Core drilling is used to investigate the underground distribution of minerals without disturbing the topsoil. Drill cores can indicate the depth and distribution of mineral deposits. Additional drillholes provide more geological data for interpretation. Before mining begins, a complete environmental study is conducted to plan land rehabilitation during and after extraction. Common mining methods are surface mining techniques like open-pit mining for near-surface deposits, and underground mining for deeper deposits.
Ore Minerals (How it is found, mined, and processed for human use)Simple ABbieC
Department of Education | Senior High School
Topic: Ore Minerals (How it is found, mined, and processed for human use)
Learning Competency:
Earth Science (for STEM): Describe how ore minerals are found, mined, and processed for human use. (S11ES-Ic-d-8)
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Ore Minerals (How it is found, mined, and processed for human use)Simple ABbieC
Department of Education | Senior High School
Topic: Ore Minerals (How it is found, mined, and processed for human use)
Learning Competency:
Earth Science (for STEM): Describe how ore minerals are found, mined, and processed for human use. (S11ES-Ic-d-8)
Please LIKE / FOLLOW and SHARE my other social media accounts.
Facebook: https://www.facebook.com/Simple-ABbieC-131584525051378/
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Mining (ore minerals and lessening the impact of mining)Jason Alcano
This presentation includes topics such as how ore minerals are found, mined and processed, effects of massive mineral extraction and ways in minimizing the effects of mining industries. All information and images reflected in the presentation were based on internet sources that are cited and given credit in the presentation. Furthermore, the author disclaims to any inaccuracies within the presentation. Thank you and hope this can help you.
Chapter-1
Introduction
1.0 BACKGROUND
Content in Time New Roman, Size 12
Fig. 1.1: Effect of fragmentation on the cost of drilling, blasting, loading and hauling.[Source: Wyllie and Mah(2005)]
Drilling and blasting costs can account for up to 25% of a project's overall production cost. Despite this, the planning and execution of a blast is rarely given the attention it deserves in our country. Drilling and blasting executed properly can significantly contribute to profitability of the mine, thus these parameters must be optimized.
The term optimization refers to attaining the best possible result, i.e., achieving the maximum or minimum value of the operating parameters. Blasting optimization is influenced by a number of complex aspects such as the rock, explosive, initiation, drill-hole characteristics, and their layout. Drilling optimization is mainly influenced by the rock characteristics, target production and drilling equipment characteristics. The current research is a step toward building a rudimentary model with simple procedures that the mining industry may use to improve blasthole drilling performance.
Deep sea mining is a new frontier for mining engineers. Sea floor holds the potential mineral that are vital for development which is not even explored, the advancement of technology in the time will enable to access reliable infrastructure and methods to extract sea floor without compromising the sustainability and eco friendly.
A powerpoint presentation for teachers on providing instructions to learners to construct and collaborate on the various minerals that are mined to produce Computer Parts and how it impacts on human waste management
Activity Worksheet in Earth Science: Properties of a Habitable PlanetRaceDeVilla
This is an Activity Worksheet in Earth Science about the Properties of a Habitable Planet. Follow the provided instructions for an interactive session about habitable planets. Suitable for the Senior High School.
Mining (ore minerals and lessening the impact of mining)Jason Alcano
This presentation includes topics such as how ore minerals are found, mined and processed, effects of massive mineral extraction and ways in minimizing the effects of mining industries. All information and images reflected in the presentation were based on internet sources that are cited and given credit in the presentation. Furthermore, the author disclaims to any inaccuracies within the presentation. Thank you and hope this can help you.
Chapter-1
Introduction
1.0 BACKGROUND
Content in Time New Roman, Size 12
Fig. 1.1: Effect of fragmentation on the cost of drilling, blasting, loading and hauling.[Source: Wyllie and Mah(2005)]
Drilling and blasting costs can account for up to 25% of a project's overall production cost. Despite this, the planning and execution of a blast is rarely given the attention it deserves in our country. Drilling and blasting executed properly can significantly contribute to profitability of the mine, thus these parameters must be optimized.
