Copper smelting is the main source of arsenic pollution in the environment,and China is the largest country for copper smelting.Taking 2022 as an example,this study analyzes the distribution and fate of arsenic across...Copper smelting is the main source of arsenic pollution in the environment,and China is the largest country for copper smelting.Taking 2022 as an example,this study analyzes the distribution and fate of arsenic across the copper mining,beneficiation,and smelting processes using a life-cycle approach,providing important insights for arsenic pollution prevention and the resource utilization of arsenic-bearing solid waste.The results show that the amount of As in waste rock,tailing and concentrate are 53483 t,86632 t,76162 t,respectively.After smelting treatment,the amount of arsenic in different types of solid waste,wastewater,waste gas and products are 76128 t,1 t,31 t and 2 t,respectively,and the proportion in arsenic sulfide slag is the highest(55%).The amount of emission to the environment is 32 t,accounting for only 0.04%of total amount.In the future,key considerations are to improve the resource utilization rate of arsenic-containing solid waste(tailing,smelting slag),especially arsenic sulfide slag,and to digest its environmental risk.展开更多
The National Mineral Resources Planning(2016-2020)issued by the Ministry of Land and Resources specifies national planning of 9copper mining area across the country.1.Baijiazuizi Copper Nickel Mine The Baijiazuizi cop...The National Mineral Resources Planning(2016-2020)issued by the Ministry of Land and Resources specifies national planning of 9copper mining area across the country.1.Baijiazuizi Copper Nickel Mine The Baijiazuizi copper nickel mining area is a super-large copper nickel deposit in Jinchang City with total proven reserves of 3.展开更多
To address the critical gap in linking multi-compartmental transfer with risks of trace metals(Cd,Pb,As,Cr,Ni)in mining environments.This study systematically investigated the trans-media migration of Cd,Pb,As,Cr,and ...To address the critical gap in linking multi-compartmental transfer with risks of trace metals(Cd,Pb,As,Cr,Ni)in mining environments.This study systematically investigated the trans-media migration of Cd,Pb,As,Cr,and Ni in China’s Dexing copper mining district through paired sampling of water-amphibians,soil-earthworms,and air-lichens.Advanced methodologies were employed,including ICP-MS quantification for heavy metals,geochemical indices(Igeo,BCF,BAF)to assess bioavailability,NMDS for source apportionment,and HPLC to detect DNA methylation alterations.Aquatic systems exhibited severe Cd/Pb enrichment(16.25-24.42μg/L;11-15×WHO limits),while agricultural soils showed extreme Cd contamination(1.5 mg/kg;15×background).Biota displayed metal-specific accumulation:frogs achieved BCFs>1,000 for Pb/Cd,earthworms showed pH-modulated BAFs>2.5 for Cd/As,and lichens recorded 100-1,000×atmospheric Cr enrichment.NMDS resolved three contamination pathways:mining-derived Cd/Pb/As(MDS1=2.56),atmospheric Cr(PC2=1.84),and geogenic Ni.Cd dominated ecological risks(Eri=554.25;RI 300),while atmospheric Cr drove carcinogenic risks(TCR=4.11×10^(-5))exceeding safety thresholds.The source-media-biota-risk framework pioneers the integration of geochemical transport with epigenetic toxicity biomarkers,demonstrating that sub-lethal Cd/Pb exposure induces genome-wide DNA hypomethylation(2.4%-6.6%reduction;ρ=−0.71 to−0.91).This paradigm shift prioritizes bioavailability-informed regulations over concentration-based metrics,offering actionable strategies for sustainable development goals-aligned mining pollution control.展开更多
A major natural hazard associated with LGOM (Legnica-Glogow Copper Mining) mining is the dynamic phenomena occurrence, physically observed as seismic tremors. Some of them generate effects in the form of relaxations...A major natural hazard associated with LGOM (Legnica-Glogow Copper Mining) mining is the dynamic phenomena occurrence, physically observed as seismic tremors. Some of them generate effects in the form of relaxations or bumps. Long-term observations of the rock mass behaviour indicate that the degree of seismic hazard, and therefore also seismic activity in the LGOM area, is affected by the great depth of the copper deposit, high-strength rocks as well as the ability of rock mass to accumulate elastic energy. In this aspect, the effect of the characteristics of initial stress tensor and the orientation of considered mining panel in regards to its components must be emphasised. The primary objective of this study is to answer the question, which of the factors considered as "influencing" the dynamic phenomena occurrence in copper mines have a statistically significant effect on seismic activity and to what extent. Using the general linear model procedure, an attempt has been made to quantify the impact of different parameters, including the depth of deposit, the presence of goaf in the vicinity of operating mining panels and the direction of mining face advance, on seismic activity based on historical data from 2000 to 2010 concerned with the dynamic phenomena recorded in different mining panels in Rudna mine. The direction of mining face advance as well as the goaf situation in the vicinity of the mining panel are of the greatest interest in the case of the seismic activity in LGOM. It can be assumed that the appropriate manipulation of parameters of mining systems should ensure the safest variant of mining method under specific geological and mining conditions.展开更多
