Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings
Spent Pot Lining (SPL) cathode pot, waste from the aluminium smelting process needs detoxification from cyanides, washing out water-soluble salts and extraction of the cryolite (Na3AlF6) decomposition products to be recycled. Revealed cryolite decomposition mechanism with NaOH opens possibilities to...
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Sciendo
2021-03-01
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| Series: | Polish Journal of Chemical Technology |
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| Online Access: | https://doi.org/10.2478/pjct-2021-0006 |
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doaj-31eeccb038d74b488a86e95f1ea9a4e32021-09-05T14:01:02ZengSciendoPolish Journal of Chemical Technology1899-47412021-03-01231374410.2478/pjct-2021-0006Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot LiningsTropenauer Blaž0Klinar Dušan1Golob Janvit2TALUM d.d. Kidričevo, Tovarniška cesta 10, 2325 Kidričevo, SloveniaScientific Research Centre BISTRA Ptuj, Slovenski trg 6, 2250 Ptuj, SloveniaUniversity of Ljubljana, Faculty of Chemistry and Chemical Technology, Večna pot 113, 1000Ljubljana, SloveniaSpent Pot Lining (SPL) cathode pot, waste from the aluminium smelting process needs detoxification from cyanides, washing out water-soluble salts and extraction of the cryolite (Na3AlF6) decomposition products to be recycled. Revealed cryolite decomposition mechanism with NaOH opens possibilities to explore its critical role in the reactive extraction process. Common Na+ ion from NaOH hinders the solubility of the product but also drives mass transfer to the reaction site. Reaction mass balance provides adequate liquid to solid ratio (L/S) and NaOH concentration range. A newly developed kinetic model based on Whitman film theory and NaOH mass flow enables prediction of the reaction time to decompose cryolite to a low enough level. Results show that the internal particle resistance to transport (1/ks) is 19 times larger than the external (1/kl) one and governs the whole process.https://doi.org/10.2478/pjct-2021-0006spent pot liningnaoh concentration rolecryolite decompositionreaction mechanismkinetic model |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Tropenauer Blaž Klinar Dušan Golob Janvit |
| spellingShingle |
Tropenauer Blaž Klinar Dušan Golob Janvit Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings Polish Journal of Chemical Technology spent pot lining naoh concentration role cryolite decomposition reaction mechanism kinetic model |
| author_facet |
Tropenauer Blaž Klinar Dušan Golob Janvit |
| author_sort |
Tropenauer Blaž |
| title |
Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings |
| title_short |
Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings |
| title_full |
Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings |
| title_fullStr |
Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings |
| title_full_unstemmed |
Improved understanding of Sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode Spent Pot Linings |
| title_sort |
improved understanding of sodium hydroxide concentration role and kinetic model of cryolite reactive extraction in cathode spent pot linings |
| publisher |
Sciendo |
| series |
Polish Journal of Chemical Technology |
| issn |
1899-4741 |
| publishDate |
2021-03-01 |
| description |
Spent Pot Lining (SPL) cathode pot, waste from the aluminium smelting process needs detoxification from cyanides, washing out water-soluble salts and extraction of the cryolite (Na3AlF6) decomposition products to be recycled. Revealed cryolite decomposition mechanism with NaOH opens possibilities to explore its critical role in the reactive extraction process. Common Na+ ion from NaOH hinders the solubility of the product but also drives mass transfer to the reaction site. Reaction mass balance provides adequate liquid to solid ratio (L/S) and NaOH concentration range. A newly developed kinetic model based on Whitman film theory and NaOH mass flow enables prediction of the reaction time to decompose cryolite to a low enough level. Results show that the internal particle resistance to transport (1/ks) is 19 times larger than the external (1/kl) one and governs the whole process. |
| topic |
spent pot lining naoh concentration role cryolite decomposition reaction mechanism kinetic model |
| url |
https://doi.org/10.2478/pjct-2021-0006 |
| work_keys_str_mv |
AT tropenauerblaz improvedunderstandingofsodiumhydroxideconcentrationroleandkineticmodelofcryolitereactiveextractionincathodespentpotlinings AT klinardusan improvedunderstandingofsodiumhydroxideconcentrationroleandkineticmodelofcryolitereactiveextractionincathodespentpotlinings AT golobjanvit improvedunderstandingofsodiumhydroxideconcentrationroleandkineticmodelofcryolitereactiveextractionincathodespentpotlinings |
| _version_ |
1717810872772984832 |