An interactive spreadsheet for graphing mineral stability diagrams

ABSTRACTGibbs free energies of formation (ΔG°ƒ) for several structurally related U(VI) minerals are estimated by summing the Gibbs energy contributions from component oxides. The estimated ΔG°f values are used to construct activity-activity (stability) diagrams, and the predicted stability fields are compared with observed mineral occurrences and reaction pathways. With some exceptions, natural occurrences agree well with the mineral stability fields estimated for the systems Sio2-Cao-Uo3-UOH2O and Co2-caO-UO3-H2O providing confidence in the estimated thermodynamic values. Activity-activity diagrams are sensitive to small differences in ΔG°f values, and mineral compositions must be known accurately, including structurally bound H2O. The estimated ΔG°f values are not considered reliable for a few minerals for two major reasons: (1) the structures of the minerals in question are not closely similar to those used to estimate the ΔG°f* values of the component oxides, and/or (2) the minerals in question are exceptionally fine grained, leading to large surface energies that increase the effective mineral solubilities.

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A theoretical evaluation of mineral stability in Don Juan Pond, Wright Valley, Victoria Land

Antarctic Science ◽

10.1017/s0954102097000114 ◽

1997 ◽

Vol 9 (1) ◽

pp. 92-99 ◽

Cited By ~ 33

Author(s):

G.M. Marion

Keyword(s):

Experimental Data ◽

Eutectic Temperature ◽

High Water ◽

Don Juan ◽

Theoretical Evaluation ◽

Antarctic Lakes ◽

Stability Diagrams ◽

Subzero Temperatures ◽

Mineral Stability ◽

Victoria Land

Don Juan Pond, located in the Wright Valley, Victoria Land, is unique for several reasons. It is the most saline of the Antarctic lakes, being a near-saturated CaCl2 solution. As a consequence of this high salinity, Don Juan Pond generally remains unfrozen in winter, even at temperatures below -50°C. Don Juan Pond is the site where antarcticite (CaCl2·6H2O) was first identified forming naturally. The objective of this paper is to demonstrate the utility of a chemical thermodynamic model (FREZCHEM) by developing theoretical stability diagrams for ice, halite (NaCl), hydrohalite (NaCl·2H2O), and antarcticite in Don Juan Pond, using experimental data collected on 34 days between 1961 and 1983. The composition of Don Juan Pond at the calculated eutectic temperature (-51.8°C) was CaCl2 = 3.72 mol kg−1 and NaCl = 0.50 mol kg−1, which is similar but not identical to a pure NaCl–CaCl2–H2O system. The low eutectic temperature and high CaCl2 concentrations of Don Juan Pond account for lack of freezing during winter. The model is compatible with the experimental data, and predicts the formation of ice during rare high water periods, halite, and antarcticite. These solid phases have all been reported from Don Juan Pond. The model also predicts the formation of hydrohalite at subzero temperatures; hydrohalite has never been observed at Don Juan Pond, but this may simply reflect that most sampling was done during the summer when halite is thermodynamically more stable than hydrohalite. The FREZCHEM model may prove useful in elucidating the physicochemical behaviour, the origin of salinity, and the evolution of Antarctic lakes.

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Sulphur Isotopes, Trace Elements and Mineral Stability Diagrams of Waters from the Abandoned Fe–Cu Mines of Libiola and Vigonzano (Northern Apennines, Italy)

Water Air & Soil Pollution ◽

10.1007/s11270-008-9637-8 ◽

2008 ◽

Vol 192 (1-4) ◽

pp. 85-103 ◽

Cited By ~ 7

Author(s):

Gianni Cortecci ◽

Tiziano Boschetti ◽

Enrico Dinelli ◽

Roberto Cabella

Keyword(s):

Trace Elements ◽

Northern Apennines ◽

Sulphur Isotopes ◽

Stability Diagrams ◽

Mineral Stability

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The Origin of Saline Groundwaters in Granitic Rocks: Evidence From Hydrothermal Experiments

MRS Proceedings ◽

10.1557/proc-50-121 ◽

1985 ◽

Vol 50 ◽

Cited By ~ 4

Author(s):

David Savage ◽

Mark R. Cave ◽

Antoni E Milodowski

Keyword(s):

Fluid Phase ◽

Granitic Rocks ◽

Plagioclase Feldspar ◽

Natural Systems ◽

Stability Diagrams ◽

Hydrothermal Experiments ◽

Mineral Stability ◽

Solid Phases ◽

Chemical Conditions ◽

The Stability

AbstractHydrothermal rock-water experiments at 80°, 150° and 250° C have been carried out to investigate the origin of saline groundwaters in the Carnmenellis Granite, Cornwall, UK which have previously been attributed to be derived via dissolution of biotite and plagioclase feldspar by dilute meteoric groundwaters. The nature of product fluid and solid phases in the experiments was dominated by the dissolution of plagioclase and potassium feldspars, coupled with the precipitation of laumontite, calcite and smectite. However, the release of chloride from the rock was minimal, suggesting minor dissolution of the major chloride bearing mineral, biotite. The relative inertness and stability of biotite during the experiments was borne out by direct physical observation of reacted biotites and by consideration of the fluid phase composition in terms of thermodynamic mineral stability diagrams. It is concluded that the experimental and natural systems are buffered under different chemical conditions, which may be due to acidity generated via oxidation of localised sulphide zones within the granite and absent in the experiments. Dissolution of biotite may be an important mechanism for enhancing the salinity of groundwaters in granitic rocks if groundwaters are buffered to be outside the stability of biotite and convective circulation is significant.

