and anti-inflammatory prowess, environmental compatibility, minimal irritability and allergenicity, resilience to microbial antagonism, thermal stability, and robustness. Confronting the pressing issue of arsenic contamination within both environmental settings and the food supply is of paramount importance to preserve public health and ecological equilibrium. In response, this study introduces detection kits predicated upon silver nanoparticles, providing an expeditious and economically feasible avenue for identifying arsenic concentrations ranging from 0.5 to 3 ppm within rice. Subsequent quantification employs Hydride Atomic Absorption Spectroscopy (HG-AAS), which features a detection threshold of 0.05 ㎍/l. A salient advantage inherent in the HG-AAS methodology lies in its capacity to segregate analytes from the sample matrix, thereby significantly reducing instances of spectral interference. Importantly, the presence of arsenic in the soil beneath rice cultivation establishes a causative link to steel pipe corrosion, with potential consequences extending to food contamination-an intricate facet embedded within the broader tapestry of renewable energy, oil, and environmental pollution.

• 한국지하수토양환경학회지:지하수토양환경
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• 제23권5호
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• pp.17-25
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• 2018

The Boroo area in Mongolia is known to have been contaminated with heavy metals due to irregular gold mining activities and the release of mercury from gold extraction process. Soil and mine tailings were collected to analyze contamination patterns of heavy metals in the Boroo area. Analyses revealed that mercury, arsenic and cadmium concentrations exceeded the regulatory standard of the nation (Mongolia National Standard). In case of mercury, about 80% of the survey area was over the limit and the concentration distribution heavily influenced by influx of mercury through water transport. Soil contamination by arsenic was most severe that the concentration exceeded the regulatory limit in almost entire survey area, showing peak concentrations at nearby streams and river along with ore processing facilities. For cadmium, about 20% of the survey area was over the limit with the concentration distribution similar to that of arsenic.

• Environmental Engineering Research
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• 제13권1호
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• pp.33-40
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• 2008

Levels of arsenic in stream and reservoir waters affected by an abandoned gold mine were examined. The abandoned mine has been left without proper civil and remedial works preventing potential environmental hazards. Field and laboratory chemical analyses revealed that the stream waters downgradient from the mine area were severely contaminated with arsenic and furthermore the reservoir water, 2-3 km away from the mine, also contained substantial levels of As, far exceeding the Korean stream water standard. Relatively higher pH values (6.5-9.4) enhanced mobility of As and mainly sustained substantial As concentration in waters. Chemistries of the stream water, groundwater and reservoir water were dominated by two main factors including effects of mine effluent and anthropogenic agricultural activities. Considering that there has been a substantial As input to the reservoir and the reservoir water has been used for agricultural and domestic uses, immediate remedial works are essentially required.

• International Journal of Advanced Culture Technology
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• 제8권2호
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• pp.283-288
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• 2020

This study investigated the purification process of groundwater contaminated with zinc and arsenic using a permeable reactive barrier with a zero-valent iron/pumice mixture. We determined the removal rates of the contaminants for 30 days. In this study, column reactor filled with the zero-valent iron/pumice reactive mixture was used. Experimental results showed that the mixture exhibited an almost complete removal of the zinc and arsenic ions. Arsenic was removed via co-precipitation and adsorption processes while zinc ions were asorbed in active sites.The purification process of water from the metal ionscontinued for 30 days with constant hydraulic conductivity because of the enhanced porosity of the pumice and interparticle distance between the zero-valent iron and pumice. Contaminants removal rates and the remediation mechanism for each reactive system are described in this paper.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2005년도 INTERNATIONAL SYMPOSIUM ON SOIL & GROUNDWATER ENVIRONMENT
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• pp.171-171
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• 2005

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2005년도 INTERNATIONAL SYMPOSIUM ON SOIL & GROUNDWATER ENVIRONMENT
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• pp.91-92
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• 2005