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Hill-Izani et al. (2019) Poster presentation at The 9th International Conference on Conveying and Handling of Particulate Solids (CHoPS), Sept 11-14, Greenwich, UK.pdf (801.76 kB)
DOCUMENT
NikHill-Izani-CHoPS2018.docx (159.91 kB)
DATASET
Mass Flow-RMS-Velocity Analysis Spreadsheet.xlsx (655.08 kB)
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Exp FT4 Data Analysis.xlsx (820.23 kB)
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Exp 1 11July2016 Lactose 316 Fast Flo 100rpm Mass Flow-RMS Analysis.xlsx (3.45 MB)
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Exp 1 11July2016 Lactose 316 Fast Flo 100rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 2 11July2016 Lactose 316 Fast Flo 120rpm Mass Flow-RMS Analysis.xlsx (3.44 MB)
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Exp 2 11July2016 Lactose 316 Fast Flo 120rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 3 11July2016 Lactose 316 Fast Flo 140rpm Mass Flow-RMS Analysis.xlsx (3.43 MB)
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Exp 3 11July2016 Lactose 316 Fast Flo 140rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 4 11July2016 Lactose 316 Fast Flo 160rpm Mass Flow-RMS Analysis.xlsx (3.42 MB)
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Exp 4 11July2016 Lactose 316 Fast Flo 160rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 5 12July2016 Avicel PH101 100rpm Mass Flow-RMS Analysis.xlsx (3.5 MB)
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Exp 5 12July2016 Avicel PH101 100rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 5 Avicel PH101 100rpm Filtered 50Hz+ Weight vs Recalculated RMS.xlsx (4.24 MB)
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Exp 6 12July2016 Avicel PH101 120rpm Mass Flow-RMS Analysis.xlsx (3.5 MB)
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Exp 6 12July2016 Avicel PH101 120rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 7 12July2016 Avicel PH101 140rpm Mass Flow-RMS Analysis.xlsx (3.48 MB)
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Exp 7 12July2016 Avicel PH101 140rpm Velocity Analysis.xlsx (6.09 MB)
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Exp 8 12July2016 Avicel PH101 160rpm Mass Flow-RMS Analysis.xlsx (3.47 MB)
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Feasibility study on the in-line measurement of pharmaceutical powder................................. Poster presentation at CHoPS UK, Sept 11-14, 2018, Greenwich, UK

poster
posted on 2020-03-05, 11:50 authored by Nik Hill-IzaniNik Hill-Izani
To assess the powder flow characteristics developed under the conditions of flow using an electrostatic sensor. Parameters assessed include: the powder mass flow rate w.r.t. the root-mean-square RMS of the electrostatic signal; the relative electrostatic charge obtained by normalising the RMS signal against the powder mass flow rate; and the powder velocity obtained via cross-correlation.

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