The traditional procedure followed by winemakers for monitoring grape must fermentation is not automated, has not enough accuracy or has only been tested in discrete must samples. In order to contribute to the automation and improvement of the wine fermentation process, we have designed an AlN-based piezoelectric microresonator, serving as a density sensor and being excited in the 4th-order roof tile-shaped vibration mode. Furthermore, conditioning circuits were designed to convert the one-port impedance of the resonator into a resonant two-port transfer function. This allowed us to design a Phase Locked Loop-based oscillator circuit, implemented with a commercial lock-in amplifier with an oscillation frequency determined by the vibrating mode. We were capable of measuring the fermentation kinetics by both tracking the resonance frequency and by determining the quality factor measurements of the microresonator. Moreover, the resonator was calibrated with an artificial model solution of grape must and then applied for the monitoring of real grape must fermentation. Our results demonstrate the high potential of MEMS resonators to detect the decrease in sugar and the increase in ethanol concentrations during the grape must fermentation with a resolution of 100 μg/ml and a sensitivity of 0.16 Hz/μg/ml as upper limits.
CITATION STYLE
Toledo, J., Jiménez-Márquez, F., Úbeda, J., Ruiz-Díez, V., Pfusterschmied, G., Schmid, U., & Sánchez-Rojas, J. L. (2016). Piezoelectric MEMS resonators for monitoring grape must fermentation. In Journal of Physics: Conference Series (Vol. 757). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/757/1/012020
Mendeley helps you to discover research relevant for your work.