Correction of the effect of particle shape on the size distribution measured with a laser diffraction instrument

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Correction of the effect of particle shape on the size distribution measured with a laser diffraction instrument

Journal Article (1996)

Author(s)

Camiel M.G. Heffels (External organisation)

Peter J.T. Verheijen (TU Delft - OLD BT/Cell Systems Engineering)

Daniel Heitzmann (External organisation)

Brian Scarlett (TU Delft - Old - sect Particle Technology (DCT/PART))

Research Group

OLD BT/Cell Systems Engineering

DOI related publication

https://doi.org/10.1002/ppsc.19960130504 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:d85c0f7d-6ff9-4399-9944-a81b47439777

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Publication Year

1996

Language

English

Research Group

OLD BT/Cell Systems Engineering

Journal title

Particle and Particle Systems Characterization

Issue number

5

Volume number

13

Pages (from-to)

271-279

Downloads counter

19

Abstract

This paper gives a theoretical basis for calculating Fraunhofer diffraction patterns of arbitrary polyhedron particles. It is shown that this solution can be used for calculating a scatter matrix adapted to the particle shape in a straightforward manner. Some simulations were made to show the difference between the size distribution by volume obtained with a scatter matrix for spheres and with that for the appropriate shape. Finally, some experimentally measured signatures from platelets and rods are evaluated in order to show that the spherical equivalent diameter could be accurately retrieved.