Magnesia-stabilised zirconia solid electrolyte assisted electrochemical investigation of iron ions in a SiO2–CaO–MgO–Al2O3molten slag at 1723 K

Gao, Yunming; Yang, Chuanghuang; Zhang, Canlei; Qin, Qingwei

doi:10.1039/c7cp01945a

Cited by 8 publications

(7 citation statements)

References 66 publications

(79 reference statements)

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“…The reduced metal dissolves in the surface of the iridium WE creating a chemical potential gradient that drives solid state diffusion, lowering the activity of the deposited metal towards the thermodynamically stable state of the alloy. A similar mechanism was proposed by Gao et al [10] in the recovery of iron from a silicate melt using an Ir WE. Alloying of the metal produced on a platinum-group metal electrode has been observed before with oxide melts [10,17,29].…”

Section: Potentiostatic Electrolysissupporting

confidence: 67%

“…All the potentials measured are referred to this pseudo-reference electrode, which was found to be stable throughout multiple measurements. While some have successfully used oxide / oxygen reference electrodes based on solid ZrO 2 electrolyte separators [10], in this system, the small size of the molten oxide droplet limits the ability to use this type of reference electrode. Furthermore, as ZrO 2 is soluble in this oxide melt [24], using this type of reference electrode would contaminate the system.…”

Section: Electrochemical Measurements and Analysismentioning

confidence: 99%

“…For each ton of steel produced, 1.83 tons of CO 2 are produced [7], which makes steelmaking one of the largest industrial source of the greenhouse gas. Research in this field has been mainly focused on the extraction of iron from FeO containing melts [7][8][9][10]. For the more complex, chemically-aggressive, Ti-bearing oxide melts, such as TiO 2 − SiO 2 − Al 2 O 3 − MgO − CaO slags, thermodynamic data is only available for narrow ranges of temperature and composition [11].…”

Section: Introductionmentioning

confidence: 99%

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Electrochemical behaviour of titanium-bearing slag relevant for molten oxide electrolysis

Martin-Treceno

Weaver

Allanore

et al. 2020

Electrochimica Acta

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A containerless approach was used to investigate the electrochemical behaviour of TiO 2 -SiO 2 -Al 2 O 3 -MgO -CaO slags in their molten state. Iridium was used in a three-electrode configuration to perform a combination of electrochemical techniques inside a modified thermal imaging furnace. The real-time visualisation during experimentation and the post-mortem microscopy analysis confirmed the direct production of an Ir−Ti−Si alloy and the evolution of oxygen during electrolysis. Thermodynamic properties of the slag were predicted with FactSage and were consistent with experiment. The results justify the use of this method to better characterize the potential of these systems as a secondary source of materials.

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Section: Potentiostatic Electrolysissupporting

confidence: 67%

Section: Electrochemical Measurements and Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Electrochemical behaviour of titanium-bearing slag relevant for molten oxide electrolysis

Martin-Treceno

Weaver

Allanore

et al. 2020

Electrochimica Acta

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“…After t = 10 min, the adsorbed NH 3 was consumed completely for both samples. For sample blank, new bands at 1570 cm −1 corresponding to the NO 2 adsorbed on metal oxides and bidentate nitrate species, appeared since t = 5 min and glowed stronger. Peak at 1260 cm −1 appeared since t = 20 min, which would be ascribed to the bidentate nitrate and/or bridged nitrate species .…”

Section: Resultsmentioning

confidence: 99%

Molybdenum modified Montmonrillonite clay as an efficient catalyst for low temperature NH₃‐SCR

Chen

Feng

Sun

et al. 2020

J of Chemical Tech & Biotech

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Background Selective catalytic reduction of nitrogen oxides with ammonia (NH3‐SCR) is an effective method for the nitrogen oxides (NOx) removal. This study aimed to develop a highly efficient NH3‐SCR catalyst using the naturally available Montmonrillonite (Mt) clay as the catalyst support. Results Mt was processed into PILC by Al/Zr intercalations, impregnated with MnCe mixed active components and loaded with transition metals to achieve X‐AlZr‐PILC‐MnCe (X = V, W, Co or Mo) catalysts. The optimized Mo‐AlZr‐PILC‐MnCe showed the best NH3‐SCR performance with a NO conversion rate of nearly 100% in the temperature range of 240–300 °C, and N2 selectivity of above 85% in the range of 140–300 °C. Conclusions The catalysts were characterized by SEM, BET, XRD, XPS, H2‐TPR, NH3‐TPD to define the relationships between structure, chemical properties and catalytic activity. The enhanced catalytic performance of Mo‐AlZr‐PILC‐MnCe was mainly owing to the increased acidity and better redox ability. In situ DRIFT studies indicated the deposition of Mo changed the reaction from the E‐R to the L‐H mechanism. © 2020 Society of Chemical Industry

