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Volume 11 Issue 2
Povey, M. J. W. (2013). Ultrasound particle sizing: A review. Particuology, 11(2), 135–147. https://doi.org/10.1016/j.partic.2012.05.010
Ultrasound particle sizing: A review
Malcolm J.W. Povey *
School of Food Science and Nutrition, The University of Leeds, Leeds LS2 9JT, UK
10.1016/j.partic.2012.05.010
Volume 11, Issue 2,
April 2013,
Pages 135-147
Received 7 May 2012, Accepted 16 May 2012, Available online 26 November 2012.
E-mail:
m.j.w.povey@food.leeds.ac.uk
Highlights
► Ultrasound techniques have benefits with respect to other particle sizing techniques.
► ECAH approach is used in a number of commercial instruments.
► Available ultrasound sizing instrumentation and likely future development are introduced.
► There are a number of important application areas for ultrasound spectroscopy.
Abstract
Ultrasound spectrometry is one of very few methods that can size particles over the range 10 nm to 1 mm for optically opaque, undiluted materials. It has in-line, non-invasive capabilities which make it a serious contender for use in industrial process monitoring, with the potential for 100% inspection. In aqueous systems, it is more sensitive to nanoparticles than to particles in the micrometre range upwards because the scattering power varies as the inverse square of particle diameter, making it suitable for the detection of nanoparticles in concentrated, mixed systems. Future development of ultrasound spectrometers suitable for widespread laboratory and industrial use depends on meeting the challenges of complex data interpretation and the need for considerable know how. In this review we provide a brief account of ultrasound propagation and scattering theory which underlies the ultrasound spectrometer, describe several types of spectrometer and demonstrate its successful use in the characterization of colloidal silica, whole milk and protein solutions.
Graphical abstract
Keywords
Ultrasound; Particle size; Measurement instrumentation; Review; Acoustics; Particle size distribution (PSD); Nanoparticles; Colloids; Ultrasound spectrometry
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