Fluidization dynamics of hydrophobic nanosilica with velocity step changes
Nanosilica is widely used in various applications, with its market expected to grow over USD 5 billion by 2025. The fluidized bed technology, owing to its intimate contact and efficient mixing of phases, is ideally suited for the large scale processing of powders. However, the bulk processing and di...
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my.iium.irep.849092020-11-26T07:48:52Z http://irep.iium.edu.my/84909/ Fluidization dynamics of hydrophobic nanosilica with velocity step changes Al-Ghurabi, Ebrahim H. Asif, Mohammad Siva Kumar, Nadavala Khan, Sher Afghan TP Chemical technology TP250 Industrial electrochemistry Nanosilica is widely used in various applications, with its market expected to grow over USD 5 billion by 2025. The fluidized bed technology, owing to its intimate contact and efficient mixing of phases, is ideally suited for the large scale processing of powders. However, the bulk processing and dispersion of ultrafine nanosilica using the fluidized bed technology are critically affected by the interparticle forces, such that the hydrophilic nanosilica shows agglomerate bubbling fluidization (ABF), while the hydrophobic nanosilica undergoes agglomerate particulate fluidization (APF). This study carried out a detailed investigation into the fluidization hydrodynamic of the hydrophobic nanosilica by monitoring the region-wise dynamics of the fluidized bed subjected to a regular step change of fixed duration in the gas velocity. The gas flow was controlled using a mass controller operated with an analog output signal from a data acquisition system. The analog input data were acquired at the sampling rate of 100 Hz and analyzed in both time and temporal frequency domains. The effect of velocity transients on the bed dynamics was quickly mitigated and appeared as lower frequency events, especially in regions away from the distributor. Despite the apparent particulate nature of the fluidization, strong hysteresis was observed in both pressure drop and bed expansion. Moreover, the fully fluidized bed’s pressure drop was less than 75% of the theoretical value even though the bed appeared to free from non-homogeneities. Key fluidization parameters, e.g., minimum fluidization velocity (Umf) and the agglomerate size, were evaluated, which can be readily used in the large scale processing of nanosilica powders using fluidized bed technology. MDPI 2020-11-17 Article PeerReviewed application/pdf en http://irep.iium.edu.my/84909/7/84909%20Fluidization%20Dynamics%20of%20Hydrophobic.pdf application/pdf en http://irep.iium.edu.my/84909/8/84909%20Fluidization%20Dynamics%20of%20Hydrophobic%20SCOPUS.pdf Al-Ghurabi, Ebrahim H. and Asif, Mohammad and Siva Kumar, Nadavala and Khan, Sher Afghan (2020) Fluidization dynamics of hydrophobic nanosilica with velocity step changes. Applied Sciences, 10 (22). pp. 1-12. ISSN 2076-3417 https://www.mdpi.com/2076-3417/10/22/8127 |
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TP Chemical technology TP250 Industrial electrochemistry Al-Ghurabi, Ebrahim H. Asif, Mohammad Siva Kumar, Nadavala Khan, Sher Afghan Fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| description |
Nanosilica is widely used in various applications, with its market expected to grow over USD 5 billion by 2025. The fluidized bed technology, owing to its intimate contact and efficient mixing of phases, is ideally suited for the large scale processing of powders. However, the bulk processing and dispersion of ultrafine nanosilica using the fluidized bed technology are critically affected by the interparticle forces, such that the hydrophilic nanosilica shows agglomerate
bubbling fluidization (ABF), while the hydrophobic nanosilica undergoes agglomerate particulate fluidization (APF). This study carried out a detailed investigation into the fluidization hydrodynamic of the hydrophobic nanosilica by monitoring the region-wise dynamics of the fluidized bed subjected
to a regular step change of fixed duration in the gas velocity. The gas flow was controlled using a mass controller operated with an analog output signal from a data acquisition system. The analog input data were acquired at the sampling rate of 100 Hz and analyzed in both time and
temporal frequency domains. The effect of velocity transients on the bed dynamics was quickly mitigated and appeared as lower frequency events, especially in regions away from the distributor. Despite the apparent particulate nature of the fluidization, strong hysteresis was observed in both pressure drop and bed expansion. Moreover, the fully fluidized bed’s pressure drop was less than 75% of the theoretical value even though the bed appeared to free from non-homogeneities. Key fluidization parameters, e.g., minimum fluidization velocity (Umf) and the agglomerate size, were evaluated, which can be readily used in the large scale processing of nanosilica powders using fluidized bed technology. |
| format |
Article |
| author |
Al-Ghurabi, Ebrahim H. Asif, Mohammad Siva Kumar, Nadavala Khan, Sher Afghan |
| author_facet |
Al-Ghurabi, Ebrahim H. Asif, Mohammad Siva Kumar, Nadavala Khan, Sher Afghan |
| author_sort |
Al-Ghurabi, Ebrahim H. |
| title |
Fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| title_short |
Fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| title_full |
Fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| title_fullStr |
Fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| title_full_unstemmed |
Fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| title_sort |
fluidization dynamics of hydrophobic nanosilica with velocity step changes |
| publisher |
MDPI |
| publishDate |
2020 |
| url |
http://irep.iium.edu.my/84909/7/84909%20Fluidization%20Dynamics%20of%20Hydrophobic.pdf http://irep.iium.edu.my/84909/8/84909%20Fluidization%20Dynamics%20of%20Hydrophobic%20SCOPUS.pdf http://irep.iium.edu.my/84909/ https://www.mdpi.com/2076-3417/10/22/8127 |
| _version_ |
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