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Comparison of Spectroscopic Techniques for Determining the Peroxide Value of 19 Classes of Naturally Aged, Plant-Based Edible Oils

Journal Article · · Applied Spectroscopy
 [1];  [1];  [1];  [2];  [3];  [2]
  1. Lawrence Livermore National Laboratory, Materials Science Division, Livermore, CA, USA
  2. Department of Chemistry and Biochemistry, University of Delaware, Newark, DE, USA
  3. Oklahoma State University-Stillwater Chemistry, 107 Physical Sciences I, Stillwater, OK, USA
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The peroxide value of edible oils is a measure of the degree of oxidation, which directly relates to the freshness of the oil sample. Several studies previously reported in the literature have paired various spectroscopic techniques with multivariate analyses to rapidly determine peroxide values using field portable and process instrumentation; those efforts presented “best-case scenarios” with oils from narrowly defined training and test sets. The purpose of this paper is to evaluate the use of near- and mid-infrared absorption and Raman scattering spectroscopies on oil samples from different oil classes, including seasonal and vendor variations, to determine which measurement technique or combination thereof is best for predicting peroxide values. Following peroxide value assays of each oil class using an established titration-based method, global and global-subset calibration models were constructed from spectroscopic data collected on the 19 oil classes used in this study. Spectra from each optical technique were used to create partial least squares regression calibration models to predict the peroxide value of unknown oil samples. A global peroxide value model based on near-infrared (8 mm optical path length) oil measurements produced the lowest RMSEP (4.9), followed by 24 mm optical path length near infrared (5.1), Raman (6.9) and 50 µm optical path length mid-infrared (7.3). However, it was determined that the Raman RMSEP resulted from chance correlations. Global peroxide value models based on low-level fusion of the NIR (8 and 24 mm optical path length) data and all infrared data produced the same RMSEP of 5.1. Global subset models, based on any of the spectroscopies and olive oil training sets from any class (pure, extra light, extra virgin), all failed to extrapolate to the non-olive oils. However, the near-infrared global subset model built on extra virgin olive oil could extrapolate to test samples from other olive oil classes. This work demonstrates the difficulty of developing a truly global method for determining peroxide value of oils.

Sponsoring Organization:
USDOE
Grant/Contract Number:
NONE; AC52-07NA27344
OSTI ID:
1775008
Alternate ID(s):
OSTI ID: 1860882
Journal Information:
Applied Spectroscopy, Journal Name: Applied Spectroscopy Journal Issue: 7 Vol. 75; ISSN 0003-7028
Publisher:
SAGE PublicationsCopyright Statement
Country of Publication:
United States
Language:
English

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