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Avant le début du congrès, plusieurs cours intensifs hautement spécialisés vous seront offerts par des experts. Ces cours approfondis permettront aux professionnels de suivre l'évolution des techniques les plus récentes dans chaque domaine d’expertise. Consultez régulièrement le site web afin d’obtenir les informations à jour, dont la disponibilité des cours. Les places pour ces derniers sont limitées et seront offertes sur une base du premier arrivé, premier servi.
Cours d'une journée : Notes de cours, lunch et pauses-cafés inclus.
Atelier d'une demi-journée : Notes de cours et pause-café incluses.
Veuillez noter que les cours intensifs seront dispensés en anglais (sauf exception) et que, par conséquent, les textes ci-dessous ne seront disponibles qu'en anglais.
Dimanche, 28 avril - 1/2 journée (matin)
The Industrial Internet of Things (IIoT), also known as Industry 4.0, brings together brilliant machines, advanced analytics, and people at work. A digital transformation is underway, driving huge change across all industries.
IIoT is the network of multitudes of devices from different vendors connected by different communications technologies that results in systems that can monitor, collect, exchange, analyze, and deliver valuable new insights like never before. These data-driven insights can help drive smarter and faster business decisions only possible with machine learning and advanced analytics.
This workshop was designed and developed by ShookIOT, a company with more than a hundred man-years of experience in Industrial Automation, Control Systems and Business Enterprise Operational and IT Systems. This workshop is meant for industrial and business professionals who wish to come up to speed with this new technology and to use it in their own industries and businesses.
This workshop aims to provide attendees with clear definitions around IIoT, an understanding of the capabilities and boundaries of IIoT, the benefits of developing and implementing IIoT capabilities, and how to get a successful IIoT program started.
Get the Answers You’ve Been Looking For:
More details at: http://www.shookiot.com/iiotworkshop/
Dr. Dave Shook, PhD, P.Eng | President & CEO
Dave is the former CTO of Matrikon and has 26 years’ industrial experience in automation and deriving value from analysis of operational data. He has designed asset performance monitoring software installed at hundreds of sites and is a recipient of the DG Fisher Award for Process Systems Engineering.
Dave was instrumental in the development of Matrikon’s products and solutions, especially those involving complex data analysis and the integration of data from multiple sources permitting centralized monitoring and management of distributed fleets of assets and large groups of operators. He created specific advanced solutions and application for the mining sector. He also defined and managed the company’s R&D and knowledge management programs.
Dave has worked in a number of industries over his career, including mining, upstream oil production, gas transmission, refining, petrochemicals, plastics, forest products, mineral processing and wastewater treatment.
Les modes de gestion des entreprises évoluent. Avec le temps, les organisations ont implanté des systèmes de gestion des performances financières, de la qualité, de la santé et la sécurité au travail et même de l’environnement. Mais qu’en est-il de la gestion des risques sociaux?
*Option de formation bilingue anglais / français
Marie Rousseau, ing., présidente Écoprocessus
Graduée de l’École Polytechnique de Montréal en génie chimique, option environnement, Marie Rousseau a œuvré principalement au sein de l’industrie québécoise, que ce soit dans le domaine des pâtes et papier, de l’aéronautique, de la métallurgie ou des mines. En tant que consultante en gestion de l’environnement, elle a développé, mis en œuvre et optimisé de multiple systèmes de gestion de l’environnement et programmes d’amélioration des performances. Sa pratique s’est rapidement spécialisée en développement durable, une approche plus systémique qui intègre le volet de la responsabilité sociale.
Son rôle de responsable des relations avec les communautés chez Rio Tinto Fer et Titane à Sorel-Tracy et Havre Saint-Pierre lui a permis de mieux comprendre la complexité des enjeux liés à l’acceptabilité sociale. Aujourd’hui, elle consacre sa pratique et ses recherches aux enjeux de mobilisation des parties prenantes et de performances sociales des entreprises.
Grâce à une formation technique et à plus de 20 ans d’expérience en industrie, Marie connaît les rouages des systèmes et processus internes des entreprises et les dynamiques d’interrelations complexes qui les relient. La mobilisation et la coordination des intervenants internes est l’un des plus grands défis auquel fait face les entreprises en matière de relations avec les communautés. C’est pourquoi elle privilégie une approche qui intègre le développement des compétences internes et le travail d’équipe.
