This course is the third in a set of three courses on Mine Planning and follows on from the previous two Mine Planning courses. Mine Planning 1 - Strategy focused on three of the five main levers for value creation as part of the strategic mine planning process (including mining method selection, process route selection and scale of operation). Mine Planning 2 - Operations then went on to illustrate the use of the final two levers including sequence and scheduling and cut-off grade policy. Mine Planning 3 - Optimization introduces you to mathematical optimization concepts which often form the basis for many of the computerized planning tools that are commercially available today. It is important to understand how these tools work and the fundamental algorithms behind them to aid the mine planning process. Scope This course focuses on the use of mathematical optimization techniques and processes. Upon completion of this course, participants will be able to develop basic mathematical programming models and be able to solve this in Excel for the purpose of allocating limited resources for maximum benefit (within the mining context). Coding and scripting are beyond the scope of this course. Authors Dr. Micah Nehring Ph.D. Dr. Sean Shafiee Ph.D. Duration 20 hours Access 90 Days Category Mining Level Specialize Version Date September 21, 2017 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 is the second in a set of three courses on Mine Planning. Mine Planning 2 - Operations introduces you to the key mine planning concepts of sequence and scheduling as well as cut-off grade. The mine planning process is complex and integrates several technical branches of the mining discipline including rock mechanics, rock breakage, ventilation and mine design. While mine planners should endeavour to design and implement plans that are safe, environmentally sustainable and socially acceptable, the overriding factor in the success of a mining operation and what ultimately determines whether it will proceed through feasibility studies and onto construction and development is the level of profitability. The drive to exploit a mineral resource such that it adds as much value as possible to the mining business requires a continual update of the mine plan and the rapid implementation of any value adding opportunities as they arise. Scope This course focuses on the main concepts associated with investigating the financial impact of a number of key levers on the value of a mine plan. This course does not investigate core technical concepts required in mining. It is assumed that all technical parameters have been established and are feasible. The focus therefore turns to establishing financial optimality by planning and generating the best mine plan. This course also does not teach the use of mine planning and design software which in some cases may incorporate the concepts discussed within. Authors Dr. Micah Nehring Ph.D. Dr. Sean Shafiee Ph.D. Duration: 17 Hours Access: 90 Days Category: Mining Level: Specialize Version Date: April 14, 2016 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
Mine Planning 1 - Strategy introduces you to key mine planning concepts. The mine planning process is complex and integrates several technical branches of the mining discipline including rock mechanics, rock breakage, ventilation and mine design. While mine planners should endeavour to design and implement plans that are safe, environmentally sustainable and socially acceptable, the overriding factor in the success of a mining operation and what ultimately determines whether it will proceed through feasibility studies and onto construction and development is the level of profitability. The drive to exploit a mineral resource such that it adds as much value as possible to the mining business requires a continual update of the mine plan and the rapid implementation of any value adding opportunities as they arise. It is assumed that course participants have a good understanding of mining terms and descriptions, have been exposed to surface and underground mining methods, are familiar with mining development, operations and production and are keen to learn how to plan a mine for the purpose of maximising value. Course participants are also expected to have a basic knowledge of rock mechanics, rock breakage, ventilation, typical mining equipment and other technical fundamentals which form the platform and constraints for generating mine plans. Scope This course focuses on the main concepts associated with investigating the financial impact of a number of key levers on the value of a mine plan. This course does not investigate core technical concepts required in mining. It is assumed that all technical parameters have been established and are feasible. The focus therefore turns to establishing financial optimality by planning and generating the best mine plan. This course also does not teach the use of mine planning and design software which in some cases may incorporate the concepts discussed within. Authors Micah Nehring Shahriar Shafiee Duration: 14 Hours Access: 90 Days Category: Mining Level: Specialize Version Date: September 16, 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 is the second of two Environmental Health and Safety courses by the author. It has been prepared with the intention of providing mining personnel with a set of practical guidelines on Environmental Emergency Response, i.e. how to respond to a variety of environmental emergencies. The first course focuses on Environmental Emergency Preparedness. With a little adaptation using local information, such as local emergency contacts and the inclusion of MSDS sheets and local emergency procedures, the guidelines in this course can be applied to any mining or processing operation. They can also be used in a site Environmental Management System (EMS), site Environmental Management Plan (EMP), and/or site emergency management Preparedness and Response Plan. At the very least, these guidelines can be used as a site emergency planning and response checklist. This course is split into four parts: Part 1 - The Generic EHS Emergency Response Plan Part 2 - Response Planning for Chemical Spills Part 3 - Response Planning for Oil Spills Part 4 - Response Planning for a Hazardous Gas Emergency Authors Ralph Gunness Duration: 5 Hours Access: 90 Days Category: Safety Level: Specialize Version Date: October 6, 2003 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 is a concise course on rock engineering for non-engineers in mining. The course addresses rock engineering issues for personnel of mining companies who are not directly involved in mining: people like managers, metallurgists, field geologists... even accountants, secretaries and lawyers. This course has been given to mining companies and mining operations around the world, primarily so that non-engineering personnel can understand what operations personnel need at the mine site level. The goal is to give non-engineering personnel an appreciation of the volume of rock failures and their implications. A Rock Engineering Primer for Non-Engineers in Mining consists of 7 viewing sessions of 30 - 60 minutes each with supporting figures, tables and examples, plus interactive course reviews. Course duration is equivalent to approximately 3 hours of viewing content. Authors Dr. Rimas Pakalnis Duration: 3 Hours Access: 90 Days Category: Geotechnics Level: Introduce Version Date: August 3, 2004 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
Probability graphs display a data set as a cumulative distribution. The most significant use of probability graphs applied to mineral exploration data is in the recognition of the number of populations in a data set, and the partial or complete partitioning of individual values into their respective groups or populations. The significance of the resulting groupings or populations of data must be interpreted. Interpreting probability graphs is largely a matter of understanding the implications of the patterns that result when data sets are plotted. These implications are not always fully appreciated, and in some cases, the conclusions drawn from the probability graphs are incorrect. In this course, you will learn how probability graphs can supplement analyses done using histograms, and how this can be beneficial when interpreting mineral exploration data. The course explains data distributions and populations. You will learn that probability graphs are an easy way to estimate the forms of distributions and their parameters. They are a useful tool to present and analyze many types of numeric data that are the product of mineral exploration programs. The course also highlights general advantages, but also limitations of using probability graphs, and provides useful procedure tips to draw up the graphs. Note that this course assumes a working knowledge of simple statistical concepts (e.g. arithmetic mean, variance, standard deviation, normal density distribution, etc.). The course content uses a clear-cut, idealized approach illustrated by real life practical examples used throughout the mining industry. The Appendix includes a variety of interpretations of published probability graphs with alternate interpretations and discussion on the analytical approaches used by the original publications. Authors Alastair J. Sinclair Duration 16 Hours Access 90 Days Category Exploration Level Specialize Version Date December 3, 2018 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
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