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Seafloor Massive Sulphides: Assessment of Sustainable Mining Potential through an Iterative Decision-making FrameworkAVERY, CHRISTOPHER SCOTT 12 December 2011 (has links)
Extraction of metals from the seafloor has been considered for decades, beginning with manganese nodules in the 1970s. Today, the targets are massive sulphide deposits rich in copper, zinc, gold, and silver that are associated with hydrothermal vents or black smoker chimneys that occur at divergent and convergent plate margins such as mid-ocean ridges and volcanic island arcs respectively.
A recent objective of the mining industry is to develop industry practices that coincide with concepts of sustainability or sustainable development. This objective, known by some as sustainable mining, has indeed become an essential part of the commissioning of any new project, regardless of geographical location. While there has been much work on sustainable mining practice for terrestrial mining, these frameworks are not directly applicable to seafloor projects.
There are two problems facing the development of a seabed mining industry. First, there is a regulatory vacuum when considering the mining of seabed deposits, leading to important policy issues. Second, the economic, environmental, and social impacts of a seabed mining project are theoretical, and the real impacts are unknown. Thus, the identification, characterization, and analysis of the sustainability issues facing a seabed mining project are essential steps. To assist with performing these three steps, this thesis provides a process model based on the IDEF0 (Integration DEFinition) standard to assess seafloor massive sulphide mining projects from sustainable mining perspectives. This adaptation of IDEF0 provides a clear, visual representation of a hierarchical framework that can be used to identify “go no-go” sustainability criteria to assist decision makers interested in the potential development of an ore body. / Thesis (Master, Mining Engineering) -- Queen's University, 2011-12-12 12:54:28.436
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Global Scenarios of Metal Mining, Environmental Repercussions, Public Policies, and Sustainability: A ReviewPokhrel, Lok R., Dubey, Brajesh 01 January 2013 (has links)
With rising valuation of mineral commodities, mining has been envisioned as a profitable industry regardless of many challenges it entails. This comprehensive review provides the state of knowledge about several aspects of the metal mining industry, including (a) the basic mining processes with reasons for mine closure, (b) the potential environmental and human health impacts associated with mining, (c) the potential techniques for impact mitigation, (d) the latest production statistics for the base and precious metals with identification of currently operational major metal mines for different countries, and (e) how mining activities are regulated in different nations. Finally, the authors provide critical appraisal on the debatable issue of mining and sustainability to stimulate thoughts on how metal mining can be made sustainable, and suggest a path forward.
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Global Scenarios of Metal Mining, Environmental Repercussions, Public Policies, and Sustainability: A ReviewPokhrel, Lok R., Dubey, Brajesh 01 January 2013 (has links)
With rising valuation of mineral commodities, mining has been envisioned as a profitable industry regardless of many challenges it entails. This comprehensive review provides the state of knowledge about several aspects of the metal mining industry, including (a) the basic mining processes with reasons for mine closure, (b) the potential environmental and human health impacts associated with mining, (c) the potential techniques for impact mitigation, (d) the latest production statistics for the base and precious metals with identification of currently operational major metal mines for different countries, and (e) how mining activities are regulated in different nations. Finally, the authors provide critical appraisal on the debatable issue of mining and sustainability to stimulate thoughts on how metal mining can be made sustainable, and suggest a path forward.
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An analysis of the sustainable mining of selected minerals and metals in South Africa / Johannes Zacharias EngelbrechtEngelbrecht, Johannes Zacharias January 2011 (has links)
The study was done to understand the direction in which South Africa’s mining model is developed and the changes required for South Africa to take its rightful place in the mainstream spheres of economic and commercial affairs. The huge demand for African commodities is creating new opportunities for African governments to realise the hopes of their people for a better life. The objective of this study is to analyse the South African mining model to determine the sustainability of mining in South Africa. It was done by analysing Chrome, Coal and Platinum as selected minerals and metals. A literature study was conducted and the focus was on the reserves and resources that South Africa has in these minerals and metals, the current supply and demand factors and estimates were done on the future demand. The last part was to determine the state of and planned expansions of infrastructure like Electricity supply, Shipping Ports, Rail transport, Road transport and Water supply that mining operations require. Following the literature study, a survey was conducted in order to support the findings of the literature study and to determine the most important factors that can influence investment decisions in the mining sector by evaluating the investor’s acceptability of South Africa’s mineral and resource industry.
