Reconstruction of deep fluid chemical constituents for estimation of geothermal reservoir temperature using chemical geothermometers

IF 1.7 4区地球科学 Q3 WATER RESOURCES

Journal of Groundwater Science and Engineering Pub Date : 2017-06-01 DOI:10.26599/jgse.2017.9280017

Yanguang Liu, B. Liu, Chuan Lu, Xi Zhu, Guiling Wang

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引用次数: 4

Abstract

: This paper elaborates the chemical constituent change principles of deep geothermal fluid during the process of upward movement. It summarizes research methods of hydrochemistry, isotope and numerical modelling technique for the physiochemical processes such as decreasing temperature, shallow groundwater infusion, and degassing. The multi-component chemical geothermometry methods including gas geochemical method are discussed. High-temperature geothermal fields in China are mostly located in the southwest with frequent new tectonic movements, especially in Tibet high-temperature geothermal areas. Therefore the paper also focuses the status of high-temperature geothermal fluid research. At last, it ’ s pointed out in the paper that in the future we can start from typical high-temperature geothermal zones and geothermal fields to explore optimization of the multi-component geothermometry method and use it in the reconstruction and analogue of the formation mechanism and internal relevancy of regional geothermal systems.

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利用化学地热计估算地热储层温度的深层流体化学成分重建

阐述了深层地热流体在向上运动过程中的化学成分变化规律。总结了水化学、同位素和数值模拟技术在降温、浅层地下水注入、脱气等物理化学过程中的研究方法。讨论了包括气体地球化学方法在内的多组分化学地热测量方法。我国高温地热田多位于新构造运动频繁的西南地区，特别是西藏高温地热区。因此本文还重点介绍了高温地热流体的研究现状。最后指出，今后我们可以从典型的高温地热带和地热田入手，探索多组分地热测量方法的优化，并将其用于区域地热系统形成机制和内部关联性的重建和模拟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Groundwater Science and Engineering WATER RESOURCES-

CiteScore

2.80

自引率

9.10%

发文量

308

期刊介绍： It publishes original, innovative, and integrative research in groundwater science and engineering with a focus on hydrogeology, environmental geology, groundwater resources, agriculture and groundwater, groundwater resources and ecology, groundwater and geologic environment, groundwater circulation, groundwater pollution, groundwater exploitation and utilization, hydrogeological standards and methods, groundwater information science, climate change and groundwater. The Editorial Board is composed of more than sixty world-renowned experts and scholars, 47% of whom are foreign scientists. Up to now, the foreign authors contributed papers are from USA, Japan, Canada, Australia, Russia, Mongolia, Thailand and Vietnam.