Mining engineer: job description Mining engineers assess the feasibility, safety and productivity of mine locations and plan, manage and optimise the extraction of surface and underground deposits. What does a mining engineer do? Typical employers | Qualifications and training | Key skills Mining engineers ensure that underground resources such as minerals, metals, oil and gas are extracted safely and efficiently. Typical job responsibilities include: assessing the feasibility and the potential for commercial benefit of new sites ascertaining extraction risks producing models or plans for possible mining sites planning and implementing extraction systems using specialist computer applications to maximise planning and production monitoring and evaluating underground performance managing construction projects ensuring that operations comply with health and safety requirements making sure that the equipment used is safe managing budgets training and supervising staff liaising with and advising managerial and technical staff analysing data keeping records costing and organising supplies. Typical employers of mining engineers Mining companies Quarrying companies Extraction companies Environmental consultancies Large construction and manufacturing companies Mining consultancies Mining engineering is an international profession, with many jobs based overseas. Jobs are advertised online, by careers services, specialist recruitment agencies and in publications such as TARGETjobs Engineering, Mining Journal and InfoMine, plus their respective websites. Speculative applications made early during the first term of your final year are essential. The Directory of Mines and Quarries may prove useful for contact information. You can also find tips for finding and applying for jobs with smaller engineering companies here. Qualifications and training required To become a mining engineer, you will need a degree in a relevant subject such as mining engineering, civil engineering or geology. Some employers will ask for a 2.1 degree but others will accept candidates with a 2.2 degree. Take a look at our list ofengineering employers that accept 2.2 degrees A postgraduate qualification can be beneficial and may be necessary for some posts. A list of accredited courses is available on the Engineering Council’s website and you can read our article on engineering postgraduate options to explore your options. Relevant experience gained via placements or by working in junior positions is extremely beneficial. Take a look at our list ofengineering employers who offer industrial placements and summer internships. Most mining engineering degree courses offer periods of practical mining experience – these can provide a useful source of contacts for employment following the completion of academic studies. Different countries have varying requirements for entry into the profession in terms of experience and academic qualifications, so it is important to research the requirements and gain a qualification that will be accepted. Achieving chartered (CEng) status with the Engineering Council can help to demonstrate your professionalism and commitment to your field. To become chartered, you will need an accredited bachelors degree with honours in engineering or technology, plus an appropriate masters degree (MEng) or doctorate (EngD) accredited by a professional engineering institution such as the Institute of Materials, Minerals and Mining (IOM3). You will also be eligible with an integrated MSc. To find out more, take a look at our guide to chartership. Key skills for mining engineers Confidence Problem-solving and analytical skills Organisation and efficiency Independence Strong technical skills Teamworking skills Managerial and interpersonal skills IT skills.
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More Details : http://wwa.stonecrushersolution.org/solutions/solutions.html we will provide a professional answer and quality of services. If this video does not meet your needs I apologize here. Visit Website: http://www.gospellightbaptistschool.com Contact Us For Help: http://www.gospellightbaptistschool.com/chat.html Free Engineering Books Download free engineering Ebooks online Free Engineering Books Contains links to various Online Engineering Text Books, online notes and reference materials on various engineering topics such as PLACER GOLD RECOVERY METHODS, California Department of 2 DIVISION OF MINES AND GEOLOGY SP 87 CONCENTRATION OF PLACER GOLD ORE The recovery of placer gold involves processing similar to the processing of most ores. Advanced Control and Supervision of Mineral Processing Plants Environmental Engineering Advanced Control and Supervision of Mineral Processing Plants free ebook download: Views: 177 Likes: 22: Catalogue. Basic Principles Calculations Chemical Engineering, Ebooks B.Tech Curriculum.pdf Department of Chemical Engineering. Posted on 21, Sep, 2014, 3 views, by topadm. J.M. Smith Chemical Engineering Kinetics McGraw Hill Basics in Minerals Processing Handbook, ZME, ZME Basics in Minerals Processing Handbook. The ambition with this handbook, “Basics in Mineral Processing Equipment”, is to give technicians involved in mineral Free Industrial and Engineering Ebooks. Download free ebooks. Over 40 free industrial and engineering ebook sample downloads for the industrial sector Engineering, Maintenance, Management in manufacturing and other related Introduction to Mineral Processing, Chevron Phillips Chemical The ability of a mineral to float depends upon its surface properties. Chemical modification of these properties enables the mineral particles to attach to an air System design calculations for pneumatic conveying excel System design calculations for pneumatic conveying excel SBM. The quality products manufactured by SBM is Jaw Crusher, Portable Crushing Unit, Cone Crusher, Vertical Mineral Processing Design and Operation: An Introduction ?Mineral Processing Design and Operation: DOWNLOAD FROM RAPIDSHARE: HERE NuEBOOK is a search engine of ebooks on the Internet Extractive metallurgy, Management Ebooks PDF Ebooks Mineral Processing and Extractive Metallurgy Review has a 2010 Impact Factor of 0.611! Book 3.62 MB, Ebook Pages: 220 bachelor of engineering Process engineering, Wikipedia, the free encyclopedia Process Engineering focuses on the design, operation, control, and optimization of chemical, physical, and biological processes. Process engineering encompasses a International Journal of Mineral Processing, Elsevier Enter your login details for International Journal of Mineral Processing below. If you do not already have an account you will need to register here. introduction to mineral processing, beltconveyers.net Introduction to Mineral Processing_百度文库. Introduction to Mineral Processing, Introduction to Mineral Processing 1.0 Introduction 1.1 Mine Mineral Processing and Extractive Metallurgy Mineral Processing and Extractive Metallurgy is devoted to scientific, engineering, and economic aspects of the preparation, separation, extraction, and purification Books Ebooks Torrents, Torrent Downloads, download free Books Ebooks Torrents, torrent downloads, Books Ebooks Torrents, Bittorrent download source for torrent downloading, movies, music, games, software, tv shows, anime Engineering Study Material: Free Engineering eBooks : Plastic Download all kinds of Engineering Books for Free. Download, read & share hundreds of Engineering eBooks, engineering materials, Production technology, Mechanical Free ebook, e, book about manufacturing cost Free Ebook, Engineering EBook The True Cost of Downtime Time management, project management and lean manufacturing enabler. An aid to understanding for the six sigma Handbook Mineral Processing Technology Pdf– Rock Crusher Mill HANDBOOK OF MINERAL PROCESSING: Download free PDF share any PDF ebook on Handbook of mineral processing, MINING AND MINERAL PROCESSING ENGINEERING Environmental Engineering Books pdf Free Download Download free Text books, solution manuals, guides, notes and dictionaries on Environmental Engineering and Ecology with refernce to Civil Engineering Advances In Gold Ore Processing, Volume 15 (Developments In Book information and reviews for ISBN:9780444517302,Advances In Gold Ore Processing, Volume 15 (Developments In Mineral Processing) by M.D. Adams. An Introduction to Mining and Mineral Processing, EduMine The EduMine online course
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Mineral processing techniques in Artisanal and Small Scale Mining by professor Richard Amankwah from the University of Mines and Technology.
