太原盆地区碳酸盐岩中—低温地热系统演化

马腾; 王焰新; 马瑞; 闫春淼; 单慧媚; 陈柳竹

doi:10.3799/dqkx.2012.023

Volume 37 Issue 2

Mar. 2012

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Article Navigation > Earth Science > 2012 > 37(2): 229-237

MA Teng, WANG Yan-xin, MA Rui, YAN Chun-miao, SHAN Hui-mei, CHEN Liu-zhu, 2012. Evolution of Middle-Low Temperature Carbonate Geothermal System in Taiyuan, Northern China. Earth Science, 37(2): 229-237. doi: 10.3799/dqkx.2012.023

Citation:

MA Teng, WANG Yan-xin, MA Rui, YAN Chun-miao, SHAN Hui-mei, CHEN Liu-zhu, 2012. Evolution of Middle-Low Temperature Carbonate Geothermal System in Taiyuan, Northern China. Earth Science, 37(2): 229-237. doi: 10.3799/dqkx.2012.023

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Evolution of Middle-Low Temperature Carbonate Geothermal System in Taiyuan, Northern China

doi: 10.3799/dqkx.2012.023

MA Teng^{1, 2},
WANG Yan-xin^{1, 2
,
,},
MA Rui^{1, 2},
YAN Chun-miao^{2, 3},
SHAN Hui-mei^{1, 2},
CHEN Liu-zhu^{1, 2}

1.
State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences, Wuhan 430074, China
2.
School of Environmental Studies, China University of Geosciences, Wuhan 430074, China
3.
Hubei Academy of Environmental Sciences, Wuhan 430072, China

Received Date: 2011-09-12
Publish Date: 2012-03-15

Abstract

Abstract

To study the complicated issue of interactions between carbonate geothermal system with mid-low temperature existing in Taiyuan basin and its surrounding karst system existing in mountains, the geological evolution processes of the carbonate geothermal system were remodeled based on the analysis of geological structure and characterization of hydrochemistry and isotopic compositions of the karst water. We come to the following conclusions: (1) The carbonate geothermal system with mid-low temperature has experienced five stages of geological evolution since Yanshan Movement. and it separated from its surrounding karst system in mountains during the stable sedimentation period of Neogene to the Early Pleistocene, and then they evolved respectively; (2) The karstification of the carbonate geothermal system with mid-low temperature were due to the following two factors: ① rainfall of the late Middle Pleistocene and the early Late Pleistocene infiltrated along the fault zone (e.g. Fenhe fault), reacted with the metal sulfide in C-P coal measure strata and formed the groundwater rich in sulfuric acid. The groundwater was recharged to the carbonated geothermal reservoir and mixed with the older karst water stored in it, which facilitated the dissolution of carbonate rock; ② the pyrolyzation of carbonated rock occurred by the baking of magma from the basin basement in the late Middle Pleistocene and the early Late Pleistocene; (3) The karst water in the geothermal system formed in the late Middle Pleistocene and the early Late Pleistocene, and sealed up to now because of the good insulation of its overlying strata. Mainly controlled by the geological structure, its east-west boundaries were Dongshan fault and Xishan fault respectively and its south-north boundaries were Tianzhuang fault and north boundary of Qinxian horst respectively.
- Taiyuan basin,
- carbonate,
- geothermal gystem with mid-low temperature,
- evolution,
- hydrogeochemistry,
- isotopes,
- hydrogeology

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References(33)

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Evolution of Middle-Low Temperature Carbonate Geothermal System in Taiyuan, Northern China

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