| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
LIU Huanan, LIU Jiajun, LI Xiaowei, LIU Chonghao, DAI Hongzhang, TAO Yinlong, WANG Jianfeng, DU Yingdong, FAN Yunfei. 2018. Thermoelectric characteristics of pyrite from the Xindigou gold deposit in Inner Mongolia and its significance on deep prospecting[J]. Geology in China, 45(4): 819-838. doi: 10.12029/gc20180412
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Thermoelectric characteristics of pyrite from the Xindigou gold deposit in Inner Mongolia and its significance on deep prospecting
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Abstract
The Xindigou gold deposit in Inner Mongolia is a medium-sized greenstone type gold deposit but belongs to crisis mine which needs replaceable resources, and hence it is of great significance to evaluate the deep resources. Based on the prospecting and genetic mineralogy theory, the authors analyzed the thermoelectric characteristics of pyrites at different elevations and orebodies using the microscope, electron probe and thermoelectric instrument. Some conclusions have been reached:The pyrite crystals are mainly characterized by cubic, pentadododecahedral and poly-type in the Xindigou deposit, the thermoelectric properties of pyrites, ranging from -331.10 to 340.20 μV·℃-1, are mainly of the N type, which accounts for about 80%. The ore-forming temperature of the deposit ranges from 250 to 340℃, indicating that the deposit is a medium temperature gold deposit. The thermoelectric parameters of pyrite vary greatly; the degree of denudation varies from 67.96% to 74.31%. According to the spatial distribution of the thermoelectric parameters of the pyrite and the denudation of the orebody, Youlougou orebody may be located at the bottom, and may have a small-scale extension toward the depth. Drill hole ZK106 of Xiaoxigou or body has a better exploration prospect with largescale extension, and drill hole of ZK102 of Xiaoxigou orebody has more potential than ZK2802 of Dahanqing orebody in terms of exploration prospect in the depth. Furthermore, comprehensive results suggest that the deep deposit has good prospecting potential.
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Keywords:
- Xindigou /
- gold ore deposit /
- pyrite /
- thermoelectricity /
- Inner Mongolia
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References
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LIU Huanan, LIU Jiajun, LI Xiaowei, LIU Chonghao, DAI Hongzhang, TAO Yinlong, WANG Jianfeng, DU Yingdong, FAN Yunfei. 2018. Thermoelectric characteristics of pyrite from the Xindigou gold deposit in Inner Mongolia and its significance on deep prospecting[J]. Geology in China, 45(4): 819-838. doi: 10.12029/gc20180412
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Figure 1.
Regional geological sketch map of the Xindigou gold deposit in Daqing Mountains (after Hu et al., 2002)
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Figure 2.
Geological sketch map of the Xindigou gold deposit (after Inner Mongolia Woye Mining and Metallurgy Technology Development Company❶, 2009)
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Figure 3.
Geological section of main vein in the Xindigou gold deposit (modified after Inner Mongolia Woye Mining and Metallurgy Technology Development Company, 2009❶)
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Figure 4.
The ore types in the Xindigou gold deposit
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Figure 5. The characteristics of pyrites from the Xidigou gold deposit
Py-Pyrite; Qz-Quartz; Au-Native gold; -
Figure 6.
Histograms of thermoelectric coefficients of pyrites from various drill holes and orebodies in the Xindigou gold deposit
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Figure 7.
Attitude-changing trend diagram of frequencies of P-type pyrite from various drill holes and Youlougou orebodies in the Xindigou gold deposit
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Figure 8.
The relationship between thermoelectricity and temperature of pyrites from the Xindigou gold deposit
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Figure 9.
Histograms of temperature of pyrites in the Xindigou gold deposit
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Figure 10.
The relationship of gold grade and thermoelectrical coefficient and the frequency of P-type from the Xindigou gold deposit
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Figure 11.
Relationship between thermoelectrical coefficient dispersions and the probability of P-type from the Xindigou gold deposit
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Figure 12.
Relationship between thermoelectrical coefficient dispersions and elevation from the Xindigou gold deposit