The term optimization refers to attaining the best possible result, i.e., achieving the maximum or minimum value of the operating parameters. Blasting optimization is influenced by a number of complex aspects such as the rock, explosive, initiation, drill-hole characteristics, and their layout. Drilling optimization is mainly influenced by the rock characteristics, target production and drilling equipment characteristics. The current research is a step toward building a rudimentary model with simple procedures that the mining industry may use to improve blasthole drilling performance.
Deep sea mining is a new frontier for mining engineers. Sea floor holds the potential mineral that are vital for development which is not even explored, the advancement of technology in the time will enable to access reliable infrastructure and methods to extract sea floor without compromising the sustainability and eco friendly.
A powerpoint presentation for teachers on providing instructions to learners to construct and collaborate on the various minerals that are mined to produce Computer Parts and how it impacts on human waste management
Activity Worksheet in Earth Science: Properties of a Habitable PlanetRaceDeVilla
This is an Activity Worksheet in Earth Science about the Properties of a Habitable Planet. Follow the provided instructions for an interactive session about habitable planets. Suitable for the Senior High School.
Deep Behavioral Phenotyping in Systems Neuroscience for Functional Atlasing a...Ana Luísa Pinho
Functional Magnetic Resonance Imaging (fMRI) provides means to characterize brain activations in response to behavior. However, cognitive neuroscience has been limited to group-level effects referring to the performance of specific tasks. To obtain the functional profile of elementary cognitive mechanisms, the combination of brain responses to many tasks is required. Yet, to date, both structural atlases and parcellation-based activations do not fully account for cognitive function and still present several limitations. Further, they do not adapt overall to individual characteristics. In this talk, I will give an account of deep-behavioral phenotyping strategies, namely data-driven methods in large task-fMRI datasets, to optimize functional brain-data collection and improve inference of effects-of-interest related to mental processes. Key to this approach is the employment of fast multi-functional paradigms rich on features that can be well parametrized and, consequently, facilitate the creation of psycho-physiological constructs to be modelled with imaging data. Particular emphasis will be given to music stimuli when studying high-order cognitive mechanisms, due to their ecological nature and quality to enable complex behavior compounded by discrete entities. I will also discuss how deep-behavioral phenotyping and individualized models applied to neuroimaging data can better account for the subject-specific organization of domain-general cognitive systems in the human brain. Finally, the accumulation of functional brain signatures brings the possibility to clarify relationships among tasks and create a univocal link between brain systems and mental functions through: (1) the development of ontologies proposing an organization of cognitive processes; and (2) brain-network taxonomies describing functional specialization. To this end, tools to improve commensurability in cognitive science are necessary, such as public repositories, ontology-based platforms and automated meta-analysis tools. I will thus discuss some brain-atlasing resources currently under development, and their applicability in cognitive as well as clinical neuroscience.
Toxic effects of heavy metals : Lead and Arsenicsanjana502982
Heavy metals are naturally occuring metallic chemical elements that have relatively high density, and are toxic at even low concentrations. All toxic metals are termed as heavy metals irrespective of their atomic mass and density, eg. arsenic, lead, mercury, cadmium, thallium, chromium, etc.
This presentation explores a brief idea about the structural and functional attributes of nucleotides, the structure and function of genetic materials along with the impact of UV rays and pH upon them.
THE IMPORTANCE OF MARTIAN ATMOSPHERE SAMPLE RETURN.Sérgio Sacani
The return of a sample of near-surface atmosphere from Mars would facilitate answers to several first-order science questions surrounding the formation and evolution of the planet. One of the important aspects of terrestrial planet formation in general is the role that primary atmospheres played in influencing the chemistry and structure of the planets and their antecedents. Studies of the martian atmosphere can be used to investigate the role of a primary atmosphere in its history. Atmosphere samples would also inform our understanding of the near-surface chemistry of the planet, and ultimately the prospects for life. High-precision isotopic analyses of constituent gases are needed to address these questions, requiring that the analyses are made on returned samples rather than in situ.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
1. Is it possible to see how
minerals are scattered
throughout the underground
without removing the top
soil?