Catherine Duhamel, LL.L. présidente Social Impact Firm
Ms. Duhamel is an international social corporate responsibility lawyer, designated UN expert on Human Rights, Community relations & extractive industry. Catherine has 25 years experience in Canada, the United States and also emerging markets, high-risk and conflict-affected countries in the Caribbean, South America and Africa.
Her field experience implementing the UN guiding principles on business & human rights as lead her to work with Quebec’s Mining Exploration Association on an exploration norm, Canadian Ethical Funds on mining, due diligence & armed conflicts, Binational chamber of commerce on mining law reform in Haiti, Stakeholder engagement and consultation process in Guatemala, state-owned diamond industry’ impacts on communities in Democratic Republic of Congo to name a few.
Madame Duhamel a une excellente connaissance de la gouvernance et des standards et normes de la responsabilité sociale des entreprises (IFC, WB, GRI, ICMM, Equator Principles, UN guiding principles, FPIC etc.). Elle a une grande capacité à cerner les risques socio-économiques et à mettre en œuvre des plans d’action et de gestion adaptés y compris les programmes de développement économique et social axé sur la collectivité.
Have you ever wondered, what is the difference between buzzwords like “social licence”, “corporate social responsibility” and “social sustainability”? Are you ready to engage with Indigenous groups or local communities around your deposit but don’t know where to start? This four hour short course will cover the fundamentals principals for developing your consultation and engagement program in early and advanced exploration. Topics will include consultation and engagement program fundamentals, incorporating Traditional Knowledge in all stages of exploration, stages of benefits agreements and how to leverage community relationships for increasing property valuation. Participants will leave this course with a better understanding of what it takes in post-reconciliation landscape to develop a project. Hands on learning will include the use of tools and templates participants will be able to put into practice immediately.
Shena Shaw, BA
Shena Shaw has been managing projects and contributing to environmental assessments for over fourteen years. She is committed to the responsible development of resource projects and has worked for a variety of industry and government clients. Shena has direct experience with large-scale northern petroleum and mining projects. Shena works closely with clients to ensure a thorough and robust environmental and socio-economic effects assessment is delivered that meets their needs as well as the expectations of First Nations, communities, assessors and regulators.
Shena provides clients with detailed insight into assessment and regulatory processes across northern Canada. Her knowledge and advice helps clients make strategic and effective decisions when planning and implementing First Nations and community consultation and engagement. Appropriate engagement strategies can decrease both timelines and risk for projects as they move through assessment and regulatory processes.
Shena has developed excellent working relationships with representatives of all levels of government and industry. She has a Bachelor of Arts in Anthropology focusing on First Nations Studies and Geography from the University of Victoria.
Deanna Higginson, MNRES, R.P.Bio.
Deanna has over 10 years of experience focused on providing socio-environmental, consultation, engagement, and Indigenous-specific services to clients. She holds a Masters of Natural Resources and Environmental Studies (Indigenous community-based natural resource management focus) and is experienced in designing, facilitating, and managing cross-cultural community engagement programs. Deanna is passionate about demonstrating the potential for new knowledge to be gained from the complementary use of Traditional Knowledge and western science, and is skilled at identifying opportunities to apply the two knowledge systems together in a respectful and meaningful manner. She has successfully delivered projects ranging from community-based Traditional Knowledge studies to socio-economic assessments. In addition to her technical skills and experience, Deanna understands the broader issues associated with working with communities, and the considerations which should be given to ensure the appropriate and respectful inclusion of their contributions.
An introduction to mining and mineral processing using basic concepts and lots of examples. It consists of five parts:
George McIsaac, P.Eng., Ph.D.
George is a mining engineer and a mineral economist, with 35 years’ experience in industry, research and development, consulting, and teaching. He specializes in the economics of the mine, combining design, planning, costing, and cash flow estimation, to optimize mine operations and exploration activities. He founded Geology & Mining Evaluation Consulting (G-MEC), a company providing services in strategic planning and economic evaluation to exploration companies and producing mines.