A life-cycle assessment(LCA) model was developed to comparatively analyze the use of manual and automated mining equipment in underground copper mine sites.Processes and key variables that were determined to contribut...A life-cycle assessment(LCA) model was developed to comparatively analyze the use of manual and automated mining equipment in underground copper mine sites.Processes and key variables that were determined to contribute to the environmental impact of operations were identified for six mine sites in a range of geographical locations around the world.Our model successfully calculated carbon dioxide(CO_(2) eq.) emissions to within 4.9% of the reported annual emissions from the site's respective companies.The implementation of automation was found to decrease global warming potential by a range of 11.4%-18.0% or 3.9-17.9 kg CO_(2) eq./t ore.The model was also used to estimate the average reductions across several impact potentials including,acidification(11.9%-17.8%),eutrophication(7.6%-13.7%),and human toxicity(16.0%-20.0%).World-wide the mining industry is moving toward introducing significantly more automation to enhance productivity and safety.This novel work demonstrates an important third dimension that can support this move,reduced environmental impact.展开更多
This study presents a case study on the heavy metal analysis of soil and plant samples around the Murgul copper mine,one of the first and most important mining areas in Turkey.An attempt has been made to investigate t...This study presents a case study on the heavy metal analysis of soil and plant samples around the Murgul copper mine,one of the first and most important mining areas in Turkey.An attempt has been made to investigate the status of trace elements like Al^(3+),Fe^(2+),Cu^(2+),Zn^(2+),Pb^(2+),Ni^(2+),Co^(2+)and Cd^(2+)in soils and plants.The sampling localities were taken from 500 m,600 m,and 1000 m altitudes around the factory and at 1400 m in the forest zone.The aboveground parts and foliage ash of Silene compacta,Tussilago farfara,Smilax excelsa,Rhododendron ponticum,R.luteum,and herbal mix were analysed.The results of analysis have revealed the minimum and maximum concentrations measured in the plants as follows;aluminium(20-8985 mg kg^(-1)),cadmium(0.0-0.5 mg kg^(-1)),cobalt(0.0-5.5 mg kg^(-1)),copper(0.0-347.5 mg kg^(-1)),iron(25-9320 mg kg^(-1)),lead(2-51 mg kg^(-1)),nickel(1.5-16.5 mg kg^(-1)),and zinc(13.0-221.0 mg kg^(-1)).In the soil the concentrations of aluminium,cadmium,cobalt,copper,iron,lead,nickel,and zinc vary between 33-457,0.0-0.0,0.0-0.4,0.1-88.7,14-50,0.3-4.1,0.2-0.8,and 4.0-20.3 mg kg^(-1) respectively.These findings enlighten the fact that copper is generally toxic in the soils as well as plants.Silene compacta has been recorded as a high copper accumulator,behaving as a healthy plant on the polluted sites of the area alongside the Murgul creek(especially at 600 m).This study stresses the fact that it is imperative to assess and monitor the levels of heavy metals in the environment due to anthropogenic activities,including mining,for evaluation of human exposure and for sustainable environment.展开更多
On March 16,the commissioning ceremony of the Pulang Copper Mine phase I mining and dressing project was held as scheduled.The Pulang Copper Mine,located in the 3,500-meter altitude snowy plateau of Shangri-la
文摘Copper smelting is the main source of arsenic pollution in the environment,and China is the largest country for copper smelting.Taking 2022 as an example,this study analyzes the distribution and fate of arsenic across the copper mining,beneficiation,and smelting processes using a life-cycle approach,providing important insights for arsenic pollution prevention and the resource utilization of arsenic-bearing solid waste.The results show that the amount of As in waste rock,tailing and concentrate are 53483 t,86632 t,76162 t,respectively.After smelting treatment,the amount of arsenic in different types of solid waste,wastewater,waste gas and products are 76128 t,1 t,31 t and 2 t,respectively,and the proportion in arsenic sulfide slag is the highest(55%).The amount of emission to the environment is 32 t,accounting for only 0.04%of total amount.In the future,key considerations are to improve the resource utilization rate of arsenic-containing solid waste(tailing,smelting slag),especially arsenic sulfide slag,and to digest its environmental risk.