Views: 43 PanAfGeo Project
Dr Zhiyong Gao was invited and made an exclusive interview with Dr. Barry A. Wills. Barry Alan Wills, BSc, PhD Born 30 November 1945 Senior Partner, MEI (Minerals Engineering International) June 1996 – Present Founder and Editor of Minerals Engineering, a peer-reviewed Elsevier journal Technical advisor to MEI Conferences (www.min-eng.com/conferences) Technical advisor MEI Online website (www.min-eng.com) Manager of MEI Blog (www.min-eng.blogspot.com) Owner of Minerals Engineers group on LinkedIn Senior/Principal Lecturer, Camborne School of Mines, UK October 1974 – June 1996 Senior Development Engineer, Johnson Matthey, UK December 1973 – August 1974 Senior Metallurgical Engineer Nchanga Consolidated Copper Mines, Zambia October 1969 – August 1973 Distinguished Service Award, International Mineral Processing Council 2014 Medal for Excellence, IOM3 2017 Publications Books: Wills' Mineral Processing Technology. 1st edition in 1979, 8th edition October 2015 (Elsevier) Social media: MEI blog since 2009 Twitter @barrywills
Views: 34 CMMSP
EXCEPTIONAL INVESTMENT OPPORTUNITIES SELECTED BY MINING JOURNAL Mining Journal Select London is a carefully selected group of projects as nominated by the Mining Journal from around the world for the Gold & Silver, Copper & Zinc and Energy Minerals commodity groups. The inaugural edition took place from 26th - 27th June 2018, giving attending investors a personalised, curated agenda of private investment meetings and an exclusive opportunity to assess the best global opportunities identified by Mining Journal, the voice of our industry. We integrate our knowledge capital with the industry’s largest audience through Mining Journal’s titles, to share new ways of raising capital and to highlight the world’s leading mining projects in a new format. Our personalised agenda of private investment meetings, structured networking and interactive discussion groups and keynote speeches provides an exclusive opportunity for attendees to focus on the best global opportunities as part of an immersive multi-day event. Visit http://london.miningjournalselect.com/ www.aspermont.com
Industry experts discuss automation and mining at the 2018 Progressive Mine Forum in Toronto, presented by The Northern Miner and Canadian Mining Journal. Moderator: Alisha Hiyate, Canadian Mining Journal editor-in-chief. Panellists (from left): Mikko Koivunen, Sandvik Mining and Rock Technology’s business line manager for automation; Walter Siggelkow, Hard-Line’s president and founder; Jason Cox, Roscoe Postle Associates’ executive vice-president of mine engineering; Douglas Morrison, Centre for Excellence in Mining Innovation’s president and CEO; and Daniel Lucifora, Goldcorp’s manager of mine automation.
Views: 158 The Northern Miner
More Details : http://wwa.stonecrushersolution.org/solutions/solutions.html we will provide a professional answer and quality of services. If this video does not meet your needs I apologize here. Visit Website: http://www.gospellightbaptistschool.com Contact Us For Help: http://www.gospellightbaptistschool.com/chat.html 1 Bruce Mason, Lightweight Aggregates, from Industrial 1 Bruce Mason, "Lightweight Aggregates," from Industrial Minerals and Rocks, 6th ed., Society for Mining, Metallurgy, and Exploration, 1994, pp. 343, 350. Mineral Exploration Using GIS and Processed Aster Images Mineral Exploration Using GIS and Processed Aster Images Carlos A. Torres Advance GIS EES 6513 (Spring 2007) University of Texas at San Antonio Environmental Aspects of Phosphate and Potash Mining Preface Chapter 2 gives an overview of the processes involved in extracting these minerals and preparing them for fertilizer production. Chapter 3, the focus of the doc, LAB: HOW CAN MINERALS FORM FROM WATER? Name LAB: HOW CAN MINERALS FORM FROM WATER? Name: Many minerals form from the cooling of magma, but minerals can also form from other processes. International Journal of Mineral Processing, Elsevier The International Journal of Mineral Processing covers all aspects of the processing of solid, mineral materials such as metallic and non, metallic mineral processing for manganese ore pdf files mineral processing pdf file Coal Processing Plant Manganese Mining,Manganese Mineral processcrusher mining solutions mineral process costs screening Certification: The Path to Conflict, Free Minerals from Congo In order to inform certification efforts on conflict minerals from eastern Congo, this report gleans lessons from other certification processes, including those for Wills' Mineral Processing Technology, (Seventh Edition Wills Mineral Processing Technology provides practising engineers and students of mineral processing, metallurgy and mining with a review of all of the common ore Bottled Water Quality Report Contents REV 082014 4 Minerals as Gems A light blend of minerals contributes to the legendary taste of Deer Park? Brand Natural Spring Water. The mineral content of any water Mineral carbonation and industrial uses of carbon dioxide Chapter 7: Mineral carbonation and industrial uses of carbon dioxide 321 ExECutivE SuMMARy This Chapter describes two rather different options for carbon Adsorption of surfactants on minerals for wettability control Adsorption of surfactants on minerals for wettability control in improved oil recovery processes P. Somasundaran ?, L. Zhang Langmuir Center for Colloids and Understanding Mineral Rights, MSU Extension mineral rights. Understanding what mineral property is, mineral ownership are fundamental to understanding the process of mineral pdf. Fractional Another EPA; Extraction and beneficiation of ores and minerals EPA 530, R, 94, 030 NTIS PB94, 195203 TECHNICAL RESOURCE DOCUMENT EXTRACTION AND BENEFICIATION OF ORES AND MINERALS VOLUME 3 IRON August 1994 U.S. Environmental The Conflict Minerals Supply Chain, Enough Project 1 The Enough Project ? www.enoughproject.org, From Mine to Mobile Phone From Mine to Mobile Phone The Conflict Minerals Supply Chain Rocks & Minerals, Kean University Rocks & Minerals Introduction Atoms & Elements Minerals Igneous Rocks Sedimentary Rocks Metamorphic Rocks The Rock Cycle Geology of Mineral Resources United States Department Interior United States Department of the Interior OFFICE OFTHESOLICITOR in the mining claim and mineral patent process. Although the Mining Law provides that "no Acid Mine Drainage Mining & Water Pollution Issues in BC 4 Types of Water Pollution from Mining There are four main types of mining impacts on water quality: 1. Acid Mine Drainage Acid Rock Drainage (ARD) is a natural process Rocks and Minerals Multiple Choice, EarthScienceRocks (2) hardness (4) angles of cleavage. The diagram below represents geological processes that act continuously on Earth to form different rock Chapter 3: Minerals, Rocks and Natural Resources Chapter 3: Minerals, Rocks and Natural Resources Rocks and minerals help us understand Earth’s historical development and its dynamics. They are important to us SUSTAINABLE RECOVERY OF BY, PRODUCTS IN THE MINING INDUSTRY Sustainable Recovery of By, Products in the Mining Industry 4 mining industry, representing 83% of domestic mining capacity. Ore mined from open pits Magnesium, Raw Materials, Metal Extraction and Economics Magnesium, Raw Materials, Metal Extraction and Economics, Global Picture George J. Simandl British Columbia Ministry of Ener
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More Details : http://wwa.stonecrushersolution.org/solutions/solutions.html we will provide a professional answer and quality of services. If this video does not meet your needs I apologize here. Visit Website: http://www.gospellightbaptistschool.com Contact Us For Help: http://www.gospellightbaptistschool.com/chat.html genet mineral processing witbank, Coal Surface Mining genet mineral processing witbank Description : Hennie, Witbank Area, South Africa, LinkedIn There are 25 professionals named Hennie in the Witbank Area, South Challenges for future mineral processing, Home PROMETIA Challenges for future mineral processing Energy, Water and Masses Hermann Wotruba, Henning Knapp Unit of Mineral Processing, RWTH Aachen University The Use Of Laboratory Screen Analysis (wet And Dry) In About the use of laboratory screen analysis (wet and dry) in mineral processing, related information:journaltocs is the largest, free collection of scholarly journal Development of Dry Mineral Processing for Saving Water and We are developing dry mineral processing using a gas, solid fluidized bed, by which energy use for ore grinding can be reduced based on difference in properties of ore. Used Processing and Industrial Equipment, Machinery and We have thousands of items in our immediate inventory supplying the