This course explorers the key technical drivers for the battery mineral projects. Minerals such as lithium, graphite, cobalt and nickel have changed the resource sector growth opportunities due to the demand for lithium ion batteries. What are the geological, mining, processing and marketing risks going forward. This short course looks at hese aspects including the project development cycle. It looks at a number of projects under development and what the companies are endeavouring to achieve.
Dimanche, 28 avril - 1/2 journée (après-midi)
Environmental protection and management at all stages of the mine cycle benefit from a strategic and proactive approach. The intent of this workshop is to share simple but powerful lessons learned by industry professionals on how to intelligently navigate environmental management requirements and represents a collaboration between industry, consulting and research partners.
The foundation of the course is a self-evaluation that prompts participants to consider their current level of understanding of the tools and practices that are critical for effective environmental management. Scorecards will be provided to registered participants for completion in advance of the workshop. The cumulative results will identify areas of common interest and inform areas of greatest impact for the group.
Material presented in the workshop will primarily consist of case studies and/or model simulations. The power of using visual and interactive tools to communicate environmental management internally and to regulatory authorities and stakeholders will be demonstrated.
Sarah J. Barabash, PhD.
Director of Mining Services
Senior Environmental Scientist
Dr. Sarah Barabash is a Senior Environmental Scientist with EcoMetrix with over 14 years of combined experience in research and consulting related to geochemistry, hydrogeology, mine waste management, water quality and environmental assessments. Since completing her Ph.D., she has worked as a consultant and research scientist and has been a principal investigator for a wide variety of environmental investigations, including mine waste and water quality assessments for proposed mine projects, detailed studies at operating and closed mines and modelling of contaminant migration in surface and groundwaters.
Sarah’s particular expertise is the planning and implementation of waste management programs, geochemical assessment and environmental monitoring studies. Sarah also works extensively with the mining sector on environmental assessment and permitting, as well as in the development and implementation of mine closure plans, remediation and rehabilitation strategies.
Sarah has also provided senior review on numerous mining projects involving mine waste management, water quality, groundwater contamination and proposed remediation and has also served on independent review committees for mine waste management and mine closure planning. She is currently involved in the development of innovative tools and methodologies for the mining industry that include her participation in a special study for the Mine Effluent Neutral Drainage (MEND) program and the development of software platforms specifically to aid in the prediction of the mobility, transport and fate of constituents associated with mine wastes (MineModTM).
Sarah has been called upon to provide numerous presentations to clients, regulators, committees and at conferences. Recent examples include the provision of a short course surrounding the closure of legacy mine sites in Nova Scotia to the Department of Lands and has been requested to present to the ICMM surrounding the Development of Thresholds for Assessing the Status of Mine Waste Under the Minamata Convention on Mercury.
Elizabeth Haack, PhD., PCHEM.
Director of Assessment
Senior Environmental Scientist
Dr. Elizabeth Haack is an expert Geochemist and Environmental Risk Assessor with 12 years of consulting experience. Dr. Haack has been the lead geochemist on mining projects, and completed ARD/ML assessments and water rock management plans. She has developed programs to assess and/or provide technical review of the potential for long-term deleterious environmental effects related to storage and/or re-use of waste materials (rock, soil, tailings, slag) produced by mining and energy sectors. She is an expert resource with respect to prediction of water chemistry using geochemical software and has provided geochemical studies for a number of water vulnerability, compatibility and re-injection studies.
Dr. Haack has designed and delivered a number of presentations that address complex geochemical topics for wide audiences. She developed a presentation, delivered at the North American Metals Council Selenium Working Group, that evaluated the long-term stability of selenium in water treatment waste residuals. She brought together research and industry findings to make recommendations on analytical assessment of the wastes and to highlight important data gaps by industrial sector. She also developed a very well-attended presentation that addressed risks from metals in groundwater to human and ecological receptors. In that presentation, she used case studies to highlight how the way in which we quantify metals (i.e. operational size fractions, speciation) has implications for fate and transport and for metal toxicity to humans and ecological receptors. Following the presentation, she was contacted by regulatory authorities in Alberta to provide comment on guidance being developed pertaining to metal assessments.
