Applied Sciences (Dec 2022)

Laser Scatterometric Device for Inline Measurement of Fat Percentage and the Concentration Level of Large-Scale Impurities in Milk

  • Alexey V. Shkirin,
  • Maxim E. Astashev,
  • Dmitry N. Ignatenko,
  • Nikolai V. Suyazov,
  • Maria V. Vedunova,
  • Sergey V. Gudkov

DOI
https://doi.org/10.3390/app122412517
Journal volume & issue
Vol. 12, no. 24
p. 12517

Abstract

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A compact laser scatterometric device for determining the fat percentage of milk filling a cylindrical tube has been designed. The device operates by detecting the angular distribution of the scattered radiation of a semiconductor laser using an axial array of photodiodes. We have experimentally found that the light-scattering indicatrix in cow milk has a monotonous dependence on milk fat content. The intensity at side- or forward-scattering angles normalized to the backscattering intensity proves to be a reliable, informative parameter. A polynomial approximation for the calibration curve of fat percentage versus normalized scattering intensity is constructed to enable fat content measurements in the fairly wide range of ~0.01–10%. Furthermore, the intensity at forward scattering angles responds to the presence of large-scale particles in milk. The device was tested in a laminar flow regime at milk flow rates up to 100 mL/s.

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