2. The process represents core
drilling, a method done to
investigate how the rocks
underneath the Earth’s surface
look like.
3. 1. Are the mineral deposits
(represented by the orange clay
for gold and blue clay for
copper) evenly distributed in the
bowl? Explain its relevance.
4. 2.Can the drill cores indicate
how deep the mineral deposits
are?
3.How can additional drillholes
affect geological
interpretations?
5. A mine is a place
where rocks and
minerals of value are
extracted.
19. Measures to prevent or mitigate the harmful
effects of irresponsible mining:
Topsoil replacement using
uncontaminated soil; reintroduction of
flora and fauna; neutralizing acidic waters;
backfilling and sealing of abandoned
underground mines; stabilizing the slope
of impacted area to reduce erosion, etc.
26. Underground Mining
Longwall coal mining cuts a
slice from the long wall.
Notice the safety gear that
these miners wear everyday.
27. 1. Surface Mining
- Utilized to extract ore
minerals that are close
to Earth’s surface
- Different types
include open pit
mining, quarrying,
placer mining and strip
mining
28.
29. Open-pit mining -surface mining in
which huge portions of earth are dug
from the surface to extract the desired
mineral within them, resulting in a large
pit.
Open-pit mines are used when deposits
of commercially useful minerals or rock
are found near the surface.
39. Minerals are different so
many different types of
processing are needed
to remove them from
the rock. Following are
just a few processes.
40. Milling
This rock contains gold.
Milling is the process of
separating the desired
mineral from the unwanted
rock (called gangue.) See
if you can find the specks
of gold.
41. What factors did you
consider in selecting where
to start mining the rocks?
42. How has mining change the
land?
Possible answers include,
change in elevation
43. What have you done to
rehabilitate the land after
mining?
45. The materials extracted or “mined" are
rocks composed of both ore and waste
material (part of the rock which contain
very little or no element or mineral of
economic value). The extracted rocks will
undergo processes of mineral (e.g. metal)
separation and recovery.
46. Recovering the minerals from the
ore and waste materials can
involve one or more processes
wherein the separation is usually
done in a mill.
47. Crushing and screening are
the first stages of controlled
size reduction followed by
grinding where the rocks are
pulverized
48. 1. Heavy media separation:
The crushed rocks are submerged in liquid
where the heavier/denser minerals sink
thus are separated from the lighter
minerals. This is commonly used to
separate chalcopyrite from quartz before
the refining processes of extracting copper.
49. 2. Magnetic separation:
If the metal or mineral is
magnetic, the crushed ore is
separated from the waste
materials using a powerful
magnet.
50. 3. Flotation:
The powdered ore is placed
into an agitated and frothy
slurry where some minerals
and metals based on physical
and chemical properties may
either sink to the bottom or
may stick to the bubbles
and rise to the top thus
separating the minerals
and metals from the waste.
51. 4. Cyanide heap leaching:
This method used for low-grade gold ore where
the crushed rock is placed on a “leach pile”
where cyanide solution is sprayed or dripped on
top of the pile. As the leach solution
percolates down through the rocks, the gold is
dissolved into the solution. The solution is
processed further to extract the gold.
52. 5. Smelting
Smelting uses high
heat and chemicals to
remove base metals
and impurities from
concentrates. Smelting
furnaces can reach
temperatures above
1064°Celcius.
53. 6. Electrowinning
Starter sheets are
lowered into a
solution. An
electrical charge
passes through
causing copper
ions to stick to the
sheets.
56. Measures to prevent or mitigate the harmful
effects of irresponsible mining:
Topsoil replacement using
uncontaminated soil; reintroduction of
flora and fauna; neutralizing acidic waters;
backfilling and sealing of abandoned
underground mines; stabilizing the slope
of impacted area to reduce erosion, etc.
Editor's Notes
How does this definition differ from the students’?
