Microdiffusion-based UV-LED spectrometric setup for determining low levels of ethanol in fruit juice

A novel setup is described in which we combined the separation of a volatile substance from a sample with a complex matrix on the basis of a microdiffusion process with a kinetic on-line spectrometric monitoring of the reaction in the receptive medium at 365 nm. The fruit juice was selected as a model for testing the performance of the setup in real-life applications. The ethanol content in fruit juice can be considered as an indicator of the fruit-juice quality and should not exceed the regulatory limiting values. After optimising the microdiffusion process, blackcurrant, orange and two varieties of apple juice were analysed. The sample analysis lasted 15 min at 35 degrees C. The ethanol concentrations were found to be between 0.9 and 4.0 mmol/L. and were comparable to the results obtained using the SIST:150 2448:1998 standard method, which is time consuming, labour intensive and requires high sample volumes. The setup can easily be adapted for determining other volatile substances in low concentrations in complicated samples of different types by introducing different chemistry and replacing the light source if the light of a different wavelength is required. The measuring characteristics of the setup were critically assessed. the main sources of uncertainty recognised and the possibilities for further improvements of the setup and the procedure considered. (C) 2011 Elsevier B.V. All rights reserved.