food, pharmaceutical, chemical, mining and minerals processing industries. Contact Machinery Mining Equipment and Mineral Processing Plants for Australia Trident Mining and Marine. Mineral processing equipment. Mobile gold mining equipment. Australia, New Zealand, Philippines, Papua New Guinea. Flow Diagram Of Magnetite Processing, Solution for ore mining Magnetite’s wet and dry methods of co, processing technology main deal with SP by three magnetic and then wet magnetic materials. The magnetic field strength used in Mineral Processing Equipment/Beneficiation Plant/Mineral We can supply MG brand Mineral Processing Equipment,Beneficiation Plant,Mineral Processing Equipment made bye products Opportunities, Mineral Processing The main physical separation processes used in dry process ore beneficiation are those based on particle size, density, magnetic properties and electrostatic charge. Impulses to enhance resource efficiency in mineral processing Henning Knapp PDAC, March 2nd, 5th 2014, Toronto Overview 2 German Research centers for mineral processing Freiberg Mineral Processing Toll Processing, Toll Manufacturing, Services, Ginn Mineral Ginn Mineral Technology Toll Processing and Manufacturing. Ginn Mineral excels in a variety of processing methods and also provides complete product manufacturing. Use Of Rod Mills In Mineral Processing mills use in mineral processing plant. mills use in mineral processing plant; PRODCUT. PRODCUT. Crushing Equipment. Quality Used Equipment for the Mineral Magnetic Separators, Magnetic Roll Separator and Magnetic Magnetic roll separator: Magnetic roll separator is a roll type dry magnetic separator with fixed magnet having high field intense and gradient. dry mineral processing plant dry mineral processing plant. drying in mineral processing. mineral processing Encyclopaedia Britannica. The removal of water from solid materials by thermal drying Dry mining mineral processing equipment, YouTube Get the price of machines: [email protected] ,for more details, here is our skype: billchanglei123 Chang Lei crushing equipment has many models for Liquid Analysis in Mineral Processing Liquid Analysis in Mineral Pr Thomas Patko, Advanced Sensor Technologies Inc. Introduction This paper describes mineral processing wet plant Paul Moorelooks at the extraction of zircon and titanium mineral sands, which involves specialised wet and dry mining methods that are processing plant that used Brochure Minerals Processing Equipment, ZME minerals processing can present. Our standard line of equipment for wet and dry grinding the mineral processing equipment previously sold mineral processing equipment mineral processing equipment. In the field of extractive metallurgy, mineral processing, also known as mineral dressing or ore dressing, is the process of separating Lodge Cottrell :: Cement and mineral processing Cement and mineral processing Lodge Cottrell is a leader in the design, construction and erection of high efficiency dust and fume control plant involved in the Gold mining equipment, Mining equipment China, Mineral Gold mining equipment, gravit ational mining equipment, Mining Equipment China, Gravity Mining Equipment, Mineral Processing, Mining machinery supplier Home [www.multotec1.com] For over 40 years, Mu
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Ancient Roman Mining Bibliography Bohstrom, Phillippe. Archaeologists Uncover Vast Ancient Roman Mining Operation in Spain. 7 March 2017. 4 April 2018. https://www.haaretz.com/archaeology/archaeologists-find-huge-roman-mining-operation-in-spain-1.5443584. Hays, Jeffrey. MINING AND RESOURCES IN ANCIENT ROME. January 2008. 4 March 2018. http://factsanddetails.com/world/cat56/sub369/item2050.html. Duncan, L. C. (1999, December 9). Toman Deep-vein Mining. Retrieved February 27, 2018, from http://www.unc.edu/~duncan/personal/roman_mining/deep-vein_mining.htm Oxford. (2008). Engineering and Technology in the Classical World . (J. P. Oleson, Ed.) Oxford: Oxford University Press Inc. Rickard, T. (1928). The Mining of the Romans in Spain. Journal of Roman Studies, 18(2), 129-143. doi:10.2307/296070
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The Minerals Council of Australia recently launched a campaign promoting the significance of mining for Australia’s economy, jobs, skills, community and future. One of the television advertisements features Quarry Mining, a longstanding customer of John Hart. Quarry Mining is a leading manufacturer of high quality drilling equipment and customised products for the construction and mining industries. Their team of drilling experts and engineers design and develop drilling equipment specific to the ground conditions and drilling challenges to make the drilling process safer, more productive and cost efficient, all made possible by a world class CNC production facility. Quarry Mining’s production facilities include eight, state of the art, Mazak machining centres and lathes as well as two automated robotic de-burring cells, proudly supplied and supported by John Hart.
Views: 370 John Hart
This documentary is about Wacam's two decades of experiences in the mining sector. It also highlights a proposed mining bill developed by Wacam, CEPIL and CEIA which seeks to address some of the challenges in Ghana's minerals and mining act, 2006 (Act 703)
Views: 999 kennedy marshall kusi
NOTE FROM TED: We've flagged this talk, which was filmed at a TEDx event, because it appears to fall outside TEDx's curatorial guidelines. As the speaker states in the opening of their talk, this is their own personal theory of health. Please do not look to this talk for medical advice. TEDx events are independently organized by volunteers. The guidelines we give TEDx organizers are described in more detail here: http://storage.ted.com/tedx/manuals/tedx_content_guidelines.pdf We know that water conducts electricity in our bodies. But would you like to see how? What if you learned about a little something extra that could add a lot more zap to your zip? Dr. Seneff has all the data that you need. A committed voice for sanity in science, Dr. Seneff has authored over two dozen peer-reviewed journal papers over the past few years about the connection between toxic chemicals and micro nutrient deficiencies in health and disease, with a focus on the dangers of Roundup (glyphosate) and the importance of sulfur. For more than three decades, her research interests have been at the intersection of biology and computation: developing a computational model for the human auditory system, understanding human language so as to develop algorithms and systems for human computer interactions, and applying natural language processing (NLP) techniques to gene predictions. Her current work focuses on the relationship between health and nutrition. Dr. Seneff is a Senior Research Scientist at MIT's Computer Science and Artificial Intelligence Laboratory in Cambridge, MA. She has four degrees from MIT including a B.S. in biology and a PhD in electrical engineering and computer science. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx
Views: 89979 TEDx Talks
EAGE is a professional association for geoscientists and engineers. Founded in 1951, it is an organization with a worldwide membership providing a global network of commercial and academic professionals. The association is truly multi-disciplinary and international in form and pursuits. All members of EAGE are professionally involved in (or studying) geophysics, petroleum exploration, geology, reservoir engineering, mining and mineral exploration, civil engineering, tunneling and environmental matters. EAGE operates two divisions: the Oil & Gas Geoscience Division and the Near Surface Geoscience Division. EAGE organises the following activities for its members: 1. Events (conferences, exhibitions, workshops) 2. Publications (journals, books) 3. Educational Programmes (short courses, lectures) 4. Student Programmes 5. Recruitment For more information please refer to the website: www.eage.org.
Views: 3106 EAGE Channel
JOHANNESBURG (miningweekly.com) – A call was made on Tuesday for the current surfeit of highly trained but jobless South African mining engineering university graduates to be directed towards spearheading a research revolution involving the creation of mining clusters that have agriculture on waste mine land and mineral recovery from slimes dams as their economic underpin. Veteran mining research commentator Dr RE (Robbie) Robinson, the one-time National Institute for Metallurgy, now Mintek, director and serial commentator in the Journal of the South African Institute of Mining and Metallurgy (SAIMM), makes the call in the attached Creamer Media’s Mining Weekly Online video interview.
