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Related Experiment Video

Updated: Jun 15, 2026

Measurement of Particle Size Distribution in Turbid Solutions by Dynamic Light Scattering Microscopy
09:16

Measurement of Particle Size Distribution in Turbid Solutions by Dynamic Light Scattering Microscopy

Published on: January 9, 2017

Optical particle sizing for in situ measurements Part 1.

D Holve, S A Self

    Applied Optics
    |March 10, 2010
    PubMed
    Summary

    This study introduces a novel particle sizing counter for in situ measurements in two-phase flows. The advanced technique accurately determines particle size distributions in high-temperature environments.

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    Same author

    Method for spectroradiometric temperature measurements in two phase flows. 1: Theory.

    Applied optics·2010
    Same author

    Method for spectroradiometric temperature measurements in two phase flows. 2: Experimental verification.

    Applied optics·2010
    Same author

    Two-wavelength laser transmissometer for measurements of the mean size and concentration of coal ash droplets in combustion flows.

    Applied optics·2010
    Same author

    Optical particle sizing for in situ measurements Part 2.

    Applied optics·2010
    Same author

    Focusing of spherical Gaussian beams.

    Applied optics·1983

    Area of Science:

    • Fluid dynamics and particle analysis
    • Optical measurement techniques
    • Combustion diagnostics

    Background:

    • Accurate in situ particle sizing is crucial for understanding two-phase flows.
    • Existing methods often lack the capability for real-time, high-temperature measurements.
    • Challenges include particle trajectory dependence and signal interpretation.

    Purpose of the Study:

    • To develop and validate a particle sizing counter for in situ measurements in two-phase flows.
    • To enable accurate particle size distribution determination under harsh conditions.
    • To address limitations of existing particle sizing techniques.

    Main Methods:

    • Utilizes near forward-scatter from a He-Ne laser beam and pulse-height analysis.
    • Employs a novel numerical inversion scheme to correct for particle trajectory.
    • Features a 50 cm working distance for optical elements and on-line computer processing.
    • Calibrated using monodisperse aerosols of known size.

    Main Results:

    • Demonstrated capability for size distributions from 1-30 micrometers at concentrations up to 10^5 cm^-3.
    • Successfully measured particle sizes in flows up to 1600 K.
    • Results show good agreement with Mie scattering theory predictions.

    Conclusions:

    • The developed particle sizing counter provides accurate in situ measurements in challenging environments.
    • The technique is adaptable for absorbing and irregular particles.
    • Anticipated extensions include a wider size range (0.5-50 micrometers) and higher concentrations (10^6 cm^-3).

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