Dr. Haack is also an expert human and ecological risk assessor. She has led several innovative remediation/risk management projects that require an understanding both of contaminant chemistry and environmental risk assessment, significant regulatory liaison and collaboration with government and academic research teams. She has built chemical partitioning and transport models to support detailed quantitative risk assessments for Environmental Impact Assessments and other industrial applications.
Dr. Elizabeth Haack holds a Ph.D. in Geochemistry (McMaster University, 2004), a Honours B.Sc. in Chemistry (Trent University, 1998) and is a member of the Association of the Chemical Professionals of Alberta (P. Chem). Her Ph.D. research was focused on biogeochemical controls on metal cycling in mine tailings streams. She used both conventional and state-of-the art molecular-level tools for assessment of metal sequestration and cycling.
R. Brent Murphy, M.Sc., P.GEO., FGC
R. Brent Murphy is Vice President, Environmental Affairs for Seabridge Gold. For the past nine years, Brent has led the environmental permitting strategy for the company's key projects, including the KSM Project located in north western British Columbia. He was instrumental in leading the technical and social teams that obtained the federal and provincial environmental assessment approvals for KSM in 2014.
Brent is a former exploration geologist who holds a M.Sc. in Geology (Geochemistry) from Acadia University. Prior to joining Seabridge Gold, he was the chief environmental officer for the EKATI Diamond Mine in the Northwest Territories of Canada and has held roles as permitting advisor to the Federal and Territorial governments. Over the past 30 years, Brent has developed extensive experience in indigenous public and government engagement in support of the social acceptance of resource extraction projects and has successfully participated in the permitting of several North American-based mining projects.
Brent is a sound strategic and progressive thinker and is experienced and skilled in dealing with a variety of stakeholders including Aboriginal peoples and non-Aboriginal community members in Canada and Alaska and politicians, and regulators. His strong technical background has allowed him to successfully apply leadership within the environmental, operational, permitting and safety aspects of mining projects.
Professor Lesley A. Warren
Claudette Mackay-Lassonde Chair in Mineral Engineering | Director, Lassonde Institute of Mining
Dr. Warren, PL, is the Claudette Mackay-Lassonde Chair in Mineral Engineering at the University of Toronto. She has extensive experience working on large projects with the extractive resources sector. Dr. Warren is an aqueous and microbial geochemist, who has pioneered the development of integrated approaches to address key questions linked to the roles microorganisms play in geochemical cycling, with a significant focus on water quality management in mining contexts. Her group fuses molecular microbiology with field and experimental biogeochemistry and high resolution imaging techniques to develop novel mechanistic understanding of the key processes driving unexpected environmental and water quality outcomes for her partners. Her industrial partnerships span energy sector (oil sands, Syncrude Canada) as well as base metal mining (Glencore, Vale, International Alumina Association). She serves on the Canadian Mining Industry Research Organization (CAMIRO) Expert Geochemistry panel and Syncrude Canada’s Reclamation and End Pit Lake Science Advisory Boards.
This short course will focus on actions that everyone can take to stop sexual harassment in the workplace for all workers in the mining industry.
The course will cover the following topics:
Susan Lomas has over 30 years of experience in the exploration and mining industry and is a Professional Geoscientist in British Columbia, Canada. Susan’s wide range of experience includes grass roots exploration programs to feasibility stage studies and work in operating mines. Susan started Lions Gate Geological Consulting Inc. (LGGC) in 2006 with her husband, Ali Shahkar, P.Eng., and builds geological models and mineral resource estimates for clients around the globe on projects concerning gold, copper, silver, lead, zinc, uranium and potash.
In February of 2018, Susan founded the Me Too Mining Association to launch a conversation in the mining industry around sexual assault, sexual harassment, intimidation and discrimination.
MeTooMining wants to let women and men in mining who have been impacted by sexual violence/harassment know they are not alone and that we stand in solidarity with them.
