Volume 3 Issue 1–2
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Kruis, F. E. (2005). Drag on submicron nanoparticle aggregates. China Particuology, 3(1), 67. https://doi.org/10.1016/S1672-2515(07)60167-5
Drag on submicron nanoparticle aggregates
F. Einar Kruis *
Faculty of Engineering Sciences, University of Duisburg-Essen, Campus Duisburg, Bismarckstraße 81, 47057 Duisburg, Germany
10.1016/S1672-2515(07)60167-5
Volume 3, Issues 1–2, April 2005, Page 67
Available online 14 December 2007.
E-mail: e.kruis@uni-duisburg.de

Highlights
Abstract

A new procedure was developed for estimating the effective collision diameter of an aggregate composed of primary particles of any size. The coagulation coefficient of two oppositely charged particles was measured experimentally and compared with classic Fuchs theory, including a new method to account for particle non-sphericity. A second set of experiments were performed on well-defined nanoparticle aggregates at different stages of sintering, i.e. from the aggregate to the fully sintered stage. Here, electrical mobility was used to characterize the particle drag. The aggregates are being built from two different size-fractionated nanoparticle aerosols, the non-aggregated particles are discarded by an electrofilter and then they are passed through a furnace at concentrations low enough not to induce coagulation.

Graphical abstract
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