Filterability prediction of needle-like crystals based on particle size and shape distribution data

Giulio Perini; Fabio Salvatori; David R. Ochsenbein; Marco Mazzotti; Thomas Vetter

doi:10.1016/j.seppur.2018.10.042

Filterability prediction of needle-like crystals based on particle size and shape distribution data

Giulio Perini, Fabio Salvatori, David R. Ochsenbein, Marco Mazzotti, Thomas Vetter

Research output: Contribution to journal › Article › peer-review

Abstract

The isolation and further treatment of particles generated in a crystallization process is dependent on their size and shape. The work presented here analyses the filtration performance of needle-like particles, which often exhibit long filtration times or high retention of mother liquor. The size and shape of populations of β l-Glutamic Acid and γ D-Mannitol particles are measured using an automated image analysis approach (as well as a standard light scattering method), and their associated cake resistance is determined in pressure filtration experiments. Using a partial least squares regression analysis we develop a model of the process and show that relative cake resistances can be predicted if the particle size distribution is accurately known. Furthermore, we show that the statistical model calibrated on a single compound (either of those used for this
study), can be exploited to predict the relative cake resistances of another compound.

Original language	English
Pages (from-to)	768
Number of pages	781
Journal	Separation and Purification Technology
Volume	211
DOIs	https://doi.org/10.1016/j.seppur.2018.10.042
Publication status	Published - 19 Oct 2018

Keywords

Filtration
Needle-like crystals
Particle Size and Shape

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title = "Filterability prediction of needle-like crystals based on particle size and shape distribution data",

abstract = "The isolation and further treatment of particles generated in a crystallization process is dependent on their size and shape. The work presented here analyses the filtration performance of needle-like particles, which often exhibit long filtration times or high retention of mother liquor. The size and shape of populations of β l-Glutamic Acid and γ D-Mannitol particles are measured using an automated image analysis approach (as well as a standard light scattering method), and their associated cake resistance is determined in pressure filtration experiments. Using a partial least squares regression analysis we develop a model of the process and show that relative cake resistances can be predicted if the particle size distribution is accurately known. Furthermore, we show that the statistical model calibrated on a single compound (either of those used for thisstudy), can be exploited to predict the relative cake resistances of another compound.",

keywords = "Filtration, Needle-like crystals, Particle Size and Shape",

author = "Giulio Perini and Fabio Salvatori and Ochsenbein, {David R.} and Marco Mazzotti and Thomas Vetter",

year = "2018",

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doi = "10.1016/j.seppur.2018.10.042",

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journal = "Separation and Purification Technology",

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T1 - Filterability prediction of needle-like crystals based on particle size and shape distribution data

AU - Perini, Giulio

AU - Salvatori, Fabio

AU - Ochsenbein, David R.

AU - Mazzotti, Marco

AU - Vetter, Thomas

PY - 2018/10/19

Y1 - 2018/10/19

N2 - The isolation and further treatment of particles generated in a crystallization process is dependent on their size and shape. The work presented here analyses the filtration performance of needle-like particles, which often exhibit long filtration times or high retention of mother liquor. The size and shape of populations of β l-Glutamic Acid and γ D-Mannitol particles are measured using an automated image analysis approach (as well as a standard light scattering method), and their associated cake resistance is determined in pressure filtration experiments. Using a partial least squares regression analysis we develop a model of the process and show that relative cake resistances can be predicted if the particle size distribution is accurately known. Furthermore, we show that the statistical model calibrated on a single compound (either of those used for thisstudy), can be exploited to predict the relative cake resistances of another compound.

AB - The isolation and further treatment of particles generated in a crystallization process is dependent on their size and shape. The work presented here analyses the filtration performance of needle-like particles, which often exhibit long filtration times or high retention of mother liquor. The size and shape of populations of β l-Glutamic Acid and γ D-Mannitol particles are measured using an automated image analysis approach (as well as a standard light scattering method), and their associated cake resistance is determined in pressure filtration experiments. Using a partial least squares regression analysis we develop a model of the process and show that relative cake resistances can be predicted if the particle size distribution is accurately known. Furthermore, we show that the statistical model calibrated on a single compound (either of those used for thisstudy), can be exploited to predict the relative cake resistances of another compound.

KW - Filtration

KW - Needle-like crystals

KW - Particle Size and Shape

U2 - 10.1016/j.seppur.2018.10.042

DO - 10.1016/j.seppur.2018.10.042

M3 - Article

SN - 1383-5866

VL - 211

SP - 768

JO - Separation and Purification Technology

JF - Separation and Purification Technology

ER -

Filterability prediction of needle-like crystals based on particle size and shape distribution data

Abstract

Keywords

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