Hydrothermal hydrolysis of aluminum(3+) and the precipitation of boehmite from aqueous solution

Macdonald, Digby D.; Butler, Peter E.; Owen, Derrek G.

doi:10.1021/j100639a022

Cited by 46 publications

(28 citation statements)

References 2 publications

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“…[5] into Eq. [4] therefore yields the deviation function as DEV --RT in (]l/f2)/2F [6] where ]1 and f2 are the fugacities of water for the internal and test solutions, respectively. Precise values for fl [0.1m KC1 q-0.01m B(OH)3 -t-0.01m KOH] and S2 [0.01m B(OH)3 -b 0.01m KOH] are not available.…”

Section: Fig 4 Potential Vs Pht Response For the Ceramic Membrane mentioning

confidence: 99%

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Stabilized Ceramic Membrane Electrodes for the Measurement of pH at Elevated Temperatures

Tsuruta

Macdonald

1982

J. Electrochem. Soc.

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The use of a ceramic (ZrO2 + 17%Y~O3) membrane for the measurement of pH at elevated temperatures is described. The measurement system consists of matched membrane and external pressure-balanced reference electrodes, both of which have their internal Ag/AgC1 sensing elements at ambient temperature in order to avoid thermal degradation. The pH response of the system has been calibrated using B(OH)3 + KOH and H2SO4 + Na2SO~ test solutions whose pH values were determined at various temperatures between 25 ~ and 275~ using an in situ hydrogen electrode. The ceramic membrane has been shown to exhibit a Nernstian pH response, particularly at elevated temperatures (T > 200~ although an "acid error" was observed for weakly acidic environments.

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Section: Fig 4 Potential Vs Pht Response For the Ceramic Membrane mentioning

confidence: 99%

“…The importance of pH measurements for defining the properties of aqueous systems at elevated temperatures is well recognized (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13). Previously, both palladium hydride (1,(9)(10)(11)(12)(13) and platinized (or palladized) platinum hydrogen electrodes (2-7) have been employed for this purpose.…”

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confidence: 99%

Stabilized Ceramic Membrane Electrodes for the Measurement of pH at Elevated Temperatures

Tsuruta

Macdonald

1982

J. Electrochem. Soc.

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“…Potentiometric techniques are featured prominently in experiments designed to measure precisely the hydrolysis equilibria in aluminum salt solutions (1)(2)(3)(4). These and other studies suggest that at very low total aluminum concentrations (about 10 -5 M) the mono-nuclear complexes AI(OH) ~+ and AI(OH)2 +, are present in significant amounts.…”

Section: Introductionmentioning

confidence: 99%

“…The best quantitative evidence for this conclusion is furnished by the precise measurements of Kubota (5) and Nazarenko and Nevskaya (6). At increasing A1 concentrations the formation of polynuclear hydroxo-complexes are called upon to explain the experimental data (2)(3)(4)(7)(8)(9). Unfortunately, no general consensus of opinion exists as to the exact identity and number of such polymeric species in solution.…”

Section: Introductionmentioning

confidence: 99%

Hydrolysis-precipitation studies of aluminum (III) solutions. I. Titration of acidified aluminum nitrate solutions

Vermeulen

Geus

Stol

et al. 1975

Journal of Colloid and Interface Science

110

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Acidified aluminum nitrate solutions were fitrated with alkali (NaOH or KOH) over a temperature range of 24°C to 90°C. A homogeneous distribution of added base was achieved by: (i) in situ decomposition of urea (90°C); and (ii) a novel method involving injection through a capillary submerged in the agitated salt solution.The experimental pH curves are characterized by two plateaus (or platforms) separated by a steep jump in pH. These characteristic features were not previously observed in continuous titration experiments. This is especially true of the second platform, which begins at an OH/A1 ratio larger than 2.5. Stable colloidal solutions or gels are formed on traversing this plateau. The hydrolysis-precipitation behavior was also followed by light scattering and x-ray diffraction measurements.A qualitative picture of the neutralization process is developed.