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“…With multiple functions such as the container for molten slags, and the electron insulating but ion conducting membrane to separate the anolyte and catholyte, the MSZ tube with a closed end was successfully applied to the electrochemical analyses in molten slags containing FeO or NiO at ultra-high temperatures. [43,44] It is known that the O 2ion conductivity of YSZ is usually higher than that of MSZ at the same temperature. Thus, it was thought that YSZ could offer a sufficiently high O 2ion conductivity at…”

Section: Introductionmentioning

confidence: 99%

Yttria-Stabilized Zirconia Aided Electrochemical Investigation on Ferric Ions in Mixed Molten Calcium and Sodium Chlorides

Gao

Lao

et al. 2018

Metall Mater Trans B

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Electrolytic reduction of dissolved iron oxide to metal iron in molten salts with an inert anode is an alternative short route for steelmaking without CO2 emissions. A novel and simple integrated yttria-stabilized zirconia (YSZ) cell was constructed from a YSZ tube with a closed end. The YSZ tube played multiple functions, including the container for the molten salts, the solid electrolyte membrane in the O 2-| YSZ | Pt | O2 (air) reference electrode (RE), and the solid electrolyte membrane between the working and counter electrodes (WE and CE). Electrochemical behavior of ferric ions (Fe 3+) that were formed by dissolution of 0.5 wt pct Fe2O3 in the molten CaCl2-NaCl eutectic mixture was investigated on a Pt WE at 1273 K by various electrochemical techniques including cyclic voltammetry, linear scan voltammetry, square wave voltammetry, chronopotentiometry, chronoamperometry, and potentiostatic electrolysis. Analysis of the mechanism of electrode reactions was further assisted by scanning electron microscopy, energy dispersive X-ray spectroscopy, and X-ray diffraction. Some electrochemical parameters were obtained, including the number of exchanged electrons and the diffusion coefficient of ferric ions in the mixed molten salts. The results from various electrochemical techniques are in good agreement with each other, and show that the electrochemical reduction of Fe 3+ to Fe in the molten salt mixture could be a single three-electron transfer step and diffusion controlled reaction that was also possibly reversible. This work may form the foundation for extraction of iron and alloys from molten salts and also provid a stable O 2-| YSZ | Pt | O2 (air) RE with wide applicability for investigation on electrochemical properties of other electroactive metal oxides in molten salts.

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Magnesia-stabilised zirconia solid electrolyte assisted electrochemical investigation of iron ions in a SiO₂–CaO–MgO–Al₂O₃molten slag at 1723 K

Cited by 8 publications

References 66 publications

Electrochemical behaviour of titanium-bearing slag relevant for molten oxide electrolysis

Electrochemical behaviour of titanium-bearing slag relevant for molten oxide electrolysis

Molybdenum modified Montmonrillonite clay as an efficient catalyst for low temperature NH₃‐SCR

Yttria-Stabilized Zirconia Aided Electrochemical Investigation on Ferric Ions in Mixed Molten Calcium and Sodium Chlorides

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Magnesia-stabilised zirconia solid electrolyte assisted electrochemical investigation of iron ions in a SiO2–CaO–MgO–Al2O3molten slag at 1723 K

Cited by 8 publications

References 66 publications

Electrochemical behaviour of titanium-bearing slag relevant for molten oxide electrolysis

Electrochemical behaviour of titanium-bearing slag relevant for molten oxide electrolysis

Molybdenum modified Montmonrillonite clay as an efficient catalyst for low temperature NH3‐SCR

Yttria-Stabilized Zirconia Aided Electrochemical Investigation on Ferric Ions in Mixed Molten Calcium and Sodium Chlorides

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Product

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Magnesia-stabilised zirconia solid electrolyte assisted electrochemical investigation of iron ions in a SiO₂–CaO–MgO–Al₂O₃molten slag at 1723 K

Molybdenum modified Montmonrillonite clay as an efficient catalyst for low temperature NH₃‐SCR