Molecular Simulations of Dense Hydrothermal NaCl−H<sub>2</sub>O Solutions from Subcritical to Supercritical Conditions

Reagan, Matthew T.; Harris, Jonathan G.; Tester, Jefferson W.

doi:10.1021/jp990757g

Cited by 40 publications

(20 citation statements)

References 31 publications

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“…A similar increase of the first maximum of the RDF has been reported by Reagan et al 37 in a study on cluster formation in dense NaCl solutions at hydrothermal conditions. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 The RDF of the simulations at 300 °C and 320 °C furthermore exhibits a strong, broad second maximum at 0.625 nm, which suggests that larger clusters with a second coordination shell of ions exist.…”

Section: Molecular Dynamics Simulationssupporting

confidence: 87%

Ion Association in Hydrothermal Sodium Sulfate Solutions Studied by Modulated FT-IR-Raman Spectroscopy and Molecular Dynamics

et al. 2015

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Saline aqueous solutions at elevated pressures and temperatures play an important role in processes such as supercritical water oxidation (SCWO) and supercritical water gasification (SCWG), as well as in natural geochemical processes in Earth and planetary interiors. Some solutions exhibit a negative temperature coefficient of solubility at high temperatures, thereby leading to salt precipitation with increasing temperature. Using modulated FT-IR Raman spectroscopy and classical molecular dynamics simulations (MD), we studied the solute speciation in solutions of 10 wt % Na2SO4, at conditions close to the saturation limit. Our experiments reveal that ion pairing and cluster formation are favored as solid saturation is approached, and ionic clusters form prior to the precipitation of solid sulfate. The proportion of such clusters increases as the phase boundary is approached either by decreasing pressure or by increasing temperature in the vicinity of the three-phase (vapor-liquid-solid) curve.

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Section: Molecular Dynamics Simulationssupporting

confidence: 87%

Ion Association in Hydrothermal Sodium Sulfate Solutions Studied by Modulated FT-IR-Raman Spectroscopy and Molecular Dynamics

et al. 2015

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“…Approaches using molecular dynamics have shown interesting insights in the fundamental ideas of supercritical water and systems containing supercritical water and inorganic compounds [14][15][16][17][18]. These studies are focused on the behavior of supercritical water and not on the quantitative description of the solubility of salts.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

Quantitative approaches for the description of solubilities of inorganic compounds in near-critical and supercritical water

Leusbrock¹,

Metz²,

Rexwinkel³

et al. 2008

The Journal of Supercritical Fluids

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“…In the second area, the research focus has been on experimental characterization of phase boundaries and compositions in binary (single salt-water) and ternary (two salt-water) systems (e.g., Armellini and Tester, 1993;DiPippo et al, 1999) and on modeling of salt-water systems in general (Cui and Harris, 1995a,b;Reagan et al, 1999;Tester et al, 1998).…”

Section: Chemical and Phase Reactions In Supercritical Watermentioning

confidence: 99%

“…For example, various researchers (at MIT, NIST, ORNL, and elsewhere) are quantifying the PTXj behavior of the NaCl-Na 2 S0 4 -H 2 0 binary and ternary systems using the Anderko-Pitzer model and other theoretically based equations of state (see papers presented by Anderko and Simonson from this workshop for further details). In separate studies at MIT and ORNL, molecular simulations are being used to shed light on important phenomena in hydrothermal and supercritical salt solutions, such as local solvation and solution structure, hydrogen bonding, ion pairing, solid phase nucleation, phase coexistence, and spinodal decomposition (Reagan et al, 1999).…”

Section: Chemical and Phase Reactions In Supercritical Watermentioning

confidence: 99%

Guidelines for Phase Separations in High-Temperature and Supercritical Water Solutions: A Report on a Workshop Organized by the U.S. Army Research Office and the Forschungzentrum Karlsruhe, 7-9 July 1999

