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Edible oils are essential for our diet. Various parameters are used to assess oil quality including the determination of iodine value, free fatty acids (FFA), refractive index, and fatty acid composition. Fatty acid composition analysis provides a detailed view regarding the concentration of different fatty acids present in the oil. The content of essential linoleic acid (C18:2) and alpha-linolenic acid (C18:3) are especially interesting for edible oil producers.

Traditional analysis techniques like titration or gas chromatography can be time consuming and often require the use of hazardous solvents which can pose health risks and increase analysis costs. In contrast to these standard methods, each of the mentioned edible oil quality parameters can be analyzed simultaneously, without sample preparation, and in a few seconds via near-infrared spectroscopy (NIRS) with the OMNIS NIRS Analyzer.

OMNIS NIR Analyzer and a sample filled in a disposable  vial.
Figure 1. OMNIS NIR Analyzer and a sample filled in a disposable vial.

More than 1000 samples of several types of edible oils (including sunflower-, rapeseed-, sesame-, and soybean oil) were measured on the OMNIS NIR Analyzer Liquid in transmission mode (1000–2250 nm) using 8 mm disposable vials. The temperature control of the NIRS analyzer was set to 40 °C to ensure consistent measurement performance. The OMNIS software was used for all data acquisition and prediction model development.

Table 1. Hardware and software equipment overview.
Equipment Article number
OMNIS NIR Analyzer Liquid 2.1070.0010
Holder OMNIS NIR, vial, 8 mm 6.07401.070
Disposable vial, 8 mm, transmission 6.7402.240
OMNIS Stand-Alone license 6.06003.010
Quant Development software license 6.06008.002

The obtained NIR spectra (Figure 2) were used to create prediction models to quantify all eight oil quality parameters: iodine value (IV), FFA, refractive index, palmitic acid (C16:0), stearic acid (C18:0), oleic acid (C18:1), linoleic acid (C18:2), and alpha-linolenic acid (C18:3). The quality of the prediction models was evaluated using correlation diagrams which display a high correlation (R2 > 0.94) between the NIR prediction and the standard reference methods for all parameters. Out of the total, 25% of the samples were selected as the validation set and the other 75% as a calibration set. The respective figures of merit (FOM) display the expected precision and confirm the feasibility during routine analysis (Figures 3–10).

Figure 2. Overlaid NIR spectra of edible oil samples which were analyzed on an OMNIS NIR Analyzer Liquid at 40 °C with 8 mm vials.
Figure 3. Correlation diagram and the respective figures of merit for the prediction of iodine value (also known as iodine number) in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using gas chromatography.
Parameter SEC (mg/100g) SECV (mg/100g) SEP (mg/100g) R²CV
IV 0.47 0.48 0.50 0.999
Figure 4. Correlation diagram and the respective figures of merit for the prediction of FFA in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using a titration method.
Parameter SEC (%) SECV (%) SEP (%) R²CV
FFA 0.12 0.12 0.13 0.946
Figure 5. Correlation diagram and the respective figures of merit for the prediction of refractive index (RI) in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using a refractometer.
Parameter SEC (%) SECV (%) SEP (%) R²CV
RI 0.00011 0.00012 0.00012 0.998
Figure 6. Correlation diagram and the respective figures of merit for the prediction of relative C16:0 fatty acid (palmitic acid) content in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using gas chromatography.
Parameter SEC (%) SECV (%) SEP (%) R²CV
C16:0 0.26 0.27 0.31 0.958
Figure 7. Correlation diagram and the respective figures of merit for the prediction of C18:0 fatty acid (stearic acid) content in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using gas chromatography.
Parameter SEC (%) SECV (%) SEP (%) R²CV
C18:0 0.26 0.27 0.25 0.936
Figure 8. Correlation diagram and the respective figures of merit for the prediction of relative C18:1 fatty acid (oleic acid) content in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using gas chromatography.
Parameter SEC (%) SECV (%) SEP (%) R²CV
C18:1 0.64 0.67 0.71 0.999
Figure 9. Correlation diagram and the respective figures of merit for the prediction of relative C18:2 fatty acid (linoleic acid) content in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using gas chromatography.
Parameter SEC (%) SECV (%) SEP (%) R²CV
C18:2 0.63 0.77 0.84 0.999
Figure 10. Correlation diagram and the respective figures of merit for the prediction of relative C18:3 fatty acid (alpha-linolenic acid) content in edible oils using an OMNIS NIR Analyzer Liquid. The reference values were evaluated using gas chromatography.
Parameter SEC (%) SECV (%) SEP (%) R²CV
C18:3 0.32 0.36 0.36 0.989

This Application Note displays the benefits of using the OMNIS NIR Analyzer Liquid for routine analysis of several QC parameters in the laboratories of edible oil manufacturers. All quality parameters can be measured simultaneously in only a few seconds. Compared to other conventional methods, measurements performed with NIR spectroscopy do not need any sample preparation or solvents. This ultimately leads to a reduction in workload (Table 2) and related costs, as well as keeping lab personnel safer.

Table 2. Time to result overview for the measurement of iodine value, FFA content, refractive index, and fatty acid composition in edible oils by standard analytical methods.

Parameter Method Time to result
Iodine value Gas chromatography ∼30 sample preparation (Methyl esterification + sample preparation) + ∼20 GC
FFA content Titration ∼10 minutes per sample
Refractive index Refractometer ∼2 minutes per sample
Fatty acid composition Gas chromatography ∼30 minutes per sample
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Internal reference: AW NIR CH-0074-042023