It was concluded that the South Africa mining module is well developed with the required skills and knowledge for sustainable mining in the future. It was determined that there would be a future market to maintain a sustainable mining module. The major risk for the sustainable mining module is the reliance on infrastructures required in the mining environment, which is under governmental management. Survey results concluded that South Africa is not an investor-friendly country mainly because of its ineffective administration processes to perform mining. Investors are also seeking for independence of regulatory institutions.
A recommendation for future research would be to determine the optimum South African Governmental needs of the investment in infrastructure capital to ensure that the country’s economy will be able to grow.The study was done to understand the direction in which South Africa’s mining model is developed and the changes required for South Africa to take its rightful place in the mainstream spheres of economic and commercial affairs. The huge demand for African commodities is creating new opportunities for African governments to realise the hopes of their people for a better life. The objective of this study is to analyse the South African mining model to determine the sustainability of mining in South Africa. It was done by analysing Chrome, Coal and Platinum as selected minerals and metals. A literature study was conducted and the focus was on the reserves and resources that South Africa has in these minerals and metals, the current supply and demand factors and estimates were done on the future demand. The last part was to determine the state of and planned expansions of infrastructure like Electricity supply, Shipping Ports, Rail transport, Road transport and Water supply that mining operations require. Following the literature study, a survey was conducted in order to support the findings of the literature study and to determine the most important factors that can influence investment decisions in the mining sector by evaluating the investor’s acceptability of South Africa’s mineral and resource industry.
It was concluded that the South Africa mining module is well developed with the required skills and knowledge for sustainable mining in the future. It was determined that there would be a future market to maintain a sustainable mining module. The major risk for the sustainable mining module is the reliance on infrastructures required in the mining environment, which is under governmental management. Survey results concluded that South Africa is not an investor-friendly country mainly because of its ineffective administration processes to perform mining. Investors are also seeking for independence of regulatory institutions.
A recommendation for future research would be to determine the optimum South African Governmental needs of the investment in infrastructure capital to ensure that the country’s economy will be able to grow. / Thesis (M.B.A.)--North-West University, Potchefstroom Campus, 2012
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Influência da relação com os stakeholders na presença de indicadores de sustentabilidade: estudos de casos no setor de mineração do Brasil / Influence of relationship with stakeholders on presence of sustainability indicators: case studies in the Brazilian mining sectorCastro, Paulo Henrique de 29 January 2019 (has links)
Este trabalho teve como objetivo geral: entender como as priorizações dadas aosstakeholders e o engajamento com mesmos podem refletir na presença de indicadores de sustentabilidade das organizações mineradoras no Brasil. Os objetivos específicos foram: revelar quem são osstakeholders priorizados e o por quê; e perceber qual a importância tem o engajamento com as partes interessadas na busca pelo desenvolvimento sustentável das mineradoras. Na fundamentação teórica foram abordados os principais conceitos da teoria de stakeholders, desenvolvimento sustentável, modelos e indicadores para mensurar o desenvolvimento sustentável e influenciadores do desempenho socioambiental. Dois estudos de casos foram realizados, tendo como fontes de dados: entrevistas em profundidade, relatórios oficiais, observação direta e a literatura. Os dados foram tratados conforme técnicas de análise de conteúdo e puderam evidenciar a priorização dada às comunidades locais e colaboradores. Todas as fontes de dados apresentaram indícios do tratamento diferenciado desses dois grupos de stakehoders. Os impactos causados às comunidades e colaboradores juntamente com o posicionamento estratégico e a necessidade de legitimidade para operar parecem ser os grandes impulsionadores da priorização apresentada. O engajamento com os grupos de partes interessadas ocorre desde o planejamento inicial das operações até o fechamento da mina. O contato permite o compartilhamento de boas práticas, o que pode contribuir para o desenvolvimento sustentável das mineradoras e grupos envolvidos. As empresas assumem responsabilidades perante os stakeholderse garantem ações que evidenciem os compromissos, inclusive o monitoramento das questões consideradas importantes por grupos salientes. Assim, os indicadores presentes refletem a priorização dada às comunidades e colaboradores bem como o engajamento contínuo com os mesmos. Os resultados podem contribuir com literatura ao apresentar novas formas de priorizar os stakeholders diferentes daquelas já consagradas na teoria. Isso sugere uma discussão da efetividade dos antigos modelos de priorização nos variados tipos de indústrias. Quanto à contribuição gerencial, o setor de mineração poderá encontrar subsídio para melhorar o relacionamento com os stakeholders em busca pelo desenvolvimento sustentável, algo essencial para perenidade desse setor cuja importância é significativa para a economia brasileira / The objective of this study was to understand how the