• Title of article

    Development and validation of an environmentally friendly attenuated total reflectance in the mid-infrared region method for the determination of ethanol content in used engine lubrication oil

  • Author/Authors

    Hatanaka، نويسنده , , Rafael Rodrigues and Sequinel، نويسنده , , Rodrigo and Gualtieri، نويسنده , , Carlos Eduardo and Tercini، نويسنده , , Antônio Carlos Bergamaschi and Flumignan، نويسنده , , Danilo Luiz and de Oliveira Ferreira، نويسنده , , José Eduardo، نويسنده ,

  • Issue Information
    ماهنامه با شماره پیاپی سال 2013
  • Pages
    6
  • From page
    191
  • To page
    196
  • Abstract
    Lubricating oils are crucial in the operation of automotive engines because they both reduce friction between moving parts and protect against corrosion. However, the performance of lubricant oil may be affected by contaminants, such as gasoline, diesel, ethanol, water and ethylene glycol. Although there are many standard methods and studies related to the quantification of contaminants in lubricant oil, such as gasoline and diesel oil, to the best of our knowledge, no methods have been reported for the quantification of ethanol in used Otto cycle engine lubrication oils. Therefore, this work aimed at the development and validation of a routine method based on partial least-squares multivariate analysis combined with attenuated total reflectance in the mid-infrared region to quantify ethanol content in used lubrication oil. The method was validated based on its figures of merit (using the net analyte signal) as follows: limit of detection (0.049%), limit of quantification (0.16%), accuracy (root mean square error of prediction=0.089% w/w), repeatability (0.05% w/w), fit (R2=0.9997), mean selectivity (0.047), sensitivity (0.011), inverse analytical sensitivity (0.016% w/w−1) and signal-to-noise ratio (max: 812.4 and min: 200.9). The results show that the proposed method can be routinely implemented for the quality control of lubricant oils.
  • Keywords
    Lubrication oil , Validation , infrared spectroscopy , Ethanol content
  • Journal title
    Talanta
  • Serial Year
    2013
  • Journal title
    Talanta
  • Record number

    1667570