| 康定-老榆林地热系统氢氧同位素迁移数值模拟分析 |
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| 引用本文: | 那金,姜雪,姜振蛟.康定-老榆林地热系统氢氧同位素迁移数值模拟分析[J].地球科学,2021,46(7):2646-2656. |
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| 作者姓名: | 那金 姜雪 姜振蛟 |
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| 作者单位: | 长江大学资源与环境学院,湖北武汉 430100;中国地质大学环境学院,湖北武汉 430074;吉林大学地下水资源与环境教育部重点实验室,吉林长春 130021 |
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| 基金项目: | 国家自然科学基金项目41807194国家自然基金项目41807208青海省地勘基金项目3R219L991425国家重点实验室开放基金“煤炭开采水资源保护与利用”项目SHJT-17-42.9 |
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| 摘 要: | 以康定老榆林地区地热系统为研究对象,利用TOUGH-Isotope程序进行水-热-同位素耦合数值模拟,并鉴于研究区大气降水氢氧同位素季节性明显、地震活动活跃,探讨了补给水同位素特征、热储层渗透性变化对地热系统氢氧同位素迁移过程的影响.研究结果表明氢氧同位素模拟值与研究区ZK3钻孔流出水测试值基本拟合,高温地热系统的对流-弥散作用对氢氧同位素迁移过程影响明显;研究区地热水循环条件较好,水-岩作用程度较低,导致氧同位素重化现象不明显;补给水同位素特征、热储层渗透性两个因素对地热水循环过程中的氢氧同位素分布具有明显的影响.开展地热系统流体氢氧同位素迁移过程研究,有助于提高对地热系统动态演化的定量化认识,为地热开发提供支持.
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| 关 键 词: | 地热系统 水-热-同位素耦合 同位素特征 康定地区 地球化学 |
| 收稿时间: | 2020-08-21 |
Numerical Modelling of Stable Isotope Transport Processes in a Hydrogeothermal System of Kangding-Laoyuling Area |
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| Na Jin,Jiang Xue,Jiang Zhenjiao.Numerical Modelling of Stable Isotope Transport Processes in a Hydrogeothermal System of Kangding-Laoyuling Area[J].Earth Science-Journal of China University of Geosciences,2021,46(7):2646-2656. |
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| Authors: | Na Jin Jiang Xue Jiang Zhenjiao |
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| Abstract: | In Laoyulin geothermal system of Kangding, we uses TOUGH-Isotope program to conduct the numerical simulation of water-heat-isotope coupling. In view of the obvious seasonality of stable isotopes in precipitation and active seismic activity in the research area, the impact that the isotope characteristics of recharge water and thermal reservoir permeability variation on the transport of hydrogen and oxygen isotopes in the geothermal system also are explored in this paper. The results indicate that the calculate values of hydrogen and oxygen isotopes of the hot water are generally with the measured values in ZK3 borehole, and the convection-dispersion effect of the high-temperature geothermal system has a significant effect on the migration process of hydrogen and oxygen isotopes. The geothermal water circulation conditions in the study area are strong, which causes the phenomenon of oxygen isotope enrichment to be slight. In the geothermal water circulation, the two factors-isotope characteristics of recharge water and thermal reservoir permeability have significant effects on the distribution of hydrogen and oxygen isotopes. Therefore, the numerical modelling of stable isotope transport processes in the geothermal system fluid can help to improve the quantitative understanding of the dynamic evolution of the geothermal system, which will provide support for geothermal development. |
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