Views: 242 MiningWeekly
A lecture given by Jan Baloyo of the University of Liverpool, Department of Engineering, for the 2016 Literature Review Prize of the Institute of Materials, Minerals and Mining (London). Porous metals are produced by a wide range of industrially applied techniques, and the resulting porous structure is a characteristic of the manufacturing method chosen. This review firstly provides an overview of the different techniques to manufacture open-cell porous metals, highlighting the distinction between the resulting porous structures. The effects of the structural parameters on the fluid flow properties and heat transfer in porous metals are also discussed. It was evident from literature that there exist optimum structural parameters which offered maximum thermal exchange performance. Therefore, the last part of this review outlines the current research on porous metals for thermal management applications, which focuses on optimising the design of the porous metal structure to improve the heat transfer performance. The Materials Literature Review Prize of IOM3 aims to encourage the preparation of definitive, critical reviews of the literature by students as an essential part of study for a higher degree in the materials field, and subsequently make the best of these available to a wider readership. The prize is administered by the Editorial Board of MST (the journal Materials Science and Technology). Open to any postgraduate student studying in the UK or internationally, the prize carries a cash award, in line with other IOM3 prizes for papers. A winning entry and two runner-up prizes are awarded each year, and all entries are considered for publication in the journal subject to acceptance following peer-review. http://www.iom3.org/news/2016/jul/05/materials-literature-review-prize-winner-announced
Views: 889 bhadeshia123
More Details : http://wwa.stonecrushersolution.org/solutions/solutions.html we will provide a professional answer and quality of services. If this video does not meet your needs I apologize here. Visit Website: http://www.gospellightbaptistschool.com Contact Us For Help: http://www.gospellightbaptistschool.com/chat.html Exploration zsuccessful exploration from a mineral a different manner and within different rocksand areas compared to exploration for oil or natural gas or iron ore. Iron Ore Processing Plant, Shanghai Zenith Company For Mining ( like gold, copper, Iron ore beneficiation or nonmetal beneficiation, etc) Rock On, California Lutheran University These banded or foliated areas are caused by different minerals in the rock that Fortified with iron cereal. Procedure: Iron Ore. http://www.mii.org/Minerals Copper Mining and Production Wastes, Radiation Protection rather than removing soil and rock to reach copper deposits, acids are injected into ore copper" consists of copper, iron separate it into a copper Importance of Mineralogy in Mineral Processing, [email protected] Das, Avimanyu and Singh, Ratnakar and Sahu, K K and Abhilash, and Goswami, N G (2008) Importance of Mineralogy in Mineral Processing. In: Training Course on Mineral Copper ores, Danafloat, Home The main copper sulphide minerals are chalcopyrite (CuFeS2) chalcocite (Cu2S), covellite (CuS), bornite (Cu5FeS4), tetrahedrite ((Cu,Fe)12Sb4S13) and enargite (Cu3AsS4). Changing Mining Royalties and Taxes: What to Expect CFEM, Mining Royalties Overview The triggering event for the CFEM is the outflow of minerals from the mining site, mine, saltmine or other mineral reservoirs. STANDARD OPERATING PROCEDURE FOR DRILLING OPERATION 1 GEOLOGICAL SURVEY OF INDIA ENGINEERING DIVISION Draft STANDARD OPERATING PROCEDURE FOR DRILLING OPERATION prepared by Engineering Division Iron Ore, Mineral Fact Sheets, Australian Mines Atlas About 98% of world iron ore production is used to make iron in (those containing the mineral siderite, FeCO 3) iron ore The many different kinds of Comparative Kinetics of Iron Ore Dissolution in Aqueous HCl Title: Comparative Kinetics of Iron Ore Dissolution in Aqueous HCl, HNO3 System Author: Onyedika Gerald, Nwoko Christopher, Oguarah Ayebatonworio, Ogwuegbu Martin Earth Science Facts, Explorit Science Center During the time when Earth was forming and was in a molten state, heavy materials like iron and nickel sank to the center of the Earth's mass and lighter materials Venu Chemcon V6, ResearchGate Chemcon 2013 66 th Annual Session of Indian Institute of Chemical Engineers Hosted at Institute of Chemical Technology, Mumbai 400 019 27, 30 December 2013 gcse 2. Blast furnace extraction of iron recycling, steel How do we extract iron from its mineral ores? How do we convert it into steel? The raw materials needed i.e. limestone, coke, air and iron ore and the chemistry of Open Access Recovery Improvement of Fine Iron Ore Particles Recovery Improvement of Fine Iron Ore Particles The Open Mineral Processing Journal, 2009, Volume 2 21 exhibits multiple joint and fracture surfaces along which the Multimodal Microscopy for Ore Characterization, InTechOpen 2. Ore microscopy. Ore microscopy is an essential tool for ore characterization. It was generally employed in its various modalities (stereoscopic, transmitted and Lead, University of Denver Contents. Introduction; Properties of Lead; The Chemistry of Lead; Lead as a Poison; Mineralogy and Production of Lead; The Lead, Acid Storage Battery; Cupellation MINING IN ONTARIO A deeper look, Ontario Nature Ontario’s mineral resources The set of activities that describe the different stages of mining is called to separate ore during milling, Learn about Metals: Properties, Corrosion, Alloys, Ores and are difficult to separate from the minerals they are The properties of these different metals can be The older process is to burn iron ore Photos of Natural Silver Ore, Silver minerals, Crystal ores This sulfide rich silver ore from Nevada is dark gray and colored by a heavy content of metallic sulfides. The rich silver minerals pyrargyrite and stephanite 40 Common Minerals and Their Uses, Welcome to National Position on Minerals; Position on Sustainable Development; Regulation Monitoring and NMA Comments (Members Only) Iron Ore. Used to manufacture steels of various Allmineral, Separation and Beneficiation Systems for Sand of which more than 50% are in iron ore beneficiation. ore, slag, sand, crushed stones and different recycling materials. coal, ore and mineral sand. How do I find percentage iron in an ore, g
Views: 289 Dacuk Porty
Candidates for the 1st Congressional District squared off Monday, Oct. 18 in a debate sponsored by The Mining Journal and the Peter White Public Library. Vying for the former seat of Republican Dan Benishek on Nov. 8 is Republican Jack Bergman, Democrat Lon Johnson and Libertarian Diane Bostow. Green Party candidate Ellis Bowles will also compete but did not participate in the debate. Candidates for the hotly-contested seat answered questions about the economy, environment, health care, education and much more. Video produced by LaDolce Video & Design http://ladolcevideo.com/ Research and Development for video by Selena Hautamaki
Views: 310 TheMiningJournal
Minister for Resources Wade Noonan officially opens the 3rd Annual International Mining and Resources Conference in Melbourne at the Melbourne Convention and Exhibition Centre to a diverse crowd of international mining delegates.