Introduction Question
How long do you think the mining process takes? 1 – 5 years?, 6 – 10? The entire process can take more than 50 years!
This slide shows the basic process of mining. The time required to find, plan, and build a working mine can take decades. Sometimes, no deposit is even found.
Here are just a few of the laws and regulations that mining operations must abide by before, during and after mining.
Extension Activity
Further research the following:
Clean Air Act – permits
Clean Water Act – permits
Wetlands permits issued by Corps of Engineers
Storm water permits
National Pollutant Discharge Elimination permits (Individual federal or state issued water discharge permits)
Endangered Species Act
National Environmental Policy Act
Environmental Assessments
Environmental Impact Statements
Surface Mining & Reclamation Act – Federal law for activities on Public Lands
State reclamation laws for activities on private lands
Resource Conservation and Recovery ACT (RCBA) permits for non-hazardous solid waste disposal
Comprehensive Environmental Response, Compensation and Liability Act (Superfund Law) for cleanup of sites contaminated with hazardous substances
Local business licenses
State and local zoning permits
Federal or state issued mining permits/permits to operate
State issued land disturbance permits
State or federal bonding requirements – money put up by mining companies to guarantee that disturbed lands will be reclaimed
Definition
Exploration is the searching, sampling, mapping, drilling and other work involved in locating new, mineable ore deposits. In the past, exploration was called prospecting, but the days of pick ax and mule are long gone. For many years people were able to find useful mineral resources on the Earth’s surface. Today, most mineral resources are buried deep beneath the Earth’s crust and are difficult to find. Locating new mineral resources takes new exploration techniques.
Discussion Questions
We learned that the entire mining process can take more than 50 years. How long do you think the exploration phase take?
Exploration takes many years and costs millions of dollars. Some mines may take up to 20 years before they can be opened. Many laws and regulations must be followed during this process. All of these must be considered during the exploration phase.
Extension Activities
Create a timeline of the mining industry in your state.
How has the mining industry changed over time?
How important is the mining industry to the economy of your state?
How important is the mining industry to today’s lifestyle?
Definition
Explore - 1. to examine or investigate, especially systematically
2. to travel to or into (unfamiliar or unknown regions), especially for organized scientific purposes
Extension Activity
Ask the students to further define the terms ‘explore’ and ‘exploration’.
Discuss why geologists and other scientists explore. What are they looking for?
Satellites, airplanes or helicopters are made from a wide variety of rocks and minerals. They are used to help locate substantial mineral deposits.
Discussion Question
How can something so high in the air locate minerals located deep in the Earth?
High tech equipment is used including advanced gravity and magnetic measuring equipment (gravimeters), photogrametric digital cameras and imaging sensors among others. Of course, this equipment is also made from the very rocks and minerals they help scientists discover.
Search online
(Google, Yahoo, etc.) to find videos and information on satellites, airplanes and helicopters being used to help find mineral deposits.
Definition
Geologist - A scientist who studies the origin, history, structure and composition of the Earth and it’s processes. Geologists explore and survey land and rock formations in search of mineral deposits.
Definition
mineral deposits – Aggregate of a mineral in an unusually high concentration.
Activity
Ask the students to write a definition for mineral deposits in their own words.
Geologists use many tools. Some are as simple as a pick ax while others are very high-tech. One of the tools they use is the Geiger counter.
The Geiger counter was developed in 1909 by Hans Geiger with Walther Müller. The Geiger counter is a type of particle detector that measures ionizing radiation. It is only useful in finding radioactive materials like uranium.
Search online
(Google, Yahoo, etc.) to find videos and information on Hans Geiger and the Geiger counter.
Related MEC resources
Minerals Database - Uranium
http://www.mineralseducationcoalition.org/elements/uranium
A core sample is a piece of rock, soil, or ice that is carved, or cut, from the ground using a piece of equipment that works a lot like an apple-corer. If you have ever scooped the core out of an apple you would get an idea of how a core sample is cut. The reason scientists cut core samples is to get a piece from the interior, or underlying, layers of rock/ice/soil and look at the parts they couldn't otherwise see. By studying core samples scientists can get clues about events that happened in the past at the time the rock/soil/ice was being formed. Core samples are organized according to the area and depth where they were drilled. This information is useful in creating geologic maps, determining the presence/grade/depth of desired rocks and minerals and whether or not it is economically feasible to open a mine in the area.
