Dataset corresponding to the figures in the article 'Single-photon emission radioactive particle tracking method for hydrodynamic evaluation of multi-phase flows'.

doi:10.4121/7f91b252-7fd7-40ef-a878-01b850e919d0.v1
The doi 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: 10.4121/7f91b252-7fd7-40ef-a878-01b850e919d0
Datacite citation style:
van der Sande, P. Christian (2024): Dataset corresponding to the figures in the article 'Single-photon emission radioactive particle tracking method for hydrodynamic evaluation of multi-phase flows'. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/7f91b252-7fd7-40ef-a878-01b850e919d0.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite
Dataset

This is a set of Matlab .fig and Origin .opju files corresponding to the figures in the paper 'Single-photon emission radioactive particle tracking method for hydrodynamic evaluation of multi-phase flows' published in Particuology. In this study, a single-photon emission radioactive particle tracking technique is introduced that can be employed to obtain insight into the hydrodynamics of multi-phase flow systems. The data was obtained using the single-photon emission radioactive particle tracking technique. 


history
  • 2024-04-22 first online, published, posted
publisher
4TU.ResearchData
format
Matlab .fig and Origin .opju
funding
  • NWO Grant 741.079.202
  • ENW-PPS
organizations
TU Delft, Faculty of Applied Sciences, Department of Chemical Engineering

DATA

files (27)
  • 2,073 bytesMD5:4738622eafa728c03e3e546d8c769a8aREADME.txt
  • 48,755 bytesMD5:f061a4645dcf416d79c2c72422c4ac1dFig-4.fig
  • 38,123 bytesMD5:2b1f978f2f4db96ee79f753a59b79ba9Fig10-0.125fps.fig
  • 83,922 bytesMD5:656dbffaee2f32ade0ba50cd540e25b3Fig10-0.5fps.fig
  • 226,631 bytesMD5:66b65f7d257696008dd8f697b4f7865bFig10-2fps.fig
  • 260,851 bytesMD5:79eeaf42dd1fb6aaae65896d50144e2cFig10-4fps.fig
  • 51,219 bytesMD5:f98982e1123e1274150772ccc2801b3dFig11-1.fig
  • 49,307 bytesMD5:4da29055bcc0e2a7a437710734113830Fig11-2.fig
  • 75,950 bytesMD5:4d1d64677f15e53f9b9a91c884bcac81Fig12-1.fig
  • 75,398 bytesMD5:d00699b6e7c1408be6ea20a0f5f36dd8Fig12-2.fig
  • 75,407 bytesMD5:c880c13b5ee1898ff7d0e467539d34e5Fig12-3.fig
  • 71,963 bytesMD5:4f32b03710d41d97435cb561edc132b7Fig12-4.fig
  • 71,810 bytesMD5:1c20109082e01a79ae96fb9e1a5fe455Fig12-5.fig
  • 71,749 bytesMD5:95a424a8f44d69b64b8355b83366af5dFig12-6.fig
  • 75,651 bytesMD5:5dc4f0ad1da391512a1221d7562c9933Fig13-1.fig
  • 78,807 bytesMD5:ff66a2d4752b6c5916d72d18dc31d58cFig13-2.fig
  • 69,100 bytesMD5:4a921601adae803f53eda194f8de213cFig14-1.fig
  • 72,147 bytesMD5:a4cecd388edd946c3c754205794213caFig14-2.fig
  • 75,046 bytesMD5:5bb316cd1dc791ad8d138ef64a7be786Fig14-3.fig
  • 72,679 bytesMD5:ca6214f74aa393142bf52c95254f58e9Fig14-4.fig
  • 299,293 bytesMD5:5def77372686fe5a0a120727dcc768d8Fig17-1.fig
  • 87,541 bytesMD5:4a9ba4aa6100adf902fcc2e28c488c0eFig17-2.fig
  • 260,728 bytesMD5:af017ee75d21b5f0dc821eac95c0e464Fig18-1.fig
  • 43,744 bytesMD5:8fb425c20752525639060de43a5f76dcFig18-2.fig
  • 442,194 bytesMD5:b8f0b0a47593bc30695b4a5c9321c3b2Fig19.fig
  • 395,186 bytesMD5:ae9a0d96071bfbbc17e1476783b14ca1Fig8.opju
  • 404,120 bytesMD5:55590ad26a45e4d3434a221478627d86Fig9.opju
  • download all files (zip)
    3,579,394 bytes unzipped