An introduction to the Incident Cause Analysis Method (ICAM) based on the work of Organizational Psychologist Professor James Reason. ICAM is widely used throughout various industries including mining, oil & gas, transport, manufacturing, power generation, health and construction, as the preferred methodology for the investigation of HSE, production loss and equipment failure/damage events. ICAM is a holistic systemic safety investigation analysis method. It aims to identify both local factors and failures within the broader organisation and productive system that contributed to the incident, such as communication, training, operating procedures, incompatible goals, change management, organisational culture and equipment. Through the analysis of this information, ICAM provides the ability to identify what really went wrong and to make recommendations on necessary remedial actions to reduce risk and build error-tolerant defences against future incidents. The ICAM process incorporates best practice Human Factors and Risk Management principles.
Mary-Jane Vince has 12 years’ experience in the mining industry in Africa, North and South America developing best practice EHS management systems built across entire life of mine processes, from exploration, permitting, greenfield/brownfield construction, start up and commissioning, operations and closure.
The combination of technical skills and knowledge supported by practical industry experience with people of different cultural backgrounds has given Mary-Jane a high level of communication, understanding and adaptability to provide effective health and safety advisory and training services.
Her work has brought her into many unique and sensitive operating environments and as a result, she is comfortable in multi-cultural stakeholder engagement, working with organisations, local communities and government to find mutually beneficial solutions to challenges in mine operations, expansion, rehabilitation and closure.
Mary-Jane joined the Safety Wise team in 2012 working in North America and Southern Africa, before recently relocating to Canada providing ICAM training, investigation and consulting services for clients in multiple industries.
The primary purpose of the Drone CMS Workshop is to share real-world feedback from actual CMS Flights we have performed Underground and help educate mining professionals about the current capabilities and current limitations of performing Drone/UAV Based Aerial CMS Scans within Underground Mines.
Matt MacKinnon is the Founder, President, and Pilot for Unmanned Aerial Services Inc. (UAS Inc)
What started as an RC hobby in 2012 quickly manifested itself into a full blown obsession with flying drones in First Person View (FPV) which ultimately inspired a passion for pushing the limits of his Radio Controlled equipment.
But it wasn't for being born and raised within the Nickle City of Sudbury and reading about the preventable deaths of 2 miners at Stobie Mine in 2011 who were tragically killed due to a run of muck that could have been potentially identified by a drone inspection that was the ultimate driver for Matt to bring drones underground and so began the 5 year journey of finding out what was need to fly a drone successfully and repeatably underground.
In January, 2017 Matt was introduced to Dr. David Morris and Steve McNeil who subsequently invested into UAS Inc which then enabled Matt to further establish the ongoing partnerships with world class leaders of their respective fields.
In March, 2017 UAS Inc. Matt finalized the first of a series of partnership agreement with Flyability, a Swiss company that designed and commercialized the World First Collision Tolerant Caged Drone the "Elios".
Matt has successfully flown well over 300+ plus flights within underground mines with the Elios drone performing visual inspections typically within, Raises, Passes, Falls of Ground, Crusher Inspections and Bin and Liner Inspections, Looking for Hang-ups, etc.
To date Matt has applied for 3 Guinness World Records for various inspections that he has performed while underground. Some of his achievements while piloting the Flyability Elios include:
In October of 2017, Matt establish a partnership with a spin-off from the Australian based tech organization CSIRO, called Emesent who developed the Aerial CMS Scanner, known as the "HoverMap Payload". Matt currently uses the HoverMap Payload to enable GPS Denied Position Hold as well as Active Collision Avoidance in order to provide high resolution laser scans in previously inaccessible areas underground.
UAS Inc. is a Drone Based Inspection Service Provider, based in Sudbury, Ontario, Canada. www.uasinc.ca
This course will review potential risk and uncertainty in geotechnical aspects of mining projects. It will involve understanding where risk may come from and identify means of reducing risk, understanding risk and give some tools and techniques to deal with the risk. The course is participation based and idea-sharing and discussion amongst participants is a valuable part of the workshop.
Lucy Philip is a Principal at Stantec in Calgary. She has over 25 years experience and is a geotechnical mining specialist. She has worked on open pits, tailings projects and mine infrastructure projects across Canada, Europe, North America and South America. Having lectured at the University of Leeds, UK, she is also experienced in course delivery.
