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Principles and Guidance for Responsible Exploration is one of a series of courses developed from e3 Plus: A Framework for Responsible Exploration, a guideline developed by the Prospectors and Developers Association of Canada (PDAC) to help exploration companies continuously improve their social, environmental and health and safety performance and to comprehensively integrate these three aspects into all of their exploration programs around the world. e3 Plus provides the means for members to reduce social and environmental risk to their projects, to benefit local communities and to enable companies to become world leaders in corporate social responsibility performance (CSR). The intended audience for e3 Plus includes: the exploration sector, local communities, government organizations, non-governmental organizations, civil society, academia or any interested party. The complete series of e3Plus courses includes the following titles: Principles and Guidance for Responsible Exploration Social Responsibility in Exploration Environmental Stewardship in Exploration 1 - 2 Health and Safety in Exploration 1 - 4 Students of these courses please note that Principles and Guidance should be studied before any of the other courses. Authors Prospectors and Developers Association of Canada Duration 5 Hours Access 90 Days Category Exploration Level Cross Train Version Date August 8, 2011   ​Need to train a team? Whether you're looking for a customized training program or developing a team, we have enterprise solutions to fit your needs. Learn More   Read more

Se presta especial atención en ayudar a los participantes en la comprensión de los principios de suministro y diseño, junto con la definición de la terminología y los recursos, con el fin de aplicar estos conceptos a las necesidades locales, los procedimientos y orden de funcionamiento. Se brindan las respuestas a problemas operacionales prácticos relacionados con el diseño del camino de transporte de la mina, tales como: ¿Por qué se necesitan caminos buenos? ¿Cuáles son los beneficios de tener una infraestructura de caminos mejorada? ¿Qué aspectos críticos operacionales deben de ser considerados en el diseño de caminos? Equipos, materiales y métodos. ¿Qué se necesita? ¿Cómo puede usted interpretar un diseño en técnicas prácticas de construcción? ¿Cuándo es apropiado el uso de supresores de polvo? ¿Cómo selecciona el producto adecuado y su método de aplicación? ¿Cómo calificaría o evaluaría usted el estándar del diseño de un camino? ¿Qué ve usted, qué significa y cómo identificaría la causa de un problema del camino? ¿Cómo podría usted determinar la resistencia al rodamiento y qué significaría reducirla? Authors Prof. Roger J Thompson   Duration 20 horas Access 90 Days Category Mining Level Specialize Version Date 20 de septiembre de 2013 Need to train a team? Whether you're looking for a customized training program or developing a team, we have enterprise solutions to fit your needs. Learn More Read more

The cyanidation process for the extraction of gold and silver from ore has been employed since 1898 when it was first used in New Zealand and Africa and soon after in the United States. It is a very efficient process capable of extracting gold in amounts of less than one percent of an ounce from a ton of rock with over 90% efficiency. Because of the environmental risks, a cyanide management plan is of critical importance to a mining operation. The lack of such a plan, in some cases, has contributed to adverse environmental incidents involving cyanide. The United Nations Environment Programme (UNEP) is developing an international code for the management of cyanide. Implementation and adherence to this code, augmented by experienced scientific and engineering judgment, will help reduce both the number and severity of environmental incidents involving cyanide. The "Cyanide Management in Mining" courses attempt to provide the user with the necessary background for development of a cyanide management plan that meets the unique requirements of each operating mine. The full complement of courses in the series includes: Chemistry of Free and Complexed Cyanide Analysis of Cyanides Geochemical Properties and Environmental Fate of Cyanide Toxicity and Environmental Properties of Cyanide Water Management and Discharge Strategies Treatment Technologies for Cyanide and Related Compounds "Geochemical Properties and Environmental Fate of Cyanide" is the third in the series of six courses. This course covers the attenuation mechanisms applicable to cyanide and their effectiveness in different metallurgical and environmental contexts, including surface ponds, tailings, heap leach, soil and groundwater. This course comprises 12 viewing sessions, each of 30 - 60 minutes duration, plus supporting figures, tables and references, and three interactive reviews that confirm achievement of the learning objectives. Authors Dr. Terry Mudder   Duration 10 Hours Access 90 Days Category Environmental Level Specialize Published August 3, 2006 Updated October 13, 2021   ​Need to train a team? Whether you're looking for a customized training program or developing a team, we have enterprise solutions to fit your needs. Learn More Read more

