| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
LIU Kai, WANG Shanshan, SUN Ying, Cui Wenjun, ZHU Deli. 2017. Characteristics and regionalization of geothermal resources in Beijing[J]. Geology in China, 44(6): 1128-1139. doi: 10.12029/gc20170607
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Characteristics and regionalization of geothermal resources in Beijing
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Abstract
Geothermal resources in Beijing belong to middle-low temperature geothermal resources, which have experienced more than 50 years of concentrated development and utilization. After years of development and utilization, there have occurred some highlighted environmental geological problems in Beijing. In order to reasonably determine the direction of the development and utilization of geothermal resources in Beijing and to build a livable city, this paper summarizes the distributive characteristics of these resources by analyzing the features of geotemperature, hydrogeochemical and stable isotope characteristics. It is found that the geothermal reservoir with the roof temperature higher than 80oC is mainly located in the center of Beijing depression and near the Fengheying in the southern part of Daxing superimposed uplift, and the water chemistry type in Beijing is mainly HCO3~Na type. The authors also put up zonation for geotemperature regionalization, geothermal resources exploitation and utilization as well as potential regionalization. The geothermal resources protection regionalization is based on the division of the geothermal fields, the characteristics of geothermal resources in combination with the exploitation degree, resource conditions and regional economic development requirements. The region can be divided into restricted mining area, control mining area, mining area and other areas, with the respective area being 378.65 km2, 562.88, km2, 1612.07 km2, and 3722.31 km2. The results obtained by the authors are of great significance for understanding the overall characteristics of the geothermal resources and the sources of geothermal water supply and for formulating the geothermal utilization planning. The results also has a guiding significance for protection and exploitation of geothermal resources.
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Keywords:
- geothermal resources /
- characteristics /
- regionalization /
- conservation
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References
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LIU Kai, WANG Shanshan, SUN Ying, Cui Wenjun, ZHU Deli. 2017. Characteristics and regionalization of geothermal resources in Beijing[J]. Geology in China, 44(6): 1128-1139. doi: 10.12029/gc20170607
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Figure 1.
Schematic map showing distribution of geothermal fields and location of sampling points
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Figure 2.
Sketch map of geothermal temperature distribution at different buried depths
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Figure 3.
Piper diagram of geothermal water, Beijing
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Figure 4.
Regionalization map for chemical types of geothermal water
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Figure 5.
Scatter plot of δD-δ18O in geothermal water, Beijing
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Figure 6.
Regionalization map of geothermal resources based on temperature and the development and utilization program, Beijing
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Figure 7.
Regionalization diagram of geothermal resources based on exploitation potential
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Figure 8.
Regionalization diagram of geothermal resources for conservation