文摘The National Mineral Resources Planning(2016-2020)issued by the Ministry of Land and Resources specifies national planning of 9copper mining area across the country.1.Baijiazuizi Copper Nickel Mine The Baijiazuizi copper nickel mining area is a super-large copper nickel deposit in Jinchang City with total proven reserves of 3.
基金financially supported by the Fundation of Key Laboratory of Ministry of Natural Resources for Eco-geochemistry (ZSDHJJ202202)Geological Investigation and Evaluation of Shale Gas in Complex Structural Areas of the Middle Yangtze plate(DD20250200604) of China Geological Survey+1 种基金the Natural Science Foundation of Guangdong Province,China(2023A1515140061)the Dongguan Science and Technology of Social Development Program(20231800935842, 20231800940562).
文摘To address the critical gap in linking multi-compartmental transfer with risks of trace metals(Cd,Pb,As,Cr,Ni)in mining environments.This study systematically investigated the trans-media migration of Cd,Pb,As,Cr,and Ni in China’s Dexing copper mining district through paired sampling of water-amphibians,soil-earthworms,and air-lichens.Advanced methodologies were employed,including ICP-MS quantification for heavy metals,geochemical indices(Igeo,BCF,BAF)to assess bioavailability,NMDS for source apportionment,and HPLC to detect DNA methylation alterations.Aquatic systems exhibited severe Cd/Pb enrichment(16.25-24.42μg/L;11-15×WHO limits),while agricultural soils showed extreme Cd contamination(1.5 mg/kg;15×background).Biota displayed metal-specific accumulation:frogs achieved BCFs>1,000 for Pb/Cd,earthworms showed pH-modulated BAFs>2.5 for Cd/As,and lichens recorded 100-1,000×atmospheric Cr enrichment.NMDS resolved three contamination pathways:mining-derived Cd/Pb/As(MDS1=2.56),atmospheric Cr(PC2=1.84),and geogenic Ni.Cd dominated ecological risks(Eri=554.25;RI 300),while atmospheric Cr drove carcinogenic risks(TCR=4.11×10^(-5))exceeding safety thresholds.The source-media-biota-risk framework pioneers the integration of geochemical transport with epigenetic toxicity biomarkers,demonstrating that sub-lethal Cd/Pb exposure induces genome-wide DNA hypomethylation(2.4%-6.6%reduction;ρ=−0.71 to−0.91).This paradigm shift prioritizes bioavailability-informed regulations over concentration-based metrics,offering actionable strategies for sustainable development goals-aligned mining pollution control.