Views: 125 Department of Jobs, Precincts and Regions
Watch video India's First Common Engineering Facility Center (CEFC) launched in Bardoli, Gujarat by SETU Foundation at FETR Engineering College Campus - 26th March 2017. Investment of INR 502.7 Million with DHI (Department of Heavy Industries), Ministry of Heavy Industry, Government of India contributing INR. 278. 1 Million. At 100% capacity utilization, SETU - CEFC shall result in import substitution of approximately Rs.1239 crore. During its operating period of 10 years the CEFC is estimated to substitute approximately 8.91% of overall import into the country, thereby strengthening the ‘Make in India’ campaign. The project is estimated to provide revenue to GoI in the form of Direct & Indirect taxes to the tune of about INR 154.6 Million from its 1st year of operation and it goes up to INR 2091.4 Million in its 10th year. The Foundation Stone for India's First Common Engineering Facility Center (CEFC) building of SETU (Science Engineering & Technological Upliftment) Foundation was laid on Sunday, 26th March 2017, at the hands of Honourable Union Cabinet Minister for Heavy Industries & Public Enterprises, Shri Anant Gangaram Geete and Shri Rohitbhai Patel, Hon'ble Minister of State, Industries, Mines & Minerals, Finance, Government of Gujarat at FETR (Faculty of Engineering Technology & Research) Campus at Bardoli, Surat in Gujarat. Dignitaries Present at the Grand Function of SETU - CEFC Foundation Stone Laying at FETR Campus at Bardoli included Hetal Mehta, Chairman, SETU Foundation; Babubhai Patel, Managing Trustee, Sardar Vallabhbhai Patel Education Society (SVPES) & Director, SETU Foundation; Rajni Bachkaniwala, Chairman, Palod Himson Machines Pvt. Ltd. & Past Chairman of TMMA (I); R. Rajendran, Chairman, Textile Machinery Manufacturers' Association; N. Sivanand, IAS, Jt. Secretary, MHI&PE, GoI; Sanjay Chavre, Senior Development Officer (SDO), Department of Heavy Industry, MHI&PE, GoI; K. S. Aravindkumar, Member-National Advisory Council, SETU Foundation. Directors of SETU Foundation present included Vallabhbhai Thummar, Latesh Chaudhari, Mayank Dallal & Pradeep Patel. Presidents of VCCI (Vadodara Chamber of Commerce & Industry), SGCCI (Southern Gujarat Chamber of Commerce Industry) and VIA (Vapi Industries Association) were also present on this occasion. MARKENOMY - Journal of Sustainable Economy & Infrastructure brings to you this special coverage via its Editor-in-Chief & Publisher, Prof A. G. Iyer & Editorial Director R. Thiagarajan Iyer who were there on this historic occasion marking the manufacturing sector resurgence initiative and 'Make-in-India' Mission.
Views: 307 ENFRAtv
You can access Dr. Mudd's Power Point presentation here--http://ace.aua.am/files/2016/08/AUA-Mining-v-Environment-v-Susty-or-Resp.pdf About the Talk: Modern mining is a truly global industry, supplying ever more minerals and metals to meet growing global demand - but at what environmental and social costs? This presentation will cover the main issues facing modern mining - declining ore grades, bigger mines, giant open cut and underground mines, more tailings and waste rock, more energy-water-pollution issues, greater regulatory, corporate and financial scrutiny, and all the same time as communities are more aware of mining issues. Showing unique data sets and case studies, this talk will demonstrate that modern mining is far from running out of mineral resources but is clearly facing greater environmental risks. Solutions include better regulation, corporate reporting and accountability, as well as informed communities - thereby ensuring a responsible mining sector is contributing to sustainable development. About the Speaker: Dr. Gavin Mudd is a renowned global expert on the environmental sustainability of modern mining, and brings together a unique set of multi-disciplinary skills and knowledge to explore the challenges that the modern mining industry, governments and communities are collectively facing. His 20 years of research work have examined the environmental impacts to surface water and groundwater, waste rock and tailings management, acid mine drainage, rehabilitation, mineral resources, and the sustainability metrics of mining - and this has included detailed studies of almost all sectors of the global mining industry, such as gold, uranium, coal, gas, copper, nickel, platinum group elements, rare earths, mineral sands. To date he has presented or published more than 200 journal, conference and technical papers or reports (nearly two thirds of which are peer-reviewed) - with his research differentiated by the integration of rich data sets, leading the way in quantifying the environmental and sustainability issues affecting modern mining. Dr. Mudd is recognised worldwide for his unique and independent expertise on mining, and is currently Head of Environmental Engineering at Monash University in Melbourne, Australia, where he has collaborated closely with Dr. Simon Jowitt in recent years on the geological side underpinning the environmental issues facing modern mining.
Views: 182 AUA ACE
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Views: 6 Ranjith Kumar
Brian Skinner answers a question by Larry Meinert on the most influential papers in the journal Economic Geology half a century ago. They include geochemical papers by Paul Barton, Dick Holland, and Julian Hemley, generated by deposit and district-scale studies supported by mining companies. Recorded: October 18, 2009
Views: 461 Society of Economic Geologists, Inc.
The comment about the trip by Pat Harrison: It was awe inspiring to get that high up into the mountains in our jeeps! This was the most scenic and incredible wheeling I've done and was well worth the drive. The pics and vids that are going to come out of this trip won't even do justice to the awesomeness of it all...but they are going to be epic. A stock jeep would make it all the way to the top of this well made road to the heavens but I wouldn't do it alone. From the upper meadow which is at the 6600' level to the top the trail is sometimes just wheel width wide and the view out the downside window is of a 1650' drop off at about 60 degrees. Makes for some real gut checking moments....throw in a couple if big rocks that require the inner wheel to go over them because there is no way around them and you've got an exciting moment or two! The comment about the trip by Jim Horner : GREAT video Yusuf! Thanks for planning out a great trip and getting a record of it like this. These Coast Mountains are spectacular. We were to the immediate north of the pristine Stein Valley, which has no roads or motorized access at all, so this was about as close to nature as we could get in our jeeps. Great job! Thank you!
Views: 26602 likes2jeep
References: ANTAM’s Annual Report 2016 http://www.antam.com/images/stories/joget/file/annual/2016/ar_antam_2016.pdf Percentage of Total Nickel Deposit https://www.researchgate.net/figure/Lateritic-profi-les-developed-on-serpentinized-ultramafi-c-rocks-showing-the-principal_fig2_237840522 Laterite Nickel Ore Deposit: https://www.geologyforinvestors.com/nickel-laterites/ Laterite Ore Journal: https://www.sciencedirect.com/science/article/pii/S0301751613000999 Carefree by Kevin MacLeod is licensed under a Creative Commons Attribution license (https://creativecommons.org/licenses/by/4.0/) Source: http://incompetech.com/music/royalty-free/index.html?isrc=USUAN1400037 Artist: http://incompetech.com/
Views: 239 Tsabit Ayman
A lecture given by Peter Jenkins of the University of Strathclyde, Department of Mechanical and Aerospace Engineering, for the 2016 Literature Review Prize of the Institute of Materials, Minerals and Mining (London). The strength loss of glass fibres (GFs) following exposure to elevated temperatures is a long-established phenomenon, yet the mechanism or mechanisms responsible for the strength decrease are not fully understood, aside from acknowledgement that surface flaws must become more severe by some means. As disposal of GF-based composite materials by landfill has become untenable in many regions, interest in composite recyclability has increased. Separation of GFs from thermosetting polymers generally requires the use of high temperatures, which produces very weak fibres with minimal commercial value. In this context, an understanding of the strength loss mechanisms is of importance in terms of efforts to mitigate fibre damage or to recover the strength of previously heated fibres. In addition to fibre strength loss, numerous other physical and chemical changes to heat treated or recycled GF have been described in the literature. The Materials Literature Review Prize of IOM3 aims to encourage the preparation of definitive, critical reviews of the literature by students as an essential part of study for a higher degree in the materials field, and subsequently make the best of these available to a wider readership. The prize is administered by the Editorial Board of MST (the journal Materials Science and Technology). Open to any postgraduate student studying in the UK or internationally, the prize carries a cash award, in line with other IOM3 prizes for papers. A winning entry and two runner-up prizes are awarded each year, and all entries are considered for publication in the journal subject to acceptance following peer-review. http://www.iom3.org/news/2016/jul/05/materials-literature-review-prize-winner-announced
Views: 96 bhadeshia123
Read the Mineral and Energy Policies special issue of the Australian Journal of Agricultural and Resource Economics here http://onlinelibrary.wiley.com/doi/10.1111/ajar.2012.56.issue-2/issuetoc
Views: 52 Wiley
Geological field visit at Malekhu in Dhading , Nepal.
