Process parameter impacts on adiponitrile current efficiency and cell voltage of an electromembrane reactor using emulsion-type catholyte

The Hall-Heroult process for the production of aluminium is based on the electrochemical reduction of alumina (Al2O3) dissolved in a cryolite (Na3AlF6) based electrolyte. Instability in cell voltage is referred to as noise. Normal voltage noise is inevitable due to bubble evolution and it has little effect on performance parameters such as, current efficiency and power consumption. Metal rolling noise (wavy noise) is caused by the disturbances in cell magnetic field and it affects the cell current efficiency adversely. Investigating the causes of the cell instability in the aluminium smelting cells can lead to better cell performance. Understanding the variation in cell voltage is critical for cells, because magnitude of voltage determines the energy consumption pattern in the process and hence, any saving on voltage can save energy. Voltage affects the current efficiency of the cell and an optimum cell voltage leads to higher current efficiency without compromising on energy consumption. Magnetic, current distribution, heat loss and voltage at zero current measurements along with online current and voltage signal can help to identify the problems and their combined effects on the performance of the cells. In order to estimate the loss in current efficiency of the aluminum electrolysis cells due to metal instabilities, measurements were performed and data analyzed. The present paper analyses the effect of voltage fluctuations (noise) during metal instability along with cause of instability and its effect on current efficiency of the cell. Measurements carried out to estimate the deviations from the normal cell operations are also discussed.

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Current Efficiency Measurements in Laboratory Aluminium Cells—IV. Depletion of Alumina and Cell Voltage

Canadian Metallurgical Quarterly ◽

10.1179/cmq.1979.18.1.13 ◽

1979 ◽

Vol 18 (1) ◽

pp. 13-18 ◽

Cited By ~ 4

Author(s):

C. Castellano ◽

D. Bratland ◽

K. Grjotheim ◽

T. Müftüoglu ◽

J. Thonstad

Keyword(s):

Current Efficiency ◽

Cell Voltage

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Preparation of CMC-PVA/PAN-FePc(COOH)8/CS-PVA Bipolar Membrane and its Application in Electro-Oxidized Synthesis of Dialdehydle Starch

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1120-1121.141 ◽

2015 ◽

Vol 1120-1121 ◽

pp. 141-147

Author(s):

Zhong Gui Li ◽

Ting Jin Zhou ◽

Ri Yao Chen ◽

Xiao Chen ◽

Xi Zheng ◽

...

Keyword(s):

Polyvinyl Alcohol ◽

Current Efficiency ◽

Current Density ◽

Cell Voltage ◽

Contact Angle Measurement ◽

Angle Measurement ◽

Experimental Results ◽

Bipolar Membrane ◽

Electrospinning Technique ◽

A Current

The polyacrylonitrile (PAN)-iron octocarboxyphthalocyanine (FePc(COOH)8) nanofibers were prepared using electrospinning technique and introduced into the interlayer of a carboxymethyl cellulose (CMC)-polyvinyl alcohol (PVA)/chitosan (CS)-polyvinyl alcohol bipolar membrane (BPM), which was characterized using SEM, contact angle measurement, current-voltage characteristics, AC impedance spectroscopy and so on. The experimental results showed that after modification by PAN-FePc(COOH)8 nanofibers, the membrane impedance of the BPM and its cell voltage were decreased. That indicated that the water splitting efficiency in the interlayer of the BPM was increased. Then the prepared CMC-PVA/PAN-FePc(COOH)8/CS-PVA BPM was used in the electro-oxidized preparation of dialdehydle starch (DAS). The experimental results indicated that a current density of 20mA·cm-2 was suitable to obtain high current efficiency. When the electrolysis time was 3h at a current density of 20 mA·cm-2 , the current efficiency of the CMC-PVA/PAN-FePc(COOH)8/CS-PVA BPM-equipped cell was as high as 67%.

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Development of computational methods for estimation of current efficiency and cell voltage in a Chlor-alkali membrane cell

Energy Sources Part A Recovery Utilization and Environmental Effects ◽

10.1080/15567036.2021.1897194 ◽

2021 ◽

pp. 1-14

Author(s):

Alexei Valerievich Yumashev ◽

Seyed Morteza Fateminasab ◽

Azam Marjani ◽

Amin B. Lirgeshas

Keyword(s):

Current Efficiency ◽

Computational Methods ◽

Cell Voltage ◽

Membrane Cell

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Selective Recovery of Tellurium from the Tellurium-Bearing Sodium Carbonate Slag by Sodium Sulfide Leaching Followed by Cyclone Electrowinning

Metals ◽

10.3390/met10091176 ◽

2020 ◽

Vol 10 (9) ◽

pp. 1176

Author(s):

Zhipeng Xu ◽

Zoujiang Li ◽

Dong Li ◽

Xueyi Guo ◽

Ying Yang ◽

...

Keyword(s):

Energy Consumption ◽

Current Efficiency ◽

Sodium Carbonate ◽

Flow Rate ◽

Current Density ◽

Sodium Sulfide ◽

Cell Voltage ◽

Promising Alternative ◽

Selective Recovery ◽

Solid Ratio

The rigorous environmental requirements promote the development of new processes with short and clean technical routes for recycling tellurium from tellurium-bearing sodium carbonate slag. In this paper, a novel process for selective recovery of tellurium from the sodium carbonate slag by sodium sulfide leaching, followed by cyclone electrowinning, was proposed. 88% of tellurium was selectively extracted in 40 g/L Na2S solution at 50 °C for 60 min with a liquid to solid ratio of 8:1 mL/g, while antimony, lead and bismuth were enriched in the leaching residue. Tellurium in the leach liquor was efficiently electrodeposited by cyclone electrowinning without purification. The effects of current density, temperature and flow rate of the electrolyte on current efficiency, tellurium recovery, cell voltage, energy consumption, surface morphology, and crystallographic orientations were systematically investigated. 91.81% of current efficiency and 95.47% of tellurium recovery were achieved at current density of 80 A/m2, electrolyte temperature of 45 °C and electrolyte flow rate of 400 L/h. The energy consumption was as low as 1.81 kWh/kg. A total of 99.38% purity of compact tellurium deposits were obtained. Therefore, the proposed process may serve as a promising alternative for recovering tellurium from tellurium-bearing sodium carbonate slag.

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