prioritizations given to stakeholders and the engagement with them can reflect the presence of sustainability indicators of mining organizations in Brazil. The specific objectives were: to reveal who are the prioritized stakeholders and why; realize the importance of engagement with stakeholders for the sustainable development of mining companies.Inthe backgroud, the main concepts of stakeholder theory, sustainable development, models and indicators to measure sustainable development and influencers of social and environmental performance were addressed. Two case studies were carried out, having as data-base: interviews, official reports, direct observation and the literature. The data were treated according to content analysis techniques and showed the prioritization given to the local communities and employees. All data sources showed evidence of differential treatment to these two groupsofstakehoders. The impacts caused to communities and employees, the strategic of the companies and the need for legitimacy to operate are the main drivers of the prioritization presented. Engagement with stakeholder groups occurs since the initial planning of operations to the closure of the mine. The contact allows the sharing of good practices, which can contribute to the sustainable development of the mining companies and groups involved. The companies assume responsibilities to the stakeholders and guarantee actions that evidence the commitments, including the measurement of issues considered important by salient groups. Thus, the present indicators reflect the prioritization given to the communities and employees as well as the continuous engagement with them. The results can contribute to literature by presenting new ways of prioritizing stakeholders different from those already established in theory. These are suggests for a discussion about the effectiveness of the established prioritization models in the various types of industries. Regarding the managerial contribution, the mining sector can find support to improve the relationship with the stakeholders for the sustainable development, that is essential for the continuity of this sector which has significant importance for the Brazilianeconomy.
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An analysis of the sustainable mining of selected minerals and metals in South Africa / Johannes Zacharias EngelbrechtEngelbrecht, Johannes Zacharias January 2011 (has links)
The study was done to understand the direction in which South Africa’s mining model is developed and the changes required for South Africa to take its rightful place in the mainstream spheres of economic and commercial affairs. The huge demand for African commodities is creating new opportunities for African governments to realise the hopes of their people for a better life. The objective of this study is to analyse the South African mining model to determine the sustainability of mining in South Africa. It was done by analysing Chrome, Coal and Platinum as selected minerals and metals. A literature study was conducted and the focus was on the reserves and resources that South Africa has in these minerals and metals, the current supply and demand factors and estimates were done on the future demand. The last part was to determine the state of and planned expansions of infrastructure like Electricity supply, Shipping Ports, Rail transport, Road transport and Water supply that mining operations require. Following the literature study, a survey was conducted in order to support the findings of the literature study and to determine the most important factors that can influence investment decisions in the mining sector by evaluating the investor’s acceptability of South Africa’s mineral and resource industry.
It was concluded that the South Africa mining module is well developed with the required skills and knowledge for sustainable mining in the future. It was determined that there would be a future market to maintain a sustainable mining module. The major risk for the sustainable mining module is the reliance on infrastructures required in the mining environment, which is under governmental management. Survey results concluded that South Africa is not an investor-friendly country mainly because of its ineffective administration processes to perform mining. Investors are also seeking for independence of regulatory institutions.
A recommendation for future research would be to determine the optimum South African Governmental needs of the investment in infrastructure capital to ensure that the country’s economy will be able to grow.The study was done to understand the direction in which South Africa’s mining model is developed and the changes required for South Africa to take its rightful place in the mainstream spheres of economic and commercial affairs. The huge demand for African commodities is creating new opportunities for African governments to realise the hopes of their people for a better life. The objective of this study is to analyse the South African mining model to determine the sustainability of mining in South Africa. It was done by analysing Chrome, Coal and Platinum as selected minerals and metals. A literature study was conducted and the focus was on the reserves and resources that South Africa has in these minerals and metals, the current supply and demand factors and estimates were done on the future demand. The last part was to determine the state of and planned expansions of infrastructure like Electricity supply, Shipping Ports, Rail transport, Road transport and Water supply that mining operations require. Following the literature study, a survey was conducted in order to support the findings of the literature study and to determine the most important factors that can influence investment decisions in the mining sector by evaluating the investor’s acceptability of South Africa’s mineral and resource industry.