Views: 41 Error Path
Gavin Mudd presents in the SMI seminar series in a talk titled: "The Environmental Side of Mining". Filmed on Thursday, 20th September, 2012 Unless expressly indicated, the views and opinions raised in this video are those of presenter and not the views of the Centre for Social Responsibility in Mining, the Sustainable Minerals Institute or The University of Queensland. Information provided as fact should be corroborated against information published in peer-reviewed academic journals or other trustworthy sources.
Views: 373 smicsrm
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Views: 3 Ranjith Kumar
Courtesy of Tech Insider --- Extreme Journey to the center of the Earth - Scientific drilling into the Earth is a way for scientists to probe the Earth's sediments, crust, and upper mantle. In addition to rock samples, drilling technology can unearth samples of connate fluids and of the subsurface biosphere, mostly microbial life, preserved in drilled samples. Most of the technology used for drilling come from advances in the oil and gas industry. Scientific drilling is carried out on land by the International Continental Scientific Drilling Program (ICDP) and at sea by the Integrated Ocean Drilling Program (IODP). Scientific drilling on the continents includes drilling down into solid ground as well as drilling from small boats on lakes. Sampling thick glaciers and ice sheets to obtain ice cores is related but will not be described further here. Like probes sent into outer space, scientific drilling is a technology used to obtain samples from places that people cannot reach. Human beings have descended as deep as 2,080 m (6,822 ft) in Voronya Cave, the world's deepest known cave, located in the Caucasus mountains of the country of Georgia. Gold miners in South Africa regularly go deeper than 3,400 m, but no human has ever descended to greater depths than this below the Earth's solid surface. As depth increases into the Earth, temperature and pressure rise. Temperatures in the crust increase about 15°C per kilometer, making it impossible for humans to exist at depths greater than several kilometers, even if it was somehow possible to keep shafts open in spite of the tremendous pressure. Scientific drilling is interdisciplinary and international in scope. Individual scientists cannot generally undertake scientific drilling projects alone. Teamwork between scientists, engineers, and administrators is often required for success in planning and in carrying out a drilling project, analyzing the samples, and interpreting and publishing the results in scientific journals. Humans have reached the moon and are planning to return samples from Mars, but when it comes to exploring the land deep beneath our feet, we have only scratched the surface of our planet. This may be about to change with a $1 billion mission to drill 6 km (3.7 miles) beneath the seafloor to reach the Earth's mantle -- a 3000 km-thick layer of slowly deforming rock between the crust and the core which makes up the majority of our planet -- and bring back the first ever fresh samples. It could help answer some of our biggest questions about the origins and evolution of Earth itself, with almost all of the sea floor and continents that make up the Earth´s surface originating from the mantle. Geologists involved in the project are already comparing it to the Apollo Moon missions in terms of the value of the samples it could yield. However, in order to reach those samples, the team of international scientists must first find a way to grind their way through ultra-hard rocks with 10 km-long (6.2 miles) drill pipes -- a technical challenge that one of the project co-leaders Damon Teagle, from the UK's University of Southampton calls, "the most challenging endeavor in the history of Earth science." 'A ship flying in space:' Earth seen through the eyes of an astronaut Their task will be all the more difficult for being conducted out in the middle of the ocean. It is here that the Earth´s crust is at its thinnest at around 6 km compared to as much as 60 km (37.3 miles) on land. Drilling all the way to the mantle would also give geologists a look at what they call the Mohorovičić discontinuity, or Moho, for short. Above this mysterious zone, named for the Croatian seismologist who discovered it in 1909, seismic waves travel at around 4.3 miles per second, a rate consistent with those waves traveling through basalt, or cooled lava. Below the Moho, the waves rip along at around 5 miles per second, similar to the rate they travel through a silica-poor type of igneous rock called peridotite. The Moho typically lies between 3 to 6 miles below the ocean floor and anywhere between 12 to 56 miles beneath the continents. This zone has long been considered the crust-mantle boundary, where material gradually cools and sticks to the overlying crust. But some lab studies suggest it’s possible that the Moho represents the zone where water seeping down from the overlying crust reacts with mantle peridotites to create a type of mineral called serpentine. This possibility is exciting, Dick and MacLeod suggest. The geochemical reactions that generate serpentine also produce hydrogen, which can then react with seawater to produce methane, a source of energy for some types of bacteria. Or, the researchers note, the Moho could be something else entirely unknown to science. Music: Land of Giants by Dhruva Aliman https://dhruvaaliman.bandcamp.com/album/road-of-fortunes http://www.dhruvaaliman.com/
Views: 101898 Wise Wanderer
(www.abndigital.com) Despite the setbacks in the mining sector, Africa's mining potential is unfolding as a number of economies are increasingly becoming more important in terms of global mineral production offering opportunity for mineral exploitation activities. The World Bank's Chief Economist, Shanta Devarajan explains just how African countries can leverage off the position we find ourselves in.
Views: 178 CNBCAfrica
We speak to Publication Manager Carly Sare on the importance of mine safety throughout Australia. www.safetyinaction.net.au
Views: 388 Informa Australia
Talk Overview 90% of geophysicists in the world explore for oil and gas. Another 5% explore for mineral resources. And another 4.9% teach and regulate the previous 95%. In today's world, fluctuating commodity prices and mountainous stockpiles of recycled metals tell us that we have too much oil, uranium, coal, and iron ore. Today and in the foreseeable future, what the world is drastically scarce of is clean water, clean soil, and a common cultural legacy. Those remaining less than 0.1% of geophysicists not accounted for, above, are dedicated to developing techniques to explore for potable water, mapping soil salinization, demining previously productive agricultural land, and delineating subsurface remains of culturally rich sites threatened by development. With examples from Africa, Asia, Australia, and the Middle East, we can see how these non-destructive subsurface investigation techniques can radically improve life not only on a local and regional scale, but even on a continent wide scale. And where we are not using these approaches, we can envision how the development of access to clean water, clean soil, and mankind's cultural legacies can be greatly improved. Speaker Profile Paul Bauman is the Technical Director of the Geophysics group at WorleyParsons, in Calgary, where he has been working since 1990. He is one of the world experts on near surface applications of borehole and surface geophysical methods as applied to investigations in water resources, archaeology, soil science, geotechnical engineering, subsurface contamination, and geohazard identification. Paul has a B.Sc.E. in Geological Engineering from Princeton University, a Minor in Near Eastern Studies from Princeton, and an M.Sc. in Earth Sciences from the University of Waterloo. Paul has published widely in peer reviewed journals, scientific volumes, and conference proceedings. He has presented geophysical papers at over 100 conferences in an extraordinarily wide range of disciplines including geophysics, soil science, hydrogeology, disaster relief, archaeology, water resource development, contaminant hydrogeology, mining, mine waste management, heavy oil, shallow gas, salt water intrusion, salt water intrusion, etc. He has been an invited speaker at many educational, professional, and government institutions including Princeton University, Boston University, California State, the University of Pennsylvania, the National Water Authority in Yemen, the Israel Museum in Jerusalem, the Royal BC Museum, and the Prince of Wales Northern Heritage Centre in Yellowknife. Aspects of his archaeogeophysical work have been the subject of a NOVA documentary (Ancient Refuge in the Holy Land), numerous radio and television interviews, a National Geographic movie entitled "Finding Atlantis," and numerous newspaper and magazine articles including in Time, National Geographic, and the Reader's Digest. Paul's work in the Cave of Letters and other sites is featured in the recently published popular books Secrets of the Cave of Letters: Rediscovering a Dead Sea Mystery; Digging Through the Bible: Modern Archaeology and the Ancient Bible; and Digging through History: Archaeology and Religion from Atlantis to the Holocaust. Ongoing archaeogeophysical projects include the subsurface imaging of a Roman bath house from the time of Jesus, located in Nazareth; the geophysical mapping of the ancient Phoenician harbour of Tel Akko, perhaps the first constructed harbour in the world; and the geophysical mapping of the destroyed and buried remains of a World War II Nazi extermination camp at Sobibor, Poland. A few water resource projects of note include the introduction of an entirely new approach to water exploration in Africa, which raised success rates in drilling from less than 20% to over 90% in Malawi; innovative and successful geophysical water exploration programs in Yemen which tapped previously unused aquifers in areas that had gone years without significant rainfall; and the secondment to UNICEF to assess the impact of the 2004 Boxing Day Tsunami to the water resources of Aceh Province in Indonesia, and to begin the redevelopment and rehabilitation of water supplies to the region -- besides being an experienced geophysicist and hydrogeologist, Paul speaks fluent Indonesian and Malay.
