Method for integrating deep mineralization information of alkali metasomatism type uranium ore
A technology that integrates alkali and deep parts, applied in the field of uranium mines, can solve the problems that identification marks are difficult to play a role
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[0040] The present invention will be further described in detail below by taking the alkali metasomatized uranium deposit in Kirovograd, Ukraine as an example.
[0041] Step 1: Based on previous research results, it is believed that there are various Precambrian uranium deposits in the Ukrainian Shield, including: i) uranium (thorium) deposits in conglomerate; ii) uranium controlled by fault zones Mineralized veins (experienced multiple phases of deformation since 2.1Ga); iii) thorium-uranium mineralization associated with potassium metasomatism; iv) uranium deposits associated with sodium metasomatism. However, the expansion of Ukrainian uranium resources largely depends on uranium deposits related to sodium replacement (such as sodium replacement type deposits) and thorium-uranium deposits related to potassium replacement. These deposits, although small and unfocused, have high extraction rates. Most uranium deposits are located in the Paleoproterozoic sodium metasomatite (...
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