文摘A major natural hazard associated with LGOM (Legnica-Glogow Copper Mining) mining is the dynamic phenomena occurrence, physically observed as seismic tremors. Some of them generate effects in the form of relaxations or bumps. Long-term observations of the rock mass behaviour indicate that the degree of seismic hazard, and therefore also seismic activity in the LGOM area, is affected by the great depth of the copper deposit, high-strength rocks as well as the ability of rock mass to accumulate elastic energy. In this aspect, the effect of the characteristics of initial stress tensor and the orientation of considered mining panel in regards to its components must be emphasised. The primary objective of this study is to answer the question, which of the factors considered as "influencing" the dynamic phenomena occurrence in copper mines have a statistically significant effect on seismic activity and to what extent. Using the general linear model procedure, an attempt has been made to quantify the impact of different parameters, including the depth of deposit, the presence of goaf in the vicinity of operating mining panels and the direction of mining face advance, on seismic activity based on historical data from 2000 to 2010 concerned with the dynamic phenomena recorded in different mining panels in Rudna mine. The direction of mining face advance as well as the goaf situation in the vicinity of the mining panel are of the greatest interest in the case of the seismic activity in LGOM. It can be assumed that the appropriate manipulation of parameters of mining systems should ensure the safest variant of mining method under specific geological and mining conditions.
基金Sudbury Integrated Nickel Operations, Mitacs [IT11703], Laurentian Universitythe Goodman School of Mines for their continued support of the research。
文摘A life-cycle assessment(LCA) model was developed to comparatively analyze the use of manual and automated mining equipment in underground copper mine sites.Processes and key variables that were determined to contribute to the environmental impact of operations were identified for six mine sites in a range of geographical locations around the world.Our model successfully calculated carbon dioxide(CO_(2) eq.) emissions to within 4.9% of the reported annual emissions from the site's respective companies.The implementation of automation was found to decrease global warming potential by a range of 11.4%-18.0% or 3.9-17.9 kg CO_(2) eq./t ore.The model was also used to estimate the average reductions across several impact potentials including,acidification(11.9%-17.8%),eutrophication(7.6%-13.7%),and human toxicity(16.0%-20.0%).World-wide the mining industry is moving toward introducing significantly more automation to enhance productivity and safety.This novel work demonstrates an important third dimension that can support this move,reduced environmental impact.
文摘This study presents a case study on the heavy metal analysis of soil and plant samples around the Murgul copper mine,one of the first and most important mining areas in Turkey.An attempt has been made to investigate the status of trace elements like Al^(3+),Fe^(2+),Cu^(2+),Zn^(2+),Pb^(2+),Ni^(2+),Co^(2+)and Cd^(2+)in soils and plants.The sampling localities were taken from 500 m,600 m,and 1000 m altitudes around the factory and at 1400 m in the forest zone.The aboveground parts and foliage ash of Silene compacta,Tussilago farfara,Smilax excelsa,Rhododendron ponticum,R.luteum,and herbal mix were analysed.The results of analysis have revealed the minimum and maximum concentrations measured in the plants as follows;aluminium(20-8985 mg kg^(-1)),cadmium(0.0-0.5 mg kg^(-1)),cobalt(0.0-5.5 mg kg^(-1)),copper(0.0-347.5 mg kg^(-1)),iron(25-9320 mg kg^(-1)),lead(2-51 mg kg^(-1)),nickel(1.5-16.5 mg kg^(-1)),and zinc(13.0-221.0 mg kg^(-1)).In the soil the concentrations of aluminium,cadmium,cobalt,copper,iron,lead,nickel,and zinc vary between 33-457,0.0-0.0,0.0-0.4,0.1-88.7,14-50,0.3-4.1,0.2-0.8,and 4.0-20.3 mg kg^(-1) respectively.These findings enlighten the fact that copper is generally toxic in the soils as well as plants.Silene compacta has been recorded as a high copper accumulator,behaving as a healthy plant on the polluted sites of the area alongside the Murgul creek(especially at 600 m).This study stresses the fact that it is imperative to assess and monitor the levels of heavy metals in the environment due to anthropogenic activities,including mining,for evaluation of human exposure and for sustainable environment.
文摘On March 16,the commissioning ceremony of the Pulang Copper Mine phase I mining and dressing project was held as scheduled.The Pulang Copper Mine,located in the 3,500-meter altitude snowy plateau of Shangri-la