Views: 2724 TEDx Talks
What is AUTOMATED MINERALOGY? What does AUTOMATED MINERALOGY mean? AUTOMATED MINERALOGY meaning - AUTOMATED MINERALOGY definition - AUTOMATED MINERALOGY explanation. Source: Wikipedia.org article, adapted under https://creativecommons.org/licenses/by-sa/3.0/ license. SUBSCRIBE to our Google Earth flights channel - https://www.youtube.com/channel/UC6UuCPh7GrXznZi0Hz2YQnQ Automated mineralogy is a generic term describing a range of analytical solutions, areas of commercial enterprise, and a growing field of scientific research and engineering applications involving largely automated and quantitative analysis of minerals, rocks and man-made materials. Automated mineralogy analytical solutions are characterised by integrating largely automated measurement techniques based on Scanning Electron Microscopy (SEM) and Energy-dispersive X-ray spectroscopy (EDS). Commercially available lab-based solutions include QEMSCAN and Mineral Liberation Analyzer (MLA) from FEI Company, Mineralogic from Zeiss, INCAMineral from Oxford Instruments, the TIMA (Tescan integrated mineral analyzer) from TESCAN and AMICS from Bruker. The first oil & gas wellsite solution was launched jointly by Zeiss and CGG Veritas in 2011 called RoqSCAN. This was followed approximately 6 months later by the release of QEMSCAN Wellsite by FEI Company. More recently in 2016, a ruggedized mine site solution for mining and mineral processing was launched by Zeiss called MinSCAN. The business of automated mineralogy is concerned with the commercialisation of the technology and software in terms of development and marketing of integrated solutions. This includes all aspects of: service; maintenance; customer support; R&D; marketing and sales. Customers of automated mineralogy solutions include: laboratory facilities; mine sites, well sites, and research institutions. Automated mineralogy solutions are applied in a variety of fields requiring statistically reliable, quantitative mineralogical information. These include the following sectors: mining; O&G; coal; environmental sciences; forensic geosciences; archaeology;agribusiness; built environment and planetary geology. The first recorded use of the term automated mineralogy in technical journals can be traced back to seminal papers in the late eighties early nineties describing QEMSCAN technology and applications. The term gained significant popularity after it was used to name a new international conference in July 2006.
Views: 253 The Audiopedia
Sustainability through Mining Symposium: 1. Educate 2. Deliberate 3. Change 4. Understand 5. Communicate. Recorded at COM 2012 in Niagara Falls. Video production courtesy of Hatch http://www.hatch.ca/ @Hatch. Symposium organized by MetSoc of CIM http://www.metsoc.org
Views: 260 Metallurgy and Materials Society of CIM
Dr Kathryn Sturman of the Centre for Social Responsibility in Mining raises the question 'Is Mining Developing Africa?' The presentation was given at a Brisbane Development Circle Event hosted by CSRM, which explored the opportunities and limitations of "Mining as Development". Find out more about CSRM at www.csrm.uq.edu.au Unless expressly indicated, the views and opinions raised in this video are those of presenter and not the views of the Centre for Social Responsibility in Mining, the Sustainable Minerals Institute or The University of Queensland. Information provided as fact should be corroborated against information published in peer-reviewed academic journals or other trustworthy sources.
Views: 302 smicsrm
Satellites have taken images of the earth for over 40 years some designed for specific applications but nothing has been designed with the end user in mind. This whistle stop tour presentation will take us back to 1972 with the launch of Earth Resources Terrain Satellite (ERTS-1) which then became known as the Landsat-1 and was the start of the Landsat series (now on its 8th satellite) and I would argue also the start of the commercial usage of Earth Observation data, right up to the present day and beyond as we look at what is upcoming and benefits to geology. Charlotte Bishop, Geological Remote Sensing Group Charlotte is a specialist in remote sensing with over 12 years’ experience of working with satellite imagery in a range of market sectors including Oil&Gas, Mining, Engineering and Environmental applications. She graduated with a BSc in Physical Geography from University of Reading (2005) before starting work at Nigel Press Associates Ltd (now owned by CGG) returning to education to undertake an MSc in Remote Sensing at UCL/ Imperial College in 2006 where her dissertation topic focused on hyperspectral mineral mapping over a copper porphyry system in China using the spaceborne EO-1 Hyperion satellite. She went back to Nigel Press Associates Ltd following her studies where she remained until 2017 as a Remote Sensing Specialist and Project Manager within the Imagery and Data Services team focusing predominately on optical satellite systems and led both projects and master services contracts at a Space Agency level as well as for commercial companies such as major Oil&Gas companies, environmental consultants and mining companies. In May 2017 she was appointed as Technical Business Development Lead for Terrabotics Ltd a Tech Start-up focused on developing and rapidly deploying algorithms, developed using computer vision and A.I. to process and analyse satellite imagery at scale for the Oil&Gas, Mining and Natural Resources market sectors. Products include the generation of detailed high accuracy 3D models along with, and most relevant to this project, 2D/3D change detection and object recognition which are readily supplied to major Oil&Gas and mining companies and environmental consultants globally During her career she has also held an Associate Editor role for the International Journal of Applied Earth Observation and Geoinformation (2015-2017) which produced a 2018 Geological Remote Sensing Special Issue (in press) for which she was Chief Guest Editor and also sits on a number of committees including the OGEO (Oil&Gas, Earth Observation) Committee (now part of the IOGP Geomatics committee), as well as being elected in 2017 as the first female Chairman of the Geological Remote Sensing Group (GRSG – www.grsg.org.uk) a special interest group of the Geological Society and Remote Sensing and Photogrammetry Society (RSPSoc) founded in 1989. A self-confessed satellite nerd her passion is to ‘share the love’ of the power of the growing sensor and processing technology available to help meet the challenges faced across a wide range of industries.