Hands-on Activity
Search online
(Google, Yahoo, etc.) to find videos and information on Layer Cake Core Drilling activity.
Related MEC resources
For more details on responsibilities of geologists, visit http://www.mineralseducationcoalition.org/careers-mining.
A geologic map is a map upon which geologic information is plotted. The distribution of the formations is shown by means of symbols, patterns, or colors. Deposits at or near the Earth’s surface may or may not be mapped separately. Folds, faults, mineral deposits, etc., are indicated by appropriate symbols.
How will a mine affect the environment?
Mining inevitably disturbs land. Modern mines reclaim the surface during and after mining is completed, returning the land to useful purposes. A complete plan for reclamation needs to be submitted at local, state and federal levels. The plan must be approved before a mine ever opens. Reclaimed mine lands are often more attractive to wildlife and human uses than before mining started.
Related MEC resources
http://www.mineralseducationcoalition.org/reclamation-stories
More about this in Part Three.
Definition
Underground mining - various underground mining techniques used to excavate hard minerals (hard rock mining), mainly those containing metals such as gold, silver, iron, copper, zinc, nickel and lead, but also involves using the same techniques for excavating ores of gems such as diamonds. In contrast soft rock mining refers to excavation of softer minerals such as salt, coal or tar sands.
Underground mining extracts mineral resources lying deep below the Earth’s surface.
In this slide you can see an entrance called a portal and tracks where ore is moved out of the mine for processing. The pipes overhead are part of the ventilation system that moves clean air throughout the mine.
Definition
Solution Mining - In-situ leaching (ISL), also called in-situ recovery (ISR) or solution mining, is a mining process used to recover minerals such as copper and uranium through boreholes drilled into a deposit. The process initially involves drilling holes into the ore deposit. Explosive or hydraulic fracturing may be used to create open pathways in the deposit for solution to penetrate. Leaching solution is pumped into the deposit where it makes contact with the ore. The solution bearing the dissolved ore content is then pumped to the surface and processed. This process allows the extraction of metals and salts from an ore body without the need for conventional mining involving drill-and-blast, open-cut or underground mining.
Wikipedia Free Dictionary, July 2014
Related MEC resources
Find various mining videos here: https://www.youtube.com/channel/UCfJNfxvptTGdn31iAnBgXUA
Definition
Surface mining - method of extracting minerals near the surface of the Earth. The three most common types of surface mining are open pit mining, strip mining, and quarrying.
Placer mining is also a type of surface mining although it is not listed in this definition.
www.Britanica.com, July 2014
Other Resources
http://www.kennecott.com/ore-to-more
http://www.cat.com/groundrules (This is a comprehensive program on mining that includes standards, lesson plans and hands-on activities.)
Link check July 2014
Aggregates operations, including sand and gravel, are a type of surface mining. The sand and gravel obtained from these operations are used in sidewalks, buildings, roads, bridges, foundations, homes, etc.
Definition
Quarry - a kind of open-pit mine from which rock or minerals are extracted. Quarries are normally utilized for extracting building materials, like dimension stone. Quarries are normally shallower than other kinds of open-pit mines. The type of material extracted from quarries include chalk, clay, granite, gypsum, limestone, marble, slate and sandstone among others.
Related MEC resources
http://www.mineralseducationcoalition.org/mineral-resource-statistics
http://www.mineralseducationcoalition.org/minerals
Mine Safety
The mining industry takes safety very seriously. Every shift at the mine starts with a “Safety Share” meeting. These meetings help every employee focus on safety before starting the job. Employees share safety tips and alerts from home and on the job. These tips run the gamut from reminding folks to wear safety glasses while mowing the lawn at home, driving safely through a new construction area, to reminders about maintenance on mining equipment.
