Data underlying the publication: Effect of vibrational modes on fluidization characteristics and solid distribution of cohesive micro-and nano-silica powders

DOI:10.4121/8a12476f-e1f0-4d31-8d58-ea8e6687dc28.v1

The DOI displayed above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
DOI: 10.4121/8a12476f-e1f0-4d31-8d58-ea8e6687dc28

Datacite citation style

Kamphorst, Rens; Wu, Kaiqiao; Meesters, Gabrie; van Ommen, J.Ruud (2024): Data underlying the publication: Effect of vibrational modes on fluidization characteristics and solid distribution of cohesive micro-and nano-silica powders. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/8a12476f-e1f0-4d31-8d58-ea8e6687dc28.v1

Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite

Dataset

Usage statistics

views

284

downloads

Keywords

Bed extension Compaction Density ratio Pressure drop PSD

Licence

CC BY 4.0

Export as...

RefWorks BibTeX Reference Manager Endnote DataCite NLM DC CFF

by Rens Kamphorst

, Kaiqiao Wu

, Gabrie Meesters, J.Ruud van Ommen

In our manuscript, we assessed the effectiveness of vertical and elliptical vibration on the fluidization quality of cohesive micro- and nanoparticles.
Experiments were performed, using various vibrational modes, gas velocities and initial bed heights.
Contains (raw) data of corresponding to DOI: 10.1016/j.ces.2024.119911:
Fractional pressure drop data
Density ratios
Compaction
Particle size distributions

History

2024-09-11 first online, published, posted

Publisher

4TU.ResearchData

Format

spreadsheet/.xlsx

Associated peer-reviewed publication

Effect of vibrational modes on fluidization characteristics and solid distribution of cohesive micro-and nano-silica powders

Funding

This work is part of the Advanced Research Center for Chemical Building Blocks, ARC-CBBC, which is co-funded and co-financed by the Netherlands Organization for Scientific Research (NWO) and the Netherlands Ministry of Economic Affairs and Climate Policy.

Organizations

TU Delft, Faculty of Applied Sciences, Department of chemical engineering

DATA

Files (18)

1,448 bytesMD5:b01d3eb4403e574b5e2920c6a26d4e00ReadMe.txt
17,041 bytesMD5:5f8a67ab841bbd07f8f779ae8814ddf0Coefficients_of_Variation.xlsx
9,517 bytesMD5:2af064232ac23fa139b4320da08eedd6Compaction.xlsx
17,213 bytesMD5:9f46e6a5ae274bdd2d378a39d568dabcMicro_Elliptical_HighBedHeight.xlsx
16,718 bytesMD5:2399c1e8589223c85b5d466b09a0f387Micro_Elliptical_LowBedHeight.xlsx
15,673 bytesMD5:f30f2c8265ed213f72469255c47cf1b2Micro_HighIntensity_HighBedHeight.xlsx
15,803 bytesMD5:8be8e3c463b42a484475579aaf5fe0f8Micro_HighIntensity_LowBedHeight.xlsx
15,885 bytesMD5:bd279f87a93202d3f4ad45da434e8e0fMicro_LowIntensity_HighBedHeight.xlsx
15,931 bytesMD5:c5f585933b48db1a54370f4b32e6a42aMicro_LowIntensity_LowBedHeight.xlsx
9,400 bytesMD5:df6be84ff7eaacae4a3ba5d7daa02b66Micro_SiO2.xlsx
16,616 bytesMD5:b674589137985a33a310978e2f9b4f28Nano_Elliptical_HighBedHeight.xlsx
16,686 bytesMD5:4f50304f8d840acc756fdb4da5bf5ef6Nano_Elliptical_LowBedHeight.xlsx
16,014 bytesMD5:d56b47f2d6d2c9b6a76e73a09bb97c4bNano_HighIntensity_HighBedHeight.xlsx
15,715 bytesMD5:d59255c70db4a81bee46a4cb72a7106eNano_HighIntensity_LowBedHeight.xlsx
16,306 bytesMD5:70f31b29a226c23083f9dea94079984dNano_LowIntensity_HighBedHeight.xlsx
15,715 bytesMD5:66277263fcfe99ecdbbfb9d69092fda4Nano_LowIntensity_LowBedHeight.xlsx
8,822 bytesMD5:43a17e46da27616634abb2475136edd4Nano_SiO2.xlsx
11,525 bytesMD5:8fe16fd3d48b62b0cd2ce71a70b5f8ebUnassisted_dP_dH.xlsx
download all files (zip)
252,028 bytes unzipped