南京汤泉地下热水补给来源与成因模式

    Origin and genesis model of the Tangquan geothermal water in Nanjing

    • 摘要: 南京汤泉地区地下热水资源丰富,阐明其补给来源及成因模式,对于地下热水的科学开发意义重大。采用水化学及同位素地球化学分析方法对其进行了系统研究。结果表明,研究区地下热水与浅层冷水水化学组成差异明显,热储温度为63~75℃,循环深度为1.8~2.3 km。大气降水入渗是地下热水的补给来源,补给高程范围为321~539 m;循环周期为2046~6474 a;地下热水上涌过程中会混入比例为4%~26%的浅部岩溶冷水。经分析,该地热系统成因上属于中低温对流型,补给区主要为老山复背斜构造内的碳酸盐岩裸露区,依靠区域大地热流供热,热储层主要为上震旦统白云岩,盖层为寒武系、白垩系及第四系,地下热水经深循环沿NEE向与NW向断裂交会通道向上运移,并与浅部冷水发生混合,形成本区的地热异常。

       

      Abstract: Nanjing Tangquan is rich in geothermal water.It is of great significance for the sustainable use of geothermal water to reveal its supply source and genesis mechanism.The method of hydrochemistry and isotope geochemistry was taken to make the systematic study.The chemical composition of geothermal water is different from that of shallow cold water.The thermal reservoir temperature has been estimated to be 63~75℃, with a water circulation depth of 1.8~2.3 km.The geothermal fluid origins from the rainfall, and the altitude of recharge area is 321~539 m.The water age is 2046~6474 a, with shallow karst cold water mixed while upwelling, and the mixing ratio is 4%~26%.Based on these analysis, a genesis model of the study area has been postulated to be a low-medium temperature geothermal system of a convective type.It receives the precipitation from the karst outcropping area in Laoshan complex anticline, and it is gradually heated by the normal heat flow during circulating.The thermal reservoir is originally the Upper Sinian series dolomite.The cap rocks are mainly Cambrian, Cretaceous and Quaternary strata.The geothermal water flows upward in the intersection zones of the NEE- and NW-striking faults along deep circulation, and mixing with cold water in shallow, forming the geothermal anomalies.

       

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