Gas isotope geochemistry of Tangquan hot spring system in Nanjing (China)

IF 3.1 3区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Applied Geochemistry Pub Date : 2024-07-26 DOI:10.1016/j.apgeochem.2024.106118
Yifan Bao , Zhonghe Pang , Yiman Li , Jiao Tian , Ji Luo , Yifan Fan , Fengtian Yang , Tingqing Qian , Fei Chen , Caixia Sun , Zongying Zhou
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Abstract

Tangquan hot springs is one of the three well-known geothermal systems in Nanjing, Jiangsu Province, eastern China. Previous studies have shown its high flow rate and ideal water chemistry favorable for utilization. Here we further examine the potential of the hot springs using gas geochemistry in this paper. 35 water samples and 16 gas samples were collected for chemical isotopic analyses. The geothermal gases are found to be primarily atmospheric in origin, containing high nitrogen, oxygen and carbon dioxide gases. Carbon isotope shows that the origin of CO2 and CH4 are thermal metamorphic in the upper crust. The isotope ratio of helium is 3.47–4.73 Ra, indicating that mantle He accounts for 44–60% in total of geothermal gases. These findings furnish the grounds to infer geothermal potential at the deeper part of the geothermal system. The immediate geothermal reservoir has a temperature of 90 °C, but the temperature of deeper part of the system could reach 150–205 °C, using the carbon gas isotope geothermometer. These findings show a promising future of deep geothermal resources in the region.

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中国南京汤泉温泉系统的气体同位素地球化学
汤泉温泉是中国东部江苏省南京市著名的三大地热系统之一。以往的研究表明,汤泉流量大,水化学性质理想,有利于利用。本文利用气体地球化学进一步研究了该温泉的潜力。我们采集了 35 份水样和 16 份气体样本进行化学同位素分析。研究发现,地热气体主要来源于大气,含有大量氮气、氧气和二氧化碳气体。碳同位素显示,二氧化碳和甲烷的来源是上地壳的热变质作用。氦的同位素比为 3.47-4.73 Ra,表明地幔氦占地热气体总量的 44-60%。这些发现为推断地热系统深部的地热潜力提供了依据。直接地热储层的温度为 90 °C,但利用碳气体同位素地温计,地热系统深部的温度可达 150-205 °C。这些发现表明,该地区的深层地热资源前景广阔。
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来源期刊
Applied Geochemistry
Applied Geochemistry 地学-地球化学与地球物理
CiteScore
6.10
自引率
8.80%
发文量
272
审稿时长
65 days
期刊介绍: Applied Geochemistry is an international journal devoted to publication of original research papers, rapid research communications and selected review papers in geochemistry and urban geochemistry which have some practical application to an aspect of human endeavour, such as the preservation of the environment, health, waste disposal and the search for resources. Papers on applications of inorganic, organic and isotope geochemistry and geochemical processes are therefore welcome provided they meet the main criterion. Spatial and temporal monitoring case studies are only of interest to our international readership if they present new ideas of broad application. Topics covered include: (1) Environmental geochemistry (including natural and anthropogenic aspects, and protection and remediation strategies); (2) Hydrogeochemistry (surface and groundwater); (3) Medical (urban) geochemistry; (4) The search for energy resources (in particular unconventional oil and gas or emerging metal resources); (5) Energy exploitation (in particular geothermal energy and CCS); (6) Upgrading of energy and mineral resources where there is a direct geochemical application; and (7) Waste disposal, including nuclear waste disposal.
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