Dr. Rick Guthrie is Principal at Stantec in Calgary. Rick is a globally-leading geohazard and risk expert, supporting mining and infrastructure projects. Rick brings a Ted-talk style and engages participants. Greg Gillian is the Mining Sector Lead at Stantec in Salt Lake City. Greg brings a management piece to the puzzle and will contribute tailings strategies and method selection tools to the workshop.
Dimanche, 28 avril - journée entière
Implementing a systematic, data-driven management control and reporting system is essential to ensure your organization is focussed on the key operational performance metrics and to drive continuous improvement. However, best practices for designing and implementing operations management systems are not widely understood and developing the management skills and behaviours necessary to implement such practices is a lengthy and challenging process. This course will present the principles of management control and reporting and introduce key tools and best practices used in large, high-volume continuous process operations to maximise throughput, asset utilization (OEE), and control cost. These include: short-interval control, daily-weekly operating reports (DWOR), 24-hour, 7-day, and 28-day production plan, and the weekly-monthly operations management report.
I will also provide an approach to designing and implementing effective daily, weekly, and monthly performance review meetings and how to define and develop the skills and behaviours required by high-performing teams in challenging operational environments.
The course content is based on many years of experience as a management consultant implementing production and maintenance management systems in various heavy-industrial sectors including bulk chemical manufacturing, oil and gas and mining. It is a proven and practical approach that you can use to improve your current systems and practices and that will deliver measurable sustainable results.
Bill is a management consultant specialised in implementing operations management best practices in large, capital-intense process industries. Over his 20+-year career he has helped many large companies in oil and gas, chemical manufacturing, pulp and paper and mining to implement programs to increase production, improve reliability, reduce operating costs, minimize environmental impacts and manage regulatory compliance. Bill’s goal is to support progressive organizations in transforming their industrial operations through systematic management practices, organizational learning, technological progress, and the continuous pursuit of excellence.
The workshop will focus on the systems and people needed to maintain safe and adaptable operation of existing facilities designed to store and manage mine materials (both tailings and waste rock) and related contact waters. Through case histories of past problems and worked examples, multiple existing guidelines will be applied to mock facility scenarios, covering a variety of technologies. Participants will gain insight and take-home demonstrations of the good practices (people, procedures, deliverables and key considerations and risks) that they need to manage appropriately qualified teams during a mine’s life and into closure. Cost-effectiveness and flexibility will necessarily be important facets of discussion.
Chad LePoudre, CIM Distinguished Lecturer, P.Eng, Principal and VP, Geoscience & Materials SNC-Lavalin;
Michel Julien P.Eng., Ph.D., FEIC, ASC, Vice-President Environment, Agnico Eagle Mines Limited;
Klohn Crippen Berger (Senior engineering professionals, names to be advised),
Diana Sollner, MASc, MBA, P.Eng.,GEM Services
With Dr Michael Davies, P.Eng., Senior Advisor – Tailings & Mine Waste, Teck Resources Limited as contributing adviser;
and Alistair Kent, P.Eng, Senior Project Manager, Merit Consultants International, as coordinator/organiser.
The successful implementation of autonomous systems adds clear value: it can increase production efficiency, lower maintenance costs, and improve safety. However, it presents challenges including technology, security and safety risks, and workforce and workflow changes. This workshop will provide participants with knowledge to support adoption and implementation of autonomous systems in mining.
The creation of a unified autonomous mining system is part of the industry’s vision of future mining, and it has been gaining momentum in recent years. All sectors are affected by its advancement, and there is a need for a comprehensive guideline for implementing autonomous systems. Participants will be provided with an overview of the guideline developed to assist in providing a framework for mitigating risks and managing change while maximizing the value of autonomy.
Global Navigation Satellite Systems (GNSS) are used extensively in many sectors for providing precise information on positioning, navigation, and timing. Technical development in the area of augmentations to GNSS is taking place rapidly, creating the potential for more precise services. This technology is one element of the digital mining future and has the potential for increased automation. Participants with will learn about the opportunities available in mining from adoption of next generation GNSS.