Views: 206 GeologicalSociety
Professor Chris Exley is a formidable scientist, which is perhaps more important than you think, because a study he published today with his colleagues in the Journal of Trace Elements in Medicine and Biology may just be the “smoking gun” to prove that vaccines are triggering autism that we’ve all been waiting for. Professor Exley is a Professor of Bioinorganic Chemistry at Keele University in Staffordshire, England. He received a Ph.D. in a subject that makes him highly qualified to author this latest paper: “the ecotoxicology of aluminium.” Learn More: https://medium.com/@jbhandley/new-study-massive-aluminum-levels-in-autism-brains-is-this-the-smoking-gun-for-vaccines-54ae85ec2a9c Your Support of Independent Media Is Appreciated: Bitcoin Address- 1KbDZijL3jVJGyea3zhanUwPbnCE9op2mk Lite Coin - LMpmVuR5vHVYdrgMsauPskGQS5v9YCpuxm Ether- 0xDE3eB573a9501971bEBEB5e05Ae6de048F6239Af https://www.paypal.me/dahboo7 Earn Free Coins Daily, No Strings Attached! https://qoinpro.com/8620aa802b989cb4fbd962c0aecf284c Get Free Bitcoin Cash Every 24 Hours! http://blocksize.party/ https://www.coinbase.com/join/593ea983d4cb5505fe9e603c Official Gear- https://teespring.com/stores/dahboo7 www.undergroundworldnews.com https://www.minds.com/DAHBOO7 My Other Youtube Channel- https://www.youtube.com/Dahboo777 https://twitter.com/dahboo7 https://vid.me/DAHBOO7 https://www.facebook.com/TheUndergroundWorldNews https://www.instagram.com/dahboo7/
Views: 10696 DAHBOO777
Dr.V.D.Rajagopal Former President of MEAI at Green Mining-Hybiz.tv ► Watch More Business Videos at Indias Leading online business channel Hybiz TV ► Like us on Facebook: http://www.facebook.com/hybiz ► Watch More Videos on http://www.youtube.com/hybiztv ► Subscribe to HYBIZTV Channel: goo.gl/EEXqfu
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Image sources: https://upload.wikimedia.org/wikipedia/commons/6/60/Gold_Ingots_on_white_background.jpg https://pixabay.com/p-147591/?no_redirect https://upload.wikimedia.org/wikipedia/commons/thumb/5/53/Skull_and_crossbones.svg/2000px-Skull_and_crossbones.svg.png https://upload.wikimedia.org/wikipedia/commons/thumb/6/66/Blank_Map-Africa.svg/2000px-Blank_Map-Africa.svg.png https://upload.wikimedia.org/wikipedia/commons/6/6f/Flag_of_the_Democratic_Republic_of_the_Congo.svg https://upload.wikimedia.org/wikipedia/commons/thumb/e/ee/UN_emblem_blue.svg/2000px-UN_emblem_blue.svg.png https://static.pexels.com/photos/432722/pexels-photo-432722.jpeg https://upload.wikimedia.org/wikipedia/commons/f/f5/Electronic_circuit.jpg https://upload.wikimedia.org/wikipedia/commons/0/04/Tungsten_rod_with_oxidized_surface%2C_80_grams.jpg https://upload.wikimedia.org/wikipedia/commons/6/61/Tantalum.jpg https://upload.wikimedia.org/wikipedia/commons/3/36/M23_troops_Bunagana_4.jpg https://upload.wikimedia.org/wikipedia/commons/a/a6/Wolframite_Mining_in_Kailo2%2C_DRC.jpg https://upload.wikimedia.org/wikipedia/commons/thumb/a/a5/Map_of_USA_with_state_names.svg/2000px-Map_of_USA_with_state_names.svg.png https://upload.wikimedia.org/wikipedia/commons/3/38/See_No_Evil%2C_Hear_No_Evil%2C_Speak_No_Evil.jpg https://pixabay.com/p-315080/?no_redirect https://upload.wikimedia.org/wikipedia/commons/c/c7/Weighted_moving_average_weights_N%3D15.png Scholarly Sources: Airike, P., Rotter, J. P., & Mark-Herbert, C. (2016). Corporate motives for multi-stakeholder collaboration– corporate social responsibility in the electronics supply chains. Journal Of Cleaner Production, 131639-648. doi:10.1016/j.jclepro.2016.04.121 Fitzpatrick, C., Olivetti, E., Reed Miller, T., Roth, R., & Kirchain, R. (2015). Conflict Minerals in the Compute Sector: Estimating Extent of Tin, Tantalum, Tungsten, and Gold Use in ICT Products. Environmental Science & Technology, 49(2), 974-981. doi:10.1021/es501193k Jameson, N., Song, X., & Pecht, M. (2016). Conflict Minerals in Electronic Systems: An Overview and Critique of Legal Initiatives. Science & Engineering Ethics, 22(5), 1375-1389. doi:10.1007/s11948-015-9704-7 Nanda, V. P. (2014). CONFLICT MINERALS AND INTERNATIONAL BUSINESS: UNITED STATES AND INTERNATIONAL RESPONSES. ILSA Journal Of International & Comparative Law, 20(2), 285-304. Nelson, A. L. (2014). THE MATERIALITY OF MORALITY: CONFLICT MINERALS. Utah Law Review, 2014(1), 219-241. SCHUELE, C. K. (2016). HEALING THE CONGO'S COLONIAL SCARS: ADVOCATING FOR A HYBRID APPROACH TO CONFLICT MINERALS REPORTING REGULATIONS IN THE EUROPEAN UNION. Wisconsin International Law Journal, 33(4), 755-786. Seitz, W. H. (2015). Market reactions to regulations on minerals from the democratic republic of the Congo. Defence & Peace Economics, 26(4), 425-441. doi:10.1080/10242694.2014.972088 STORK, V. (2016). Conflict Minerals, Ineffective Regulations: Comparing International Guidelines to Remedy Dodd-Frank's Inefficiencies. New York Law School Law Review, 61(3/4), 429-447. Van Marter, K. D. (2015). Between a Rock and a Hard Place: The Unintended Consequences of the Conflict Minerals Rule. Tulane Journal Of International & Comparative Law, 24(1), 291-313. Verbrugge, B. (2015). Decentralization, Institutional Ambiguity, and Mineral Resource Conflict in Mindanao, Philippines. World Development, 67449-460. doi:10.1016/j.worlddev.2014.11.007 http://www.pewresearch.org/fact-tank/2017/01/12/evolution-of-technology/ Vogel, C., & Raeymaekers, T. (2016). Terr(it)or(ies) of Peace? The Congolese Mining Frontier and the Fight Against 'Conflict Minerals'. Antipode, 48(4), 1102-1121. doi:10.1111/anti.12236 http://hdr.undp.org/sites/default/files/Country-Profiles/COD.pdf
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In April 2011, CSIRO researchers mapped over 17km of the Northparkes copper/gold mine in New South Wales, Australia. The mine operators required a locally accurate 3D surface model in order to determine whether and how large equipment could be moved through the decline. Vehicle localization underground was achieved using a spinning SICK LMS291. Specialized SLAM software developed at CSIRO allows the vehicle position to be tracked in real-time while simultaneously generating 3D point cloud maps. Two vertical lasers were also mounted to acquire data at uniform density for surface reconstruction. The data was collected in under two hours while driving a site vehicle at regular driving speeds (20-30kph), without disruption to mine operations. The final surface model can be generated within a few hours of acquisition. The resulting surface model is globally consistent and was georeferenced using available 2D mine plan data. The hardware used was previously constructed for other experiments, and due to the short turnaround time for this deployment, it was left mostly unchanged for this application. The plastic sheeting over the sensor payload was required to protect the equipment from dust suppression mist present in some areas of the mine. An earlier video demonstrating the spinning laser SLAM algorithm: http://youtu.be/aAkAyg5mbcg Publications related to this video:  R. Zlot and M. Bosse, "Efficient Large-scale Three-dimensional Mobile Mapping for Underground Mines", Journal of Field Robotics, 2014, http://dx.doi.org/10.1002/rob.21504 or https://db.tt/06eNtfbb  R. Zlot and M. Bosse, "Efficient Large-Scale 3D Mobile Mapping and Surface Reconstruction of an Underground Mine", International Conference on Field and Service Robotics, 2012. https://db.tt/pGBbw0Pz or http://dx.doi.org/10.1007/978-3-642-40686-7_32 A video drive-through of the mine: http://youtu.beHn11LiwjehQ Other relevant publications: http://www.ict.csiro.au/staff/robert.zlot/publications.php More information on our mapping and localization research can be found here: http://research.ict.csiro.au/research/labs/autonomous-systems/field-robotics/mapping-and-localisation We would like to thank Northparkes Mine for their support and assistance. We would also like to acknowledge the support of the CSIRO Minerals Down Under Flagship http://www.csiro.au/MDU