robert w. gregory geologist, uranium & industrial minerals wyoming state geological survey
DESCRIPTION
Robert W. Gregory Geologist, Uranium & Industrial Minerals Wyoming State Geological Survey. Overview of Uranium Geology, Mining and Production. Uses for Uranium. Historic Uses Coloring agent (glass) Research on radioactivity (pitchblende) Led to discovery of Po, Ra Half-lives - PowerPoint PPT PresentationTRANSCRIPT
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Overview of Uranium Geology, Mining and Production
Robert W. GregoryGeologist, Uranium & Industrial Minerals
Wyoming State Geological Survey
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Historic UsesColoring agent (glass)Research on radioactivity
(pitchblende)• Led to discovery of Po, Ra• Half-lives• Atomic structure
– Protons, Neutrons, Electrons• Theories on nuclear energy
– Electricity – Weapons
Uses for Uranium
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Valuable properties of Uranium
• Radioactive– Isotopes:
• 238U – 99.275 % of naturally-occurring U• 235U – 0.720 % “• 234U – 0.005 % “
– Spontaneous fission neutrons & gamma radiation• Chain reactions nuclear-powered electricity
• Dense metal
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Uses for Uranium• Radioactivity-based applications:
– Nuclear weapons– Nuclear power for naval vessels
• technology for nuclear-powered civilian electricity– Medicine
• TEM • Staining viruses, organelles & macromolecules
– Geochronolgy
• Density-based applications:– Shielding
• Armor• Radioactivity containment (depleted uranium)
– Projectiles• Armor-piercing bullets, etc.
– Ballast
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Nuclear Radiation• α – Alpha (particle)
– 2 protons– 2 neutrons
• Can be stopped by sheet of paper or plastic wrap
• β – Beta (particle)– 1 electron
• Relatively low energy• Can penetrate ~ 1” of wood (very low mass)
• γ – Gamma (wave)– Electromagnetic radiation, similar to X-rays
• High energy (v. small wavelength)• Can penetrate ¼” of lead or 3’ of concrete
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Nuclear Radiation• Fission of Uranium releases:
– Particles– Gamma radiation
• @ Critical mass of 235U– Chain reaction – one fission releases particles which
then initiate more fission– Controlled Chain Reaction creates the energy to fuel
nuclear power plants• ≥ 3% 235U in nuclear fuel rods• (≥ 85% 235U in nuclear weapons)
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Geology of Uranium Deposits
Mantle
Concentration
Of
Uranium
Time
Basalt
melting
Granite
fractionation
Granite
fractionation
2nd generationmelt
melting
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Geology of Uranium Deposits
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Prerequisites for a Sandstone U Deposit
1) Source of U- Precambrian basement rocks?- Tertiary volcanic ashes and tuffs?- Combination?
2) Coarse sands with good porosity and permeability3) Ground water flow (naturally oxygenated) – ideally
channelized, high rate of flow4) Reduction zone – heavy mins., organic matter
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Tertiary Volcanics - White River Formation
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Precambrian Granitic Rocks – Granite Mountains, Central WY