Andrew Scott: Andrew Scott has been involved in the mining innovation arena since the very beginning of his career over 30 years’ ago. Having studied biotechnology and computer science at the University of Queensland, he was drawn to the mining industry as a means of funding his ongoing study. As a young field assistant, he quickly found himself fulfilling the role of “go-to” person for any new technology that needed to be investigated or implemented. If ever he felt that a position within a company wasn’t giving him technology exposure, Andrew discovered that he would engineer himself into those roles. The latest example being when Michelle Ash became Chief Innovation Officer at Barrick, he made sure that he was on her team delivering on their digital strategy as Senior Director Innovation. Andrew was In-coming Chairman, Chairman and outgoing Chairman of the Global Mining Guidelines Group between 2012 and 2018 and thoroughly enjoyed working with motivated and passionate people to improve the industry through collaboration, guidelines, and innovation.
As Senior Director, Innovation/Digital Mining at Barrick, Andrew had the scope of providing technology support for the entire mining process, which includes everything from exploration, feasibility, construction, production, reconciliation, through mine closure. In addition, Andrew represented Barrick on the OSI Soft Client Advisory Board, collaborating with representatives from other OSI Soft customers from other industries, which he thoroughly enjoyed. Andrew has recently taken up the position of Principal Innovator at Symbiotic Innovations, and coupled with his concurrent role as CORE Skills Facilitator, he is enthusiastic about further supporting the resource sector’s successful digital transformation “I feel as though I’ve been in the innovation space for my whole career. Whether it be with mining industry professionals investigating or implementing new technology, with researchers researching and tackling challenges, or helping researchers implement proof of concepts and then testing them; working with people to solve problems has always been a passion of mine,” Scott says.
Jason Bond: Jason has been working in the field of precise positioning for over 15 years. As an expert in GNSS and engineering surveys, he has leveraged precision GNSS technologies for monitoring slope stability in open pit mines and for monitoring ground subsidence during underground mining. Jason holds a doctoral degree from the University of New Brunswick (UNB) in Geodetic Engineering and has given guest lectures at UNB, Dalhousie University, Hong Kong Polytechnic University, Warsaw University of Technology and the College of Geographic Sciences. In 2017, he was awarded the Premier’s Award of Excellence for implementing infrastructure that would enable real-time, centimetre level positioning throughout Nova Scotia. As the lead for Canadian Geodetic Survey’s Positioning, Navigation and Timing team, Jason is currently looking at ways of promoting the implementation of widespread, high accuracy, positioning capabilities in Canada that will lead to innovation across industry.
Michelle Levesque: Michelle Levesque is the Engineering Technical Lead for the Data-driven technologies team at CanmetMINING. Her focus is on the development of tools and technologies for improving efficiencies with the mining sector, resulting in the implementation of techniques and technologies leading to a more sustainable mining sector. Michelle is a chemist, and also holds a Master's and a PhD degree in Natural Resources Engineering, all from Laurentian University, with the focus of her research being on energy management for the mining sector. She also holds the Certified Energy Manager designation from the Association of Energy Engineers. In the past 20 years she has worked at Laurentian University, in the paste backfill group at Golder Associates, and as a Researcher in the "Energy, Renewables and Carbon Management" group at MIRARCO.
More to be confirmed.
This short course is built from the second edition of the GMG-CMIC guideline on BEVs in the underground, which was published by the beginning of November 2018.
The BEV project stemmed from requests from companies with mines entering development in Ontario. Their efforts to build diesel-free underground mines revealed a major impediment to the realization of their projects: a lack of standardization in the components needed (different types of batteries, chargers, electronics, etc.).
BEVs can reduce both a mine’s operating costs and impact on the environment as they require less maintenance, emit lower levels of greenhouse gases and use less energy. They also avoid emission of DPMs, a known carcinogen. But, with the implementation of anything new comes a set of challenges such as changes to infrastructure, maintenance and operating constraints.
The BEVs Guideline is meant to drive technological development to enable diesel-free underground mines. The first edition provided much-needed guidance by offering a blueprint for mine design and equipment innovation and providing solutions to potential electric mine problems before they occur.