It was concluded that the South Africa mining module is well developed with the required skills and knowledge for sustainable mining in the future. It was determined that there would be a future market to maintain a sustainable mining module. The major risk for the sustainable mining module is the reliance on infrastructures required in the mining environment, which is under governmental management. Survey results concluded that South Africa is not an investor-friendly country mainly because of its ineffective administration processes to perform mining. Investors are also seeking for independence of regulatory institutions.
A recommendation for future research would be to determine the optimum South African Governmental needs of the investment in infrastructure capital to ensure that the country’s economy will be able to grow. / Thesis (M.B.A.)--North-West University, Potchefstroom Campus, 2012
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Fresh and Hardened Properties of Cemented Paste Backfill with Ternary BinderSagade, Aparna 23 June 2023 (has links)
The mining industry is a major economic driver and job creator for many countries. However, mining is associated with geo-hazards and environmental issues, such as the disposal of large volumes of waste, acid mine drainage, and ground subsidence. As a result, efficient mining waste management is crucial for sustainable development. The geotechnical, economic, and environmental benefits of cemented paste backfill (CPB) have piqued the interest of researchers and academicians worldwide, making it an essential aspect of underground mining management. CPB is a thickened cementitious combination of dewatered tailings (70 - 85 wt.%), binders (usually 3 to 8% wt.%), and water used to backfill mine waste into underground mining stopes. Despite being used in small amounts, the cost of cement makes up to 80% of the cost of backfilling operations. In addition, clinker production accounts for 5-8% of global human created carbon dioxide (CO₂) emissions. This predicament necessitates the development of a viable alternative to cement. Partially substituting cement with supplementary cementitious materials like fly ash, blast furnace slag, natural pozzolans, and other materials has been increasingly prevalent in CPB.
It is evident that the addition of slag to cement can increase the mechanical strength of CPB at the advanced ages but decreases the strength and suction development due to the slow reaction kinetics in the CPB at the early ages, which may negatively affect the mechanical stability of the CPB, mining cycle, and safety of mineworkers. Moreover, the supply of these materials is limited and may not be enough for the future needs of the industry. Furthermore, there has been a surge in interest in using limestone powder (LS) owing to its abundance, low cost, and lack of environmental costs which are associated with Portland cement - Type 1 (PCI). The addition of LS accelerates hydration at the early ages, thus resulting in high early strength, but the dilution effect can reduce the late strength. The combination of LS and slag in a ternary blended cement can be potentially used as a binder for CPB with acceptable strength development at the early and advanced ages while lowering the cost of the CPB and the carbon footprint of the mining industry.
Nevertheless, the rheology, mechanical strength, and stability are important key performance quality criteria for CPB; however, the effect of ternary cement blends on these parameters is not well known. In this research program, the impact of the binary and ternary cement blends on (i) the fresh properties of CPB, such as the rheological properties (yield stress, viscosity) and setting time, and (ii) the strength and suction development of CPB are investigated. To understand the effect of substituting slag with LS in the binary binder in the first phase of the study, binary binders with two differ-ent PCI: Slag proportions of 50/50 and 80/20 are examined with no limestone, followed by replacing slag with an increasing amount of LS from 0 to 20 wt. % of the total binder, with a constant cement content, over a period of 4 hrs (0, 0.25, 1, 2, and 4 hrs) of curing at room temperature. In the second phase, the effect of a ternary binder (PCI-Slag- LS) with varying proportions on the suction development and the mechanical behavior of hardened CPB is investigated over a curing period of up to 90 days. The changes in strength of these binary and ternary binders on the CPB sample are tested for 1, 3, 7, 28, 60, and 90 days. An unconfined compression test (UCS) is conducted to evaluate the strength development. The microstructure of the mixes is examined through mercury intrusion porosimetry (MIP) for changes are validated through monitoring for the development of hydration and suction, electrical conductivity (EC), and temperature, which is carried out for up to 30 days. This is followed by a microstructure analysis with a thermogravimetric/differential thermogravimetric test on fresh and hardened samples.
