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Minerals: A Nonrenewable Resource

Minerals: A Nonrenewable Resource. Chapter 16. A spectacular slide show presentation by Mr. Berkheimer and some very, very special guest speakers! . Introduction to Minerals. Concrete – sand, gravel, crushed limestone. Salt. Copper. Introduction to Minerals.

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Minerals: A Nonrenewable Resource

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  1. Minerals: A Nonrenewable Resource Chapter 16

  2. A spectacular slide show presentation by Mr. Berkheimer and some very, very special guest speakers!

  3. Introduction to Minerals Concrete – sand, gravel, crushed limestone Salt Copper

  4. Introduction to Minerals • Mineral Distribution and Formation • Some minerals very abundant (e.g., Al, Fe) • Some are very scarce (e.g., Cu, Mo) • Some may be found about anywhere, but in such low abundance mining is unprofitable

  5. Introduction to Minerals • Mineral Distribution and Formation • Formation of Mineral Deposits Magmatic concentration Hydrothermal processes Sedimentation Evaporation

  6. Introduction to Minerals • How Minerals are Found, Extracted, and Processed • Discovering Mineral Deposits • aerial photos / satellite images • examine magnetic field • seismographs

  7. Introduction to Minerals • How Minerals are Found, Extracted, and Processed • Discovering Mineral Deposits • Extracting Minerals

  8. Copper Ore being loaded into a 300 ton truck for transport to the crusher.

  9. Conveyors and trucks deposit coarse ore on a heap leach pad, which has a series of pipes and hoses dispensing a diluted sulfuric acid solution to the ore. Copper is dissolved and flows to a pond at the bottom of the pad. This process can take several months.

  10. No Silly, This is one of the largest earth movers in the world working in a copper strip mine!!! Is this our soil pit???

  11. Large man-made piles of mining waste that stretch for several miles. Piles are on the edge of the town of Globe, Arizona.

  12. Hey Jillian, these machines look identical! Wow Jordan! How could anyone tell them apart??? Four grinding lines composed of four semi-autogenous grinding (SAG) mills and eight ball mills and corresponding flotation cells.

  13. The technically advanced and cleanest smelter in the world is part of an $880 million modernization program.

  14. Death to the Lorax, Long live the Wilton!!! You might see environmental destruction, but I see growing economies and financial wealth!

  15. Introduction to Minerals • How Minerals are Found, Extracted, and Processed • Discovering Mineral Deposits • Extracting Minerals • Processing Minerals

  16. Environmental Implications of Minerals • Mining and the Environment • Disturbs large areas of land • Uses huge quantities of water • Affects water quality • Cost-benefit Analysis of Mine Development • Benefits of the mining vs. Preservation of the land

  17. Environmental Implications of Minerals We need to make use of the waste! • Environmental Impacts of Refining Minerals

  18. Environmental Implications of Minerals • Environmental Impacts of Refining Minerals • The problem of tailings

  19. Environmental Implications of Minerals • Environmental Impacts of Refining Minerals • Case-in-Point: Copper Basin, TN

  20. In southeast Tennessee, decades of extensive copper and sulfur mining degraded the once lush area known as the Copper Basin Mining District Site in Polk County. By the late 1800s, vegetation refused to grow, acidic conditions and leaching metals impaired the water quality and deforestation resulted in severe erosion. Abandoned and collapsing mine works and other deteriorating facilities and waste piles posed significant physical hazards.

  21. Environmental Implications of Minerals • Restoration of Mining Lands • Surface Mining Control and Reclamation Act

  22. After Before

  23. The “Wilds” in Southern Ohio is an example of the success of the surface mining control and reclamation act!

  24. Environmental Implications of Minerals • Restoration of Mining Lands • Creative Approaches to Cleaning Up Mining Areas Conversion to wetlands Phytoremediation Phytoremediaton is using plants to clean soil from contaminants!

  25. Minerals: An International Perspective • Many developed nations have observed significant environmental damage due to mining • Many developed nations exacerbate problem by having mining interests in developing countries

  26. Minerals: An International Perspective Another example of the U.S. using up more than it’s fair share of resources! • U.S. and World Use • North American consumption of selected metals

  27. Minerals: An International Perspective • Distribution Versus Consumption • Some minerals needed for many industrial processes • but only found in abundance in few places • Results in dependence • Stockpiling common

  28. Minerals: An International Perspective • Will We Run Out of Important Minerals?

  29. Increasing the Supply of Minerals • Locating and Mining New Deposits • Many known deposits haven’t been exploited because: • accessibility problems • technology issues • too deep Don’t let Wilton know about this problem! He will exploit all of the earth’s resources even further!

  30. Increasing the Supply of Minerals Leave my Planet alone! • Minerals in Antarctica • Antartic Treaty (1961) limits activities in Antarctica • If significant mineral deposits were found, should they be exploited? Leave Antarctica alone! There are plenty of minerals on Vulcan!

  31. Increasing the Supply of Minerals • Minerals from the Ocean Manganese nodules

  32. Increasing the Supply of Minerals If I could own the ocean, I could control the world’s manganese supply! • Minerals from the Ocean

  33. Increasing the Supply of Minerals • Advanced Mining and Processing Technologies • Ability to exploit low-grade ores • Biomining Biomining is the use of microorganisms to extract metals and minerals from ores in the mining process. Ores of high quality are rapidly being depleted and biomining allows environmentally friendly ways of extracting metals from low-grade ores (ores that have small amounts of valuable metals scattered throughout).

  34. Using Substitution and Conservation to Expand Mineral Supplies • Finding Mineral Substitutes • Substituting inexpensive / abundant resources for expensive / scarce resources Glass, plastics, and aluminum have substituted for tin!

  35. Using Substitution and Conservation to Expand Mineral Supplies • Mineral Conservation • Reuse • same product used over and over • Recycling • product is processed into another product • Changing Our Mineral Requirements • fight the “throw away” mentality

  36. Wow, that was almost an interesting powerpoint, I stayed awake for most of it!

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