Shrinking core models applied to the sodium silicate production process
The sodium silicate production process, with the molar ratio SiO2/Na2O = 2, for detergent zeolite 4A production, is based on quartz sand dissolving in NaOH aqueous solution, with a specific molality. It is a complex process performed at high temperature and pressure. It is of vital importance to dev...
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Association of Chemical Engineers of Serbia
2007-01-01
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| Series: | Hemijska Industrija |
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| Online Access: | http://www.doiserbia.nb.rs/img/doi/0367-598X/2007/0367-598X0701033S.pdf |
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doaj-8eb99a743de84fe9b43772b0eee0c3512020-11-24T22:35:06ZengAssociation of Chemical Engineers of SerbiaHemijska Industrija 0367-598X2007-01-01611333810.2298/HEMIND0701033SShrinking core models applied to the sodium silicate production processStanković Mirjana S.Ρezο Lato L.Kovačević BranimirJovanović MićaDebeljković DragutinThe sodium silicate production process, with the molar ratio SiO2/Na2O = 2, for detergent zeolite 4A production, is based on quartz sand dissolving in NaOH aqueous solution, with a specific molality. It is a complex process performed at high temperature and pressure. It is of vital importance to develop adequate mathematical models, which are able to predict the dynamical response of the process parameters. A few kinetic models were developed within this study, which were adjusted and later compared to experimental results. It was assumed that SiO2 particles are smooth spheres, with uniform diameter. This diameter decreases during dissolving. The influence of particle diameter, working temperature and hydroxide ion molality on the dissolution kinetics was investigated. It was concluded that the developed models are sufficiently correct, in the engineering sense, and can be used for the dynamical prediction of process parameters. http://www.doiserbia.nb.rs/img/doi/0367-598X/2007/0367-598X0701033S.pdfsodium silicatemathematical modeldissolutionkineticsquartz sand |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Stanković Mirjana S. Ρezο Lato L. Kovačević Branimir Jovanović Mića Debeljković Dragutin |
| spellingShingle |
Stanković Mirjana S. Ρezο Lato L. Kovačević Branimir Jovanović Mića Debeljković Dragutin Shrinking core models applied to the sodium silicate production process Hemijska Industrija sodium silicate mathematical model dissolution kinetics quartz sand |
| author_facet |
Stanković Mirjana S. Ρezο Lato L. Kovačević Branimir Jovanović Mića Debeljković Dragutin |
| author_sort |
Stanković Mirjana S. |
| title |
Shrinking core models applied to the sodium silicate production process |
| title_short |
Shrinking core models applied to the sodium silicate production process |
| title_full |
Shrinking core models applied to the sodium silicate production process |
| title_fullStr |
Shrinking core models applied to the sodium silicate production process |
| title_full_unstemmed |
Shrinking core models applied to the sodium silicate production process |
| title_sort |
shrinking core models applied to the sodium silicate production process |
| publisher |
Association of Chemical Engineers of Serbia |
| series |
Hemijska Industrija |
| issn |
0367-598X |
| publishDate |
2007-01-01 |
| description |
The sodium silicate production process, with the molar ratio SiO2/Na2O = 2, for detergent zeolite 4A production, is based on quartz sand dissolving in NaOH aqueous solution, with a specific molality. It is a complex process performed at high temperature and pressure. It is of vital importance to develop adequate mathematical models, which are able to predict the dynamical response of the process parameters. A few kinetic models were developed within this study, which were adjusted and later compared to experimental results. It was assumed that SiO2 particles are smooth spheres, with uniform diameter. This diameter decreases during dissolving. The influence of particle diameter, working temperature and hydroxide ion molality on the dissolution kinetics was investigated. It was concluded that the developed models are sufficiently correct, in the engineering sense, and can be used for the dynamical prediction of process parameters. |
| topic |
sodium silicate mathematical model dissolution kinetics quartz sand |
| url |
http://www.doiserbia.nb.rs/img/doi/0367-598X/2007/0367-598X0701033S.pdf |
| work_keys_str_mv |
AT stankovicmirjanas shrinkingcoremodelsappliedtothesodiumsilicateproductionprocess AT rezolatol shrinkingcoremodelsappliedtothesodiumsilicateproductionprocess AT kovacevicbranimir shrinkingcoremodelsappliedtothesodiumsilicateproductionprocess AT jovanovicmica shrinkingcoremodelsappliedtothesodiumsilicateproductionprocess AT debeljkovicdragutin shrinkingcoremodelsappliedtothesodiumsilicateproductionprocess |
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1725724863361974272 |