| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
HE Jing, HE Hanhan, ZHENG Guisen, LIU Yu, ZHOU YuanXin, XIAO JingZe, WANG Chunjun. 2019. 3D geological modelling of superficial deposits in Beijing City[J]. Geology in China, 46(2): 244-254. doi: 10.12029/gc20190203
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3D geological modelling of superficial deposits in Beijing City
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Abstract
The three-dimensional (3D) geological structure model has been the basic preconditions for the analysis of urban underground space, because it can directly display the spatial distribution and geological properties of superficial deposits and provide basic data for the scientific planning of the underground space resources. In this paper, the authors constructed for the very first time a 3D geological structure model (up to the depth of 50m from the surface) in Beijing City, based on almost a thousand boreholes, investigation reports, as well as 107 intersecting cross-sections arranged over Beijing City within the 5th Ring Road. The authors investigated the 3D modeling procedures in the study area, where an extremely complicated sedimentary environment is developed with various geological phenomena including intersecting stratigraphic interfaces, missing strata as well as discontinuous layers. The resulting 3D model could provide a basic framework and data support for further geological evaluation of underground space resources.
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Keywords:
- 3D geological modelling /
- superficial deposits /
- boreholes /
- cross-sections /
- lens
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References
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HE Jing, HE Hanhan, ZHENG Guisen, LIU Yu, ZHOU YuanXin, XIAO JingZe, WANG Chunjun. 2019. 3D geological modelling of superficial deposits in Beijing City[J]. Geology in China, 46(2): 244-254. doi: 10.12029/gc20190203
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Figure 1.
Distribution of bedrock in Beijing plain area
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Figure 2.
Modelling procedures
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Figure 3.
A typical vertical profile in the study area
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Figure 4.
Distribution of intersecting cross-sections in the study area
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Figure 5.
A typical cross-section generated from boreholes (W-E) in Beijing City (within the depth of 50 m)
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Figure 6.
Boreholes used in modelling
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Figure 7.
Multiple cross-sections in oblique view
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Figure 8.
Construction of a Small lens developed in a widely distributed layer
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Figure 9.
3D geological structure model of shallow superface in Beijing City
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Figure 10.
A comparison between the cross-section based on boreholes(E2) and generated from 3D model with vertical exaggerated coefficient equal to 100
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Figure 11.
A typical cross-section from 3D geological solid model