Publication
Names
  • Denis Testemale
  • Joel Brugger
  • Weihua Liu
  • Barbara Etschmann
  • Jean-Louis Hazemann
Title
In-situ X-ray absorption study of Iron(II) speciation in brines up to supercritical conditions
Abstract
X-ray absorption spectroscopy (XAS) measurements were used to determine the coordination structure and to derive the speciation of aqueous ferrous chloride complexes in acidic chloride brines over a wide range of conditions (25-450 degrees C, 500 bar, 0.5-12 m chloride molality), covering the range from sedimentary brines to magmatic hydrothermal fluids. EXAFS analysis coupled with ab initio free potential XANES calculations confirmed the octahedral geometry of the different Fe chlorocomplexes at low temperature (\textless200 degrees C) and low (\textless1 m) chloride concentration ([FeClx(H2O)(6-x)](2-x), x = 0-2), and attest the stability of a high-order tetrahedral Fe(II)-chloride complex at high-temperature (\textgreater300 degrees C) and high (\textgreater2 m) chloride molality ([FeCly](2-y); y = 4 or y = 3; Fe-Cl distance = 2.31 +/- 0.01 angstrom). These spectroscopic results contrast with the interpretation of most recent high-temperature studies of Fe(ll) speciation in brines, which assumed that [FeCl2](0) is the predominant species in brines at high temperature. A reinterpretation of the experimental Fe solubilities measured by Fein et al. [Fein, J.B., Hemley, J.J., D'Angelo, W.M., Komninou, A., Sverjensky, D.A.. 1992. Experimental study of iron-chloride complexing in hydrothermal fluids. Geochim. Cosmochim. Acta 56, 3179-3190.] for the magnetite-pyrite-pyrrhotite-quartz-muscovite-K-feldspar assemblage in KCl solutions at 300 degrees C/500 bar and 400 degrees C/500 bar shows that these solubility data can be explained using the high-order [FeCl4](2-) complex. This study illustrates the complementarity between solubility and spectroscopic studies, and provides further evidence of the importance of high-order chlorocomplexes for the transport of transition metals (e.g., Zn, Ni) in high-temperature and/or supercritical fluids.
Keywords
hard X-rays, thermal process, high pressure, Fe, ferrous chloride, hydrothermal fluid, brine, XANES, EXAFS, x-ray absorption spectroscopy
Content
spectral data, earth sciences
Year
2009
Journal
Chemical Geology
Volume
264
Number
1-4
Pages
295
Document type
article
Publication state
published