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J4 ›› 2015, Vol. 21 ›› Issue (1): 43-.DOI: 10.16108/j.issn1006-7493.20140

• 岩石·矿床·地球化学 • 上一篇    下一篇

常见含水流体包裹体体系pH值的程序计算

张月沙,毛世德*   

  • 出版日期:2015-03-20 发布日期:2015-04-03

Calculation of pH for Common Aqueous Fluid Inclusion Systems

ZHANG Yuesha, MAO Shide*   

  • Online:2015-03-20 Published:2015-04-03

摘要:

常见成矿流体可以近似为CO2-H2O-NaCl体系及其子体系,在成矿过程中一旦被矿物捕获和封存,就会形成流体包裹
体。基于对流体包裹体的热力学研究,可以获得成矿流体的温度、压力和组成等物理化学参数。虽然pH值是一个重要的物
理化学参数,但是对于含水流体包裹体pH值的研究,一直处于探索阶段。目前只有少数研究者实验测定了CO2-H2O-NaCl体
系的pH值,部分研究者建立了热力学模型来计算该体系的pH值。本文结合前人工作,对重要的流体包裹体系(H2O、
NaCl-H2O和CO2-H2O-NaCl) 的pH值计算模型进行了系统归纳,并给出相关体系精确的计算程序。这些体系的执行程序代码
可以从论文出单位或通讯作者获得。

关键词: 流体包裹体, pH, 热力学模型, 程序计算

Abstract:

Common ore-forming fluid systems can be approximated as a CO2-H2O-NaCl system or its subsystems. Once the ore-forming
fluids are trapped and sealed by minerals during the ore-forming process, fluid inclusions will form. Physicochemical parameters of the
ore-forming fluids, such as temperature, pressure and composition, can be obtained by the thermodynamic studies of fluid inclusions.
Although pH is an important physicochemical parameter, the pH study of fluid inclusions is still at the primary stage. Up to now, only a
few researchers measured the pH of CO2-H2O-NaCl system, and some researchers developed the thermodynamic models to calculate the
pH of this system. Combining with the previous work, we systematically summarize the pH calculation models of the important fluid
inclusion systems (H2O, NaCl-H2O and CO2-H2O-NaCl) and present an accurate calculation program for the relevant systems. in this
paper. The executable codes of the calculation programs for these systems can be obtained from this journal or the corresponding author.

Key words: fluid inclusion, pH, thermodynamic model, program calculation