Shaw¹,

Boukis²

2000

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Approved for public release; distribution unlimited. AbstractThe U.S. Army is developing supercritical water oxidation for destruction of military toxic materials. The properties of high-temperature aqueous solutions are not, in most cases, well known. Understanding the phase behavior of these solutions will facilitate design and efficient operation of high-temperature water reactors. A U.S. Army workshop held at the Forschungzentrum Karlsruhe in July 1999 assembled experts on phase behavior to develop guidelines that, in the absence of more complete knowledge of solution properties, will aid reactor designers and operators. The experts presented papers on model systems, properties of high-temperature aqueous solutions, and chemistry in high-temperature water. Following these presentations, the experts developed some of the desired rules of thumb and made recommendations for research to develop these guidelines further. This workshop report includes the presentation papers, guidelines, and recommendations for research. Distribution 67Report Documentation Page 71 Participants in the workshop 2Hong, Model Systems P-T-x diagram for Type la systems and Type lb systems 122. T-x diagram for NaCI-H 2 0 at 250 bar 13 3. P-T projection of solidus for NaCI-H 2 0 14 4. P-T-x diagrams for Type 2a systems, and Type 2b systems 14 5. T-x projection of phase diagram for ternary systems of Type 1: subtype A, subtype B, and subtype C 16 6. P-T projection of eutonic curve for NaCl-Na 2 S04-H 2 0 system ... 177. Temperature progression of phase diagrams at 225 bar for NaCINa 2 S04-H 2 0 system 17 Supercritical water (SCW) oxidation (SCWO) provides a powerful means to transform toxic organic materials into simple, relatively inert oxides. Water at high temperatures and pressures is an active medium, however, and its properties and those of its solutions are only partially understood. Indeed, two principal challenges to broad use of this technology are (1) the materials requirements for the reactor and the heatup and cooldown sections, and (2) the incomplete understanding of and ability to predict the phase behavior of SCW solutions.Phase separations have the potential to impair the operation of an SCWO reactor (1) by dramatically changing transport properties (especially in the presence of dynamically separating liquid and solid phases), (2) by generating solid particles that may plug reactor orifices and deposit on reactor surfaces, and (3) by producing a highly corrosive electrochemical environment. Objectives for This WorkshopWe sought to develop (or recommend methodologies to develop) guidelines/rules of thumb for phase separations in organic/salt/gas/aqueous solutions in SCWO processing for defined sets of feed compositions. Useful speculations about these phase separations are in the areas not only of equilibrium thermodynamics (e.g., solubility), but also of the kinetics of phase separation and growth (e.g., the problem of heterogeneous nucleation). The phase separation guidelines are intended to indicate regions of safe (pr...

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Molecular Simulations of Dense Hydrothermal NaCl−H₂O Solutions from Subcritical to Supercritical Conditions

Cited by 40 publications

References 31 publications

Ion Association in Hydrothermal Sodium Sulfate Solutions Studied by Modulated FT-IR-Raman Spectroscopy and Molecular Dynamics

Ion Association in Hydrothermal Sodium Sulfate Solutions Studied by Modulated FT-IR-Raman Spectroscopy and Molecular Dynamics

Quantitative approaches for the description of solubilities of inorganic compounds in near-critical and supercritical water

Guidelines for Phase Separations in High-Temperature and Supercritical Water Solutions: A Report on a Workshop Organized by the U.S. Army Research Office and the Forschungzentrum Karlsruhe, 7-9 July 1999

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Molecular Simulations of Dense Hydrothermal NaCl−H2O Solutions from Subcritical to Supercritical Conditions

Cited by 40 publications

References 31 publications

Ion Association in Hydrothermal Sodium Sulfate Solutions Studied by Modulated FT-IR-Raman Spectroscopy and Molecular Dynamics

Ion Association in Hydrothermal Sodium Sulfate Solutions Studied by Modulated FT-IR-Raman Spectroscopy and Molecular Dynamics

Quantitative approaches for the description of solubilities of inorganic compounds in near-critical and supercritical water

Guidelines for Phase Separations in High-Temperature and Supercritical Water Solutions: A Report on a Workshop Organized by the U.S. Army Research Office and the Forschungzentrum Karlsruhe, 7-9 July 1999

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Molecular Simulations of Dense Hydrothermal NaCl−H₂O Solutions from Subcritical to Supercritical Conditions