Every employee is required to attend regular safety classes and become certified in mine safety. Safety gear and equipment must be used at all times.
Although rare, mining accidents do happen and are widely reported in the media. Mining can be a dangerous job if safety measures are not followed.
Related MEC resources
Find various mining videos here: https://www.youtube.com/channel/UCfJNfxvptTGdn31iAnBgXUA
Related MEC resources
Find various mining videos here: https://www.youtube.com/channel/UCfJNfxvptTGdn31iAnBgXUA
The following slides show the basic steps in extraction.
All mining operations, surface and underground, require blasting to break up rock so that processing can occur. Drilling and blasting professions require specific training, including safety precautions. Good blasters are valued because they are able to eliminate flying rock during an explosion.
There are many careers connected to mining. Many require degrees but other needed skills are learned in trade schools and on the job.
Related MEC resources
This link shows many job descriptions in the mining industry, the classes to take in high school to prepare for them, and what type of education or training is required. http://www.mineralseducationcoalition.org/sites/default/files/uploads/rolesinminingppt6.pdf
Blasting is done in well-thought out patterns in order to control the amount of rock and dust being displaced and safety. Blasters are highly trained and well paid. They are employed in the mining industry, tunneling, road construction, home and commercial construction and a number of other industries.
Search online
(Google, Yahoo, etc.) to find videos on blasting.
Extension Activities
What types of blasting are used to control the size and location of the blast?
Related MEC resources
Find specific blasting roles here
http://www.mineralseducationcoalition.org/sites/default/files/uploads/rolesinminingppt6.pdf
Haul trucks are at least two stories tall and carry hundreds of tons of ore. A built-in ladder is required to access the cab. Drivers are specially trained to operate these vehicles.
Minerals necessary to produce thousands of products are contained within the ore. It is necessary to grind and crush the rock to manageable sizes in order to extract the minerals.
Grinders and crushers are huge, heavy-duty pieces of equipment. Many are run by computer operators who keep a close eye on the amount of ore being fed into the machines at one time. You might compare this equipment to blenders and food processors at home. If large chunks of ice are placed in either one, they are broken down into chunks or even slush-sized bits depending on the desired end product.
Students can see the small gold specks in this photo, however, many rocks containing gold and other ores are completely opaque and the mineral cannot be seen with the naked eye.
Extension Activities
Search online
(Google, Yahoo, etc.) to find “Cookie Mining”. This activity demonstrates how much waste or gangue is left when extracting the desired mineral(s). Much of the gangue will be used during the reclamation process.
Related MEC resources
http://www.mineralseducationcoalition.org/reclamation-stories
1064°Celsius = 1947.2° Fahrenheit.
Smelting is one of the processes used in metal mining. Some metals can only be purified and separated from the rock through a pyrometallurgical process called smelting. Pyro is the Greek word for fire.
Other Resources
www.gogeometry.com/mining/bingham_canyon_copper_mine_smelting_sx_ew_process.html
Link checked July 2014
Related MEC resources
To see more on electrowinning and other steps in processing copper, view Copper in Our Electrical World video http://www.mineralseducationcoalition.org/videos
If an area has good mining potential, a complete environmental study is done. All the plants, animals, birds and insects of an area and their habitats are identified, researched and documented. Waterways are very carefully studied. Clean water and a healthy environment are as important to miners as they are to the rest of us. Plans are developed to keep the environment in healthy condition.
It is no secret that in the distant past, mining has created problems for the environment. Today’s mining operators take the responsibility of being good stewards of the land very seriously. Technological advancements in rehabilitating and reclaiming the land are put in place every year by environmental engineers employed by the mining industry. Closed loop water systems are employed during active mining operations to prevent contamination. Local streams and waterways are monitored on a regular basis. Underground mines are backfilled whenever possible, and land is reseeded with natural grasses and foliage. When a mine site is closed, the land is reclaimed for useful purposes.
Related MEC resources
http://www.mineralseducationcoalition.org/reclamation-stories