The results of the first phase show that an increase in the percentage of substituted cement in the binary binder (from PCI/Slag 80/20 to 50/50) increases the yield stress of the CPB but decreases the viscosity of the mix. However, the addition of LS as a substitution for slag shows a considerable decrease in the yield stress of the control mix with an increase in viscosity with increasing dosages of LS, thus indicating an improvement in the flowability of CPB. The second phase results indicate that the slow hydration kinetics of slag influences early age suction and strength changes in the binary sample with a high slag content (50/50); however, its latent hydraulic and pozzolanic properties enhance strength gain after 28 days. The addition of 5% limestone to the ternary blend increases the strength gain by up to 7 days compared to the binary control samples. Indeed, the presence of LS influences the rate of hydration of cement and slag through both physical (filler, nucleation, dilution) and chemical (hydrate) effects. However, substituting more than 10% LS for slag affects the mechanical performance at all ages. Overall, up to 50 wt.% slag and 10 wt.% limestone with cement as a ternary binder can be used without significant compressive strength loss.
This study demonstrates that the partial substitution of ordinary Portland cement (OPC) with varying percentages of slag and LS is complementary, and overall, the interaction of slag and LS is observed. The optimal use of LS and slag in a ternary system may serve as a sustainable alternative to the commonly used OPC and PCI/Slag binders, thereby reducing the energy consumption and carbon footprint associated with cement. The findings of this study will ultimately help to develop a better understanding of the impact of ternary blends with increasing percentages of LS on the rheology and setting time of CPB mixes and mechanical strength changes in designing an efficient mixing plant, particularly its transport system.
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Production of critical minerals and metals: Empirical investigation of sustainability aspectsAskros, Johanna January 2023 (has links)
The threat of global climate change has brought on the need for a transition towards renewable energy sources and electrification, thereby creating a significantly increased demand for energy minerals and metals. Despite being on a path towards an energy system with net-zero emissions, the European Union (EU) is currently highly dependent on the import of these minerals and metals from outside of the Union. In addition to constituting a supply risk, the sourcing of energy minerals and metals form outside of the EU also leads to the displacement of the impacts that mining has on the environment, society, and the economy in places where pre -existing environmental and social vulnerabilities often enhance these damages. This study sets out to explore how the mining industry of the EU could contribute to the sustainable supply of energy minerals and metals,considering the current state of the industry and the interactions of different associated environmental, social, and economic sustainability aspects on different spatial scales. It is empirically explored from the perspective of the potential mining of battery minerals and metals in Sweden. Media articles on the subject are reviewed and stakeholders of such a potential mining sector are interviewed. Both sets of data are analysed using the frameworks of systems theory and environmental justice, as well as theories on the resistance to and acceptance of mining. The analyses of the empirical findings suggest that there are some unavoidable trade-offs associated with mining, where the global need to mine is put against local concerns. It is concluded that while there is potential for the EU mining sector to produce energy minerals and metals more sustainably than is currently the case, some environmental, social, and economic damages cannot be avoided. To enable the energy transition, there is a need to make trade-offs between different aspects of sustainability. However, there is a lack of guidelines for how these trade-offs, which often involve more than one spatial scale, should be made.Ultimately, the sustainability contributions of a EU energy mineral and metals mining sector is dependent on how sustainable mining is defined and which spatial boundaries are applied. To deal with the limitations of the sustainability concept, it is proposed that the question is also approached from a perspective of justice.
