万龙山断裂控制型地热系统水化学特征与成因机制OA
Hydrochemical Characteristics and Genetic Mechanism of the Wanlongshan Fault-Controlled Geothermal System
华南赣西地区中低温断裂控制型地热系统成因机制较为复杂,其深部循环演化过程与热储结构特征尚不明确,制约了该区域地热资源的精准勘探与可持续开发利用.位于罗霄山脉北段万龙山断裂带中部的温汤地热田,是揭示此类地热系统成因机制的关键研究区.本文在温汤地热田共采集 12组水样,综合运用地质构造分析、水化学图解、稳定同位素(H-O-Sr)示踪与地热温标等方法,对地热流体的补给来源、循环演化及热储特征进行了研究.结果表明:①区内地热水与冷水均来源于大气降水,地热水在径流过程中经历了显著的水-岩相互作用,并与浅层冷水发生不同程度混合,混合比例达 72%~83%;②石英地热温标估算显示,深部热储温度为 92.5~101.1℃,水化学特征指示其为中低温、弱碱性、HCO3-Na型水;③综合揭示热储结构沿万龙山断裂带呈带状展布,属裂隙-孔隙复合型热储,具有良好的导热与聚热能力.本研究构建了"降水入渗-断裂深循环-导热聚热-冷热混合"的断裂控制型地热系统成因模型,阐明了构造-岩性-流体协同控热机制,可为华南地区同类地热资源的勘探与开发提供理论支撑.
The genetic mechanisms of medium-low temperature fault-controlled geothermal systems in the western Jiangxi region of South China are complex,where deep circulation pathways and reservoir structures remain poorly constrained,hindering the precise exploration and sustainable development of geothermal resources.The Wentang geothermal field,located in the central section of the Wanlongshan fault zone in the northern part of the Luoxiao Mountain Range,represents a key site for elucidating the genesis of such geothermal systems.In this work,a total of 12 water samples were collected from the Wentang geothermal field.Through integrated application of geological structural analysis,hydrochemical diagrams,stable isotope(H-O-Sr)tracing,and geothermometers,the recharge sources,circulation evolution,and reservoir characteristics of the geothermal fluids were investigated.The main findings are as follows:(1)Both the geothermal and cold waters in the study area are of meteoric origin.The geothermal water has undergone significant water-rock interactions during its flow path and has mixed with shallow cold water to varying degrees,with estimated mixing proportions ranging from 72%to 83%.(2)Based on quartz geothermometers,the deep reservoir temperature is estimated to be between 92.5℃and 101.1℃.The hydrochemical characteristics classify it as a medium-low temperature,weakly alkaline,HCO3-Na type water.(3)Comprehensive analysis reveals that the thermal reservoir structure is zonally distributed along the Wanlongshan fault zone,characterized as a fracture-pore composite reservoir with efficient heat conduction and accumulation capabilities.A genetic model for the fault-controlled geothermal system described as"precipitation infiltration-fault-controlled deep circulation-heat conduction and accumulation-mixing of cold and hot waters"is established.It elucidates the synergistic heat-controlling mechanism involving structure,lithology,and fluid,thereby providing a theoretical foundation for the exploration and development of similar geothermal resources in South China.The BRIEF REPORT is available for this paper at http://www.ykcs.ac.cn/en/article/doi/10.15898/j.ykcs.202507070194.
张垚垚;刘凯;张寿川;王路瑶;贺晓龙;张栋;贾伍慧;王庆飞
中国地质科学院,北京 100037中国地质科学院,北京 100037||中国地质大学(北京)水资源与环境学院,北京 100083中国地质科学院,北京 100037中国地质科学院,北京 100037湘潭大学环境与资源学院,湖南 湘潭 411105河南省地质研究院,河南 郑州 450018中国地质科学院,北京 100037中国地质科学院,北京 100037
天文与地球科学
万龙山断裂温汤地热田水化学H-O-Sr同位素热储结构成因机制
Wanlongshan FaultWentang geothermal fieldhydrochemistryH-O-Sr isotopesthermal reservoir structuregenetic mechanism
《岩矿测试》 2026 (3)
582-599,18
地球深部探测与矿产资源勘查国家科技重大专项(2024ZD1004103,2025ZD1011107)中央财政基本科研业务费项目(JKY202511,JKY202406)湖南省自然科学基金青年项目(2023JJ40624)
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