MODELING THE FORMATION OF FLUORIDE NITROGEN-RICH HOT SPRINGS IN THE WATER – CRYSTALLINE ROCK SYSTEM

IF 0.8 Q4 GEOCHEMISTRY & GEOPHYSICS Geodynamics & Tectonophysics Pub Date : 2020-06-20 DOI:10.5800/gt-2020-11-2-0481
S. K. Pavlov, K. Chudnenko, A. Khromov
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引用次数: 1

Abstract

Physicochemical interactions in the water – porphyrite system in conditions of formation of nitrogen-rich hot springs were studied using computer simulation. Compositions of model solutions during such interactions are determined by a combined influence of the compositions of primary and secondary rock minerals. In the investigated interaction range, the solution actively processes large quantities of the primary rock in favor of secondary minerals, while dissolved components are accumulated in small amounts in the solution itself, and therefore the salinity is low. The intervals of the formation of hydrosilicate, bicarbonate and sulfate sodium solutions are clearly distinguished in the process of irreversible hydrolytic transformation of porphyrite. In a certain range of interactions, the compositions of the model solutions are well comparable with the compositions of natural high-fluoride hot springs. Nitrogen-rich hot springs are strongly influenced by meteogenic factors detectable by detailed and/or sufficiently long-term observations. In deep and surface conditions, the model solutions and natural hot springs considerably differ in composition. Differences are hardly noticeable in the behavior of cations, fluorine, chlorine, and sulfates, but are strongly manifested in changes in the quantities of carbon and silicon compounds and transformations of their forms. These transformations explain the hitherto incomprehensibly different ratios of hydrocarbonate and carbonate ions and hydrosilicate ions and silicic acid both in different hydrothermal sources and in different analyses of hot springs in nature. The development of thermal waters in crystalline rocks is related to two types of heterogeneities that are typical for the development of geological bodies. The first heterogeneity is the disturbed continuity of rocks in fault zones of various orders, due to which groundwater can penetrate into these structures. The uneven distribution of anionic elements in space is another heterogeneity predetermining the groundwater composition and, in particular, accumulation of fluorine, which is confirmed by the results of geological studies, as well as the study of the formation of high-fluoride groundwaters (including thermal water) in various geological structures.
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模拟水结晶岩系统中含氟富氮温泉的形成
利用计算机模拟研究了富氮温泉形成条件下水-卟啉体系的物理化学相互作用。在这种相互作用期间,模型溶液的组成是由原生和次生岩石矿物组成的综合影响决定的。在研究的相互作用范围内,溶液积极作用于大量原生岩石,有利于次生矿物,而溶解组分则少量积聚在溶液中,因此盐度较低。在卟啉不可逆水解转化过程中,氢硅酸盐、碳酸氢盐和硫酸钠溶液的形成间隔明显。在一定的相互作用范围内,模型溶液的组成与天然高氟化物温泉的组成具有很好的可比性。富氮温泉受气象因素的强烈影响,可通过详细和/或足够长期的观测发现。在深层和地表条件下,模型溶液和天然温泉在成分上有很大的不同。阳离子、氟、氯和硫酸盐的行为差异几乎不明显,但碳和硅化合物数量的变化及其形式的转变却明显表现出来。这些转变解释了在不同的热液来源和对自然界温泉的不同分析中,迄今为止难以理解的碳酸盐和碳酸盐离子、氢硅酸盐离子和硅酸的不同比例。结晶岩中热水的发育与两种非均质有关,这两种非均质是地质体发育的典型特征。第一个非均质性是指不同级别断裂带中岩石的连续性受到干扰,因此地下水可以渗入这些构造中。阴离子元素在空间中的不均匀分布是另一种非均质性,预先决定了地下水的组成,特别是氟的积聚,地质研究的结果以及对各种地质构造中高氟化物地下水(包括热水)形成的研究证实了这一点。
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来源期刊
Geodynamics & Tectonophysics
Geodynamics & Tectonophysics GEOCHEMISTRY & GEOPHYSICS-
CiteScore
1.20
自引率
14.30%
发文量
95
审稿时长
24 weeks
期刊介绍: The purpose of the journal is facilitating awareness of the international scientific community of new data on geodynamics of continental lithosphere in a wide range of geolchronological data, as well as tectonophysics as an integral part of geodynamics, in which physico-mathematical and structural-geological concepts are applied to deal with topical problems of the evolution of structures and processes taking place simultaneously in the lithosphere. Complex geological and geophysical studies of the Earth tectonosphere have been significantly enhanced in the current decade across the world. As a result, a large number of publications are developed based on thorough analyses of paleo- and modern geodynamic processes with reference to results of properly substantiated physical experiments, field data and tectonophysical calculations. Comprehensive research of that type, followed by consolidation and generalization of research results and conclusions, conforms to the start-of-the-art of the Earth’s sciences.
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