The highly anticipated Version 2.0 considers new technologies and addresses gaps in the previous edition, adding material on emergency response, training and charger standardization.
The course will be facilitated by David Sanguinetti, GMG’s Program Manager, and will be taught by select authors of the BEV guideline. The authors include leading battery electric equipment designers, mine designers with experience in electric mine design, providers of BEV charging infrastructure, and operators of mines with battery electric equipment
Shafts, declines and adits to access underground mines are vital transportation links for personnel and materials. As deposit grades trend lower and miners venture deeper for ore, the importance of the access structures becomes critical. For deeper or lower grade mines, larger payloads are needed, more ventilation is required to cool deep underground mines, greater distances must be traversed and higher capital must be invested for longer periods before payback begins. This short course delves into the geotechnical criteria and soil/rock support mechanisms for all access means. Shaft lining rehabilitation is discussed with case examples. Alternative sinking methods, including mechanical rock cutting, are presented as well as examples of challenging shaft projects and innovative solutions from around the world demonstrating innovations made to ensure shafts remain economically viable.
Robert Bradley, National Diploma - Engineering, Vaal University of Technology, South Africa Robert is a Senior Project Manager based in the Vancouver office of Golder Associates. He has 36 years of operational, design and project management experience in mining, specialising in shaft infrastructure, surface and underground mining infrastructure and backfill. After obtaining an Engineering Diploma and Government Engineer’s Certificate of Competency (GECC), he was appointed in various positions at mining operations then transferred to head office where he consulted and managed various projects for a large mining house which included placements in Ghana and Mali.
After an acquisition, he was appointed as a project manager and designed, constructed and managed backfill plants as well as the 3000 m deep South Deep Twin Shafts project. Robert transferred to M&R Cementation to start the Mine Engineering Division which undertakes all the scoping, concept - and feasibility - studies as well as design work for shaft sinking, mine development and backfill systems. He has been involved in various diversified projects such as dewatering mines, the installation of free hanging cargo pipes in boreholes for backfill and concrete and serving as the design manager for the Chile Mine rescue capsule.
Grant Bonin, M. Eng. Mining Engineering(UBC); BSc Geological Engineering (UBC) Grant Bonin is a Principal, Mining Geotechnical Engineer and Grouting Specialist with over 20 years of experience focusing on civil rock mechanics and underground construction supervision, including a wide range of grouting experience. This grouting experience includes both designing and supervising grouting programs for dam foundations, tunnel covers, shafts, and monolithic concrete plugs or bulkheads in a variety of rock types including salt and karstic limestone.
Grant leads Golder Associates’ international team of grouting specialists. He has directed grouting works in Canada, Australia, the United States, and Peru. Between January 2001 and May 2016, he was a sessional lecturer at the University of British Columbia for MINE 303: Rock Mechanics Fundamentals, and currently, he is a guest lecturer at the University of Texas in Austin, TX, for the annual short course Grouting Fundamentals and Current Practice, specifically lecturing on rock mass classification, the collection of geotechnical data in both surface and underground operations, and the use of collected information as pertains to the selection and design of rock stabilization and mining methods.
Joe Anderson, M.Eng. Hons. Civil Engineering, University of Newcastle Upon Tyne, UK Engineer, with extensive skills in the design and construction of shafts and tunnels in competent and unstable ground, utilising structural concrete/sprayed concrete, steel, cast iron and composite linings to resist water and or ground pressures. Specialist in the design and construction of NATM/SEM tunnels, deep shaft linings, steel square-works and timber headings. Recent projects include the North Portal Access for Zamora-Chinchipe (Fruta del Norte) in Ecuador, shaft lining design for Jansen in SK and development of a 3D FE model to predict rock deformation in highly variable, artificially frozen ground conditions for NATM style crosscut tunnels.
Jack Nolan, B. Eng Mining Engineering, Camborne School of Mines Jack is experienced in mine construction with a broad range of development work in both shaft sinking and tunnelling. He is interested in rapid excavation and the application of new technology to the industry. Recent projects have included potash shafts in NB and SK in difficult ground conditions, Cigar Lake tunnels, Onaping Depth shaft design and the 1400m Konkola Deep shaft project in Zambia.
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