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Mineral By-Products 

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AGGER Project - Immature Tasmanite

Advancements in Geochemistry and Geomicrobiology of Energy Resources (AGGER)

The AGGER project seeks to advance the understanding of factors that indicate and control the sources, generation, composition, stimulation, accumulation, movement, and production potential of petroleum, nuclear fuel resources (e.g., uranium and thorium), and their byproducts as well as the potential for resource recovery from wastes generated during extraction.
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Energy Resources Program, Mineral Resources Program, Geology, Energy & Minerals Science Center, Eastern Energy and Environmental Laboratory (EEEL)
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Advancements in Geochemistry and Geomicrobiology of Energy Resources (AGGER)

The AGGER project seeks to advance the understanding of factors that indicate and control the sources, generation, composition, stimulation, accumulation, movement, and production potential of petroleum, nuclear fuel resources (e.g., uranium and thorium), and their byproducts as well as the potential for resource recovery from wastes generated during extraction.
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scientist in the field, UT

Volcanic-related Beryllium Deposits of the US: Geologic Setting, Genesis, and the Potential for Post-Extraction Recovery of By-Product Critical Minerals

Project objectives are: 1) to fully establish a comprehensive and robust geologic and geochemical framework for the occurrence of volcanic-related beryllium (Be) deposits; 2) further our understanding of the fundamental ore processes that lead to formation of volcanogenic beryllium (Be)-boron (B)-lithium (Li)-phosphorus (P) group deposits, by investigating processes favorable for enhanced...
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Mineral Resources Program, Geology, Energy & Minerals Science Center
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Volcanic-related Beryllium Deposits of the US: Geologic Setting, Genesis, and the Potential for Post-Extraction Recovery of By-Product Critical Minerals

Project objectives are: 1) to fully establish a comprehensive and robust geologic and geochemical framework for the occurrence of volcanic-related beryllium (Be) deposits; 2) further our understanding of the fundamental ore processes that lead to formation of volcanogenic beryllium (Be)-boron (B)-lithium (Li)-phosphorus (P) group deposits, by investigating processes favorable for enhanced...
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