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“…A major obstacle to the measurement of pH at elevated temperatures is the lack of a reliable and generally applicable method for measuring the activity of hydrogen ion in these hostile environments. The precise pH measurements using concentration cells, which have been described by Mesmer et al (2)(3)(4)(5) and Macdonald and co-workers (6)(7)(8), and the use of single hydrogen electrodes, require the presence of molecular hydrogen in the system. Accordingly, these techniques are applicable only to those systems that are stable to reduction by molecular hydrogen.…”

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confidence: 99%

Measurement of pH and Redox Potential in Boric Acid/Lithium Hydroxide Buffer Solutions at Elevated Temperatures

Tsuruta

Macdonald

1981

J. Electrochem. Soc.

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A palladium-hydride electrode (Pd black on Pt) was used for the measurement of pH in high temperature aqueous systems (25~176 The electrode potential was calibrated against boric acid/lithium hydroxide buffer solutions, whose PHT vs. temperature profiles have been calculated (1) using known dissociation constants for the components. The plateau potential for the ~ ~-~ phase was observed up to 150~ but was not observed above 200~The potential measured above 200~ was identified to be the redox potential and to correspond to the hydrogen electrode potential in the case of a hydrogenated system. The redox potential measured in hydrogenated systems were found to exhibit linear Nernstian responses to temperatures up to 275~ but deviations of the measured potentials from equilibrium values were detected at temperatures above 200~ The deviations are most probably due to uncertainties in the thermal and isothermal liquid junction potentials associated with the external reference electrode, and to uncertainties in the thermodynamic properties of high temperature aqueous solutions.The importance of pH and redox potential measurements in high temperature aqueous systems, such as BWR and PWR (primary, secondary) nuclear systems, geothermal brines, chemical industries process waters, and for characterizing the solutions which have been used extensively in high temperature electrochemical studies, is widely recognized. A major obstacle to the measurement of pH at elevated temperatures is the lack of a reliable and generally applicable method for measuring the activity of hydrogen ion in these hostile environments. The precise pH measurements using concentration cells, which have been described by Mesmer et al. (2)(3)(4)(5) and Macdonald and co-workers (6-8), and the use of single hydrogen electrodes, require the presence of molecular hydrogen in the system. Accordingly, these techniques are applicable only to those systems that are stable to reduction by molecular hydrogen. Many metal ions and anions are stable in hydrogenated systems and hydrogen electrodes have been shown to function at elevated temperatures. However, the problems involved with these electrodes are the precise determination of hydrogen fugacity and the difficulty of application for in situ pH measurements.The potential decay of palladium-hydride electrodes has been used for the measurement of pH in high temperature aqueous systems by a number of workers (1,(9)(10)(11)(12). The work of Dobson and co-workers (9-12) on this system has indicated that palladium-hydride electrodes exhibit Nernstian responses up to 195~ However, their work was restricted to highly acidic or basic solutions, and no data were obtained for the technologically important pH range from 5 to 13. Recently, the palladium-hydride electrode has been used by Macdonald et al. (1) for the measurement of pH in various boric acid/lithium hydroxide buffer solutions ranging in pH (25~ between 5 and 13 at temperatures to 275~ Although linear potential vs. pH correlations were observed for all temperat...

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Hydrothermal hydrolysis of aluminum(3+) and the precipitation of boehmite from aqueous solution

Cited by 46 publications

References 2 publications

Stabilized Ceramic Membrane Electrodes for the Measurement of pH at Elevated Temperatures

Stabilized Ceramic Membrane Electrodes for the Measurement of pH at Elevated Temperatures

Hydrolysis-precipitation studies of aluminum (III) solutions. I. Titration of acidified aluminum nitrate solutions

Measurement of pH and Redox Potential in Boric Acid/Lithium Hydroxide Buffer Solutions at Elevated Temperatures

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