The Relationships between Uranium Mineralization and Organic Matter in 373 Uranium Deposit

Ping Li; Zheng Qi Xu; Ye Wang; Peng Chong Wang

doi:10.4028/www.scientific.net/AMR.962-965.203

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 962-965The Relationships between Uranium Mineralization...

The Relationships between Uranium Mineralization and Organic Matter in 373 Uranium Deposit

Abstract:

The 373 deposit,as a typical carbonanceous-siliceous-pelitic rock type uranium deposit,is rich in organic matter and pyrite.Close relationships exist between organic matter and uranium mineralization in a lot of uranium deposits. But few people have studied the relationship between uranium mineralization and organic matter of carbonanceous-siliceous-pelitic rock type uranium deposit.The organic matter type of 373 uranium deposit is type-II₂.The sources of organic matter are mainly marine plankton,microbial and terrestrial plant. The organic maturity is relatively low,at the immature-low mature stage.Compared with the surrounding rock ,the ore has gone through higher paletemperature on account of hydrothermal and fault. The type and the maturity of organic matter result in the generation of large amount of humic acid during thermal evolution that could be preserved in strata. The contents of chloroform bitumen “A” of organic matter in the mineralized layer are 0.47—10.42ug/g .Asphaltene is the main component of chloroform bitumen “A”.The correlation between chloroform bitumen “A” and uranium content is high,as well as the correlation between the content of asphaltene and uranium content. Study shows that the functions of organic matter in 373 uranium deposit are mainly adsorption,complexation and reduction.

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Periodical:

Advanced Materials Research (Volumes 962-965)

Pages:

203-207

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.962-965.203

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Online since:

June 2014

Authors:

Ping Li, Zheng Qi Xu*, Ye Wang, Peng Chong Wang

Keywords:

Chloroform Asphalt "A", Humic Acid (HA), Maturity, Organic Matter, Uranium Mineralization

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References

[1] Wood S A. The role of humic substances in the transport and fixation of metals of economic interest(Au, Pt, U, V) [J]. Ore Geology Review, 1996, (11): 2-6.

DOI: 10.1016/0169-1368(95)00013-5

Google Scholar

[2] Weidong Xiang, Jinshuang Yin. Role of humic acids in the formation of sandstone-type uranium deposits[J]. World Nuclear Geoscience, 2006, 23(2): 73-77.

Google Scholar

[3] Jianfeng Wang. Nature organic Substance and its implication in uranium mineralization. Geochemica[J]. 1993, 3: 294-302.

Google Scholar

[4] Shuangfang Lu, MinZhang. Oil and Gas Geochemistry[M]. Petroleum Industry Press. 2008 : 214-217.

Google Scholar

[5] Landais P. Organic geochemistry of sedimentary uranium ore deposits. Ore Geology R eview, 1996, 11: 33-51.

DOI: 10.1016/0169-1368(95)00014-3

Google Scholar

[6] Weijun Shi. The hydrogeochemical circle and the biogeochemical circle of uranium[J]. Journal of East China Geological Institute, 1989, 12(2): 79-86.

Google Scholar

[7] Qingyin Guo, Ziying Li, Wenguang Wang. Features of organic substances and their relationship to uranium mineralization inXihulitu basin, Inner Mongolia[J], Uranium Geology, 2005, 21(1): 16-22.

Google Scholar