This course covers set-up of a numerical model, model calibration and verification, modelling predictions, and evaluation of model uncertainty. Duration: 7 Hours Access: 90 Days Category: Geotechnics Level: Specialize   ​Need to train a team? Whether you're looking for a customized training program or developing a team, we have enterprise solutions to fit your needs. Learn More   Authors Christoph Wels Dan Mackie Jacek Scibek Lawrence Charlebois Paul Ferguson Introduction The scale and nature of mining projects may result in impacts to the receiving environment, including groundwater resources. These impacts need to be quantified before undertaking the project and throughout the mining lifecycle to ensure regulatory compliance, project sustainability, and environmental protection. Common groundwater impacts associated with mining projects may include: aquifer drawdown and/or reduction in groundwater flow due to pumping from groundwater production wells and/or dewatering of open pit/underground workings;loss of groundwater discharge to surface water such as springs, lakes or streams (of particular significance during winter baseflow conditions) due to aquifer drawdown/dewatering related to mining activities;seepage and associated contaminant transport from mine waste units such as waste rock piles, heap leach piles, tailings storage facilities, backfilled and/or flooded pits/underground workings; andoff-site migration of contaminant plumes in groundwater aquifers (originating from mine waste units) and potential discharge of contaminants into the receiving surface water (springs, lakes or streams). The use of numerical groundwater models enables decision makers to study and evaluate potential impacts of large and complex mining projects. Sophisticated models and modelling platforms are, however, no guarantee of good modelling practice. The complexities of groundwater models used for impact assessment may even lead to misuse and/or misinterpretation. This series of two courses on groundwater modelling describes the broader concepts of groundwater modelling related to impact assessment for mining projects. Yet, these guidelines reflect generally accepted best practices in groundwater modelling and as such should be applicable to a wide range of groundwater modelling applications. This groundwater modeling series is based on the British Columbia Groundwater Modelling Guidelines which were commissioned by the British Columbia Ministry of Environment (BC MoE). This course has been modified and condensed to suit the format and (international) audience of an Edumine course. The course comprises ten learning sessions of 30 to 60 minutes each, several case studies, and interactive reviews that confirm achievement of the learning objectives. The total duration of the course is approximately seven hours. Read more

Reclamation and Revegetation for Mines in Arid Climates is intended for environmental specialists in private practice and governmental agencies. The purpose of this course is to present mining related reclamation based on practical and actual experience. The course presents actual mine reclamation practices that worked or didn’t work. The focus of this course is on base and precious metal mining operations in the western US, but the reclamation practices are applicable in other regions of the US and abroad. The course presents all aspects related to reclamation of mines from the initial baseline studies to final reclamation and bond release. Much of the approach is based on requirements by governmental agency rules and regulations. Reclamation programs are based on site specific conditions and baseline studies. These studies and surveys may start by examining natural revegetation in the region and on old mine disturbance. The goal is to create systems based on ecosystem analysis (prior knowledge) and sound ecological processes and patterns. The ecosystems established will be stable and sustainable based on the environmental settings, since local ecosystems are a function of climate, soils, biota; animals/vegetation, time, cycles, and energy flow. The goal is to match current ecosystems and promote diversity in compatibility with the surrounding landscape. Authors Dr. Sam Bamberg   Duration 12 Hours Access 90 Days Category Environment Level Specialize Version Date March 13, 2013 ​Need to train a team? Whether you're looking for a customized training program or developing a team, we have enterprise solutions to fit your needs. Learn More Read more

This course discusses the principles and practice of surface water management at mines. It describes best management practices for surface water management at a mine in order to achieve the following objectives. Control surface water in order to prevent pollution of on-site and off-site water resources. Divert excess runoff that may otherwise flood or interfere with mine workings. Limit infiltration to mine waste disposal facilities to control potential pollution of surface water and underground waters resulting from excessive infiltration. Control erosion of the site to limit sediment runoff that may negatively affect receiving waters. Control erosion that may otherwise cause excessive damage to mine closure works. Objectives All mines disturb the surface. All mines change the features of the mine site that affect precipitation runoff, evaporation, streamflow, and erosion. All mines involve grading of the site, diversion of runoff, and placement of wastes that increase or decrease infiltration of surface water to the groundwater. Inevitably at a mine it is necessary to capture and control sediments and other pollutants in surface water, and build and operate the works needed to comply with regulations regarding off-site impact by surface waters running from the mine. Accordingly, this course is intended for all those people at a mine or associated with a mine who may be involved with or responsible for the hydrologic, hydraulic, environmental, civil, and mining engineering works required to manage surface water at a mine. Author Jack Caldwell P.E., MS.(Eng.), LLB   Duration 12 Hours Access 90 Days Category Geotechnics Level Specialize Version Date February 22, 2013 Need to train a team? Whether you're looking for a customized training program or developing a team, we have enterprise solutions to fit your needs. Learn More Read more