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Concentração de bauxita por flotação reversa. / Concentration of bauxite via reverse froth flotation.Gancev, Renata Kurusu 16 June 2009 (has links)
O presente trabalho propõe a concentração da bauxita presente em um rejeito fino gerado na usina de beneficiamento da Companhia Brasileira de Alumínio (CBA), agora denominada Votorantim Metais Alumínio, em Itamarati de Minas (MG), através da flotação reversa da sílica, sob a forma de quartzo. Como os minerais de ferro e titânio acompanham a bauxita, é necessário fazer separação magnética para eliminá-los do concentrado final. O concentrado de ferro e titânio pode ser utilizado como aditivo para fabricação de cimento portland. O rejeito de sílica pode ser utilizado como areia para construção civil ou na própria mina em manutenção de vias de acesso. Os experimentos sistemáticos em bancada foram realizados em célula de flotação mecânica, primeiramente, com minério de uma amostragem realizada em 2004. Determinadas as dosagens ótimas dos reagentes (coletor e depressor), partiu-se para a flotação com etapas cleaner e scavenger para definir o balanço de massas e verificar o comportamento do processo. Para validar as conclusões do trabalho experimental, foi feita nova amostragem na usina de beneficiamento de Itamarati de Minas, em julho de 2005, e, com este minério, o experimento de flotação com recirculação de produtos em um circuito em bancada composto por cinco etapas rougher, cleaner e scavenger. Partindo-se de uma alimentação nova com 11,6% de alumina aproveitável, chegou-se a um concentrado com teor de 52,6% no final do circuito, após a separação magnética, com recuperação em massa de 13,3% e recuperação de alumina aproveitável de 60,4%. / The present work proposes bauxite concentration using quartz flotation from a product so far considered a tailing, from the ore processing plant of Companhia Brasileira de Alumínio (CBA), now called Votorantim Metais Alumínio, at Itamarati de Minas (MG). A magnetic separation operation is also necessary to eliminate iron and titanium contaminants. Both products from this beneficiation process can have an industrial destination: iron and titanium concentrate can be used as a portland cement charge and the quartz can be used as construction sand in mine or in road maintenance. Systematic experiments were performed on bench cell froth flotation using the remaining ore sample taken in a 2004 campaign. The optimum collector and depressant dosages were found, followed by a flotation test with cleaner and scavenger that determined the mass balance and confirmed the process behavior. To validate these conclusions a fresh ore sample was taken in July 2005. A new simulation of the flotation circuit by locked cycle with five steps rougher, cleaner and scavenger in bench scale was done with this sample. From an 11,6% alumina feed, a 52% Al2O3 alumina concentrate was achieved, after magnetic separation. The mass recovery was 13,3% and the available alumina recovery was 60,4%
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Artisanal gold mining, mercury and sediment in Central Kalimantan, IndonesiaStapper, Daniel 08 December 2011 (has links)
A field survey was undertaken in Central Kalimantan, Indonesia (Borneo) to assess the extent and practices of Artisanal and Small-scale Gold Mining (ASGM), and to measure sediment and mercury flows in the provinces’ rivers. More than forty mining operations were visited in six of the provinces largest river basins during June, July and August of 2008. Based on the survey results, this thesis estimates that 43,000 small-scale gold miners in Central Kalimantan produced 13.3 tonnes of gold in 2008 (426,000 troy ounces - ozt) worth approximately 362 million CAD (based on 2008 international gold price of 850 CAD/ozt). Mercury use was ubiquitous for leaching gold from ores in the province. Approximately 65.3 tonnes was used for this purpose in 2008, with the majority of consumption- 80% by whole-ore amalgamation operations exploiting hard-rock deposits, but producing only 13% of the gold. These estimates have been interpolated using (i) measurements and detailed observations at more than forty ASGM operations surveyed in five different regencies; (ii) numerous interviews with miners, gold shops owners and officials across these regencies; and (iii) mapping of ASGM operations using satellite imagery.
Hydraulic mining methods mobilize enormous volumes of sediment and native sediment-bound mercury. Sediment and mercury fluxes associated with ASGM activities were estimated based on a river sediment sampling campaign carried out in conjunction with the ASGM survey, and on subsequent modelling of river sediment transport. On streams and tributaries, mining activities increased sediment transport by factors between 100 and 1500, resulting in a net doubling of sediment loads on large first order river channels, on which the effects of mining are diluted in space and time by channels without mining. Particulate mercury flux sampled on six of Central Kalimantan’s largest river channels averaged 60ng/L ±33%, a high figure relative to most global rivers, despite average suspended sediment concentrations of only 75mg/L ±58%. Based on a hydrological and sediment transport model, 19.4 tonnes of mercury (±30%) transits these river systems annually, dominantly transported as suspended sediment load (95%), with the remaining 5% transported as bedload.
Acute mercury exposure by inhalation during the burning of mercury-gold amalgam represents an important health concern at ASGM camps and gold shops. In relation to mercury, sector improvements should focus on eradicating whole ore amalgamation, and open burning of amalgam. Eliminating whole ore amalgamation requires technological improvements at the gold liberation (crushing and milling) and concentration stages of ore processing. Elimination of open-air burning can be achieved through education, and the use of retorts, fumehoods, and mercury re-activation cells– each of these basic technologies provide mercury users with economic incentives by reducing mercury consumption. / Graduate
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