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Predominance and Mineral Stability Diagrams Revisited

Environmental Science & Technology ◽

10.1021/es034927l ◽

2004 ◽

Vol 38 (13) ◽

pp. 3641-3648 ◽

Cited By ~ 30

Author(s):

David G. Kinniburgh ◽

David M. Cooper

Keyword(s):

Stability Diagrams ◽

Mineral Stability

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Application of a thermodynamic model to predict the mineral stability of titaniferous smectites from soils on volcanic rocks

Clay Minerals ◽

10.1180/claymin.1986.021.3.10 ◽

1986 ◽

Vol 21 (3) ◽

pp. 389-400

Author(s):

J. L. Martin de Vidales ◽

J. Casas ◽

J. Sanz

Keyword(s):

Thermodynamic Model ◽

Soil Depth ◽

Volcanic Rocks ◽

Soil Matrix ◽

Ciudad Real ◽

Weathering Processes ◽

Stability Diagrams ◽

Mineral Stability ◽

The Stability ◽

Octahedral Substitution

AbstractWeathering processes in the Piedrabuena volcano, Ciudad Real province, Central Spain, have produced a smectitic phyllosilicate in four profiles on porphyritic-holocrystalline basalts consisting mainly of titaniferous augites, olivine and pigeonite. Chemical analysis of the purified smectites gave TiO2 contents of 1·89–3·77%. Apart from one profile, the smectites showed high tetrahedral Al-for-Si substitution, with the lattice charge arising from this source exceeding that from octahedral substitution, and thus could be termed beidellites. Octahedral Ti contents ranged from 0·21 to 0·41 per 24 O. A thermodynamic model was used to estimate the ΔG° of formation of these titaniferous smectites. Values ranged between −2503·30 and −2543·26 Kcal/mol. Suitable equilibria were established by calculating their ΔG° of reaction and log Ksp and, from these, the stability diagrams pH - 1/2pMg2+ against log H4SiO4 were derived. Correlations found were: (i) strong and positive between AlVI-X+ (0·91), AlIV-FeVI (0·85), AlVI-FeVI (0·85) and AlVI-MgVI (0·76); (ii) strong and negative between AlIV-octahedral charge; (iii) solubility product (log Ksp) positively correlated with X+ (0·73), AlIV (0·89), FeVI (0·67) and MgVI (0·84). Smectites showing higher tetrahedral charges were the least stable. Conversely, the stabilities of titaniferous smectites were favoured by high values of pH - 1/2pMg2+ and/or activities in soil-matrix solution. When the activities of H4SiO4 decreased, the montmorillonitic smectites became less stable than those showing beidellitic characteristics. Variations in composition and stability of the titaniferous smectites were not correlated with soil depth.

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CO2 Sequestration by Carbonation Processes of Rubblized Concrete at Standard Conditions and the Related Mineral Stability Diagrams

ACS Sustainable Chemistry & Engineering ◽

10.1021/acssuschemeng.9b07690 ◽

2020 ◽

Vol 8 (17) ◽

pp. 6647-6656 ◽

Cited By ~ 1

Author(s):

Aiyoub Abbaspour ◽

Burak F. Tanyu

Keyword(s):

Co2 Sequestration ◽

Stability Diagrams ◽

Mineral Stability

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Phenomena and devices at the quantum scale and the mesoscale

10.1093/oso/9780198759874.003.0003 ◽

2017 ◽

Author(s):

Sandip Tiwari

Keyword(s):

Coulomb Blockade ◽

Secure Communication ◽

Quantum Hall ◽

Nanoscale Device ◽

Self Energy ◽

Stability Diagrams ◽

Charge Stability ◽

Bohm Effect ◽

Aharonov Bohm ◽

Non Locality

Unique nanoscale phenomena arise in quantum and mesoscale properties and there are additional intriguing twists from effects that are classical in origin. In this chapter, these are brought forth through an exploration of quantum computation with the important notions of superposition, entanglement, non-locality, cryptography and secure communication. The quantum mesoscale and implications of nonlocality of potential are discussed through Aharonov-Bohm effect, the quantum Hall effect in its various forms including spin, and these are unified through a topological discussion. Single electron effect as a classical phenomenon with Coulomb blockade including in multiple dot systems where charge stability diagrams may be drawn as phase diagram is discussed, and is also extended to explore the even-odd and Kondo consequences for quantum-dot transport. This brings up the self-energy discussion important to nanoscale device understanding.

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