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Microsystem Technologies

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01-04-2014 | Technical Paper

High-resolution low-cost optoelectronic instrument for supervising grape must fermentation

Authors: F. Jiménez-Márquez, J. Vázquez, J. Úbeda, J. L. Sánchez-Rojas

Published in: Microsystem Technologies | Issue 4-5/2014

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Abstract

In a globalized world, the quality–cost ratio for wine is a key factor for winemakers in order to be competitive. Therefore, the fermentation process of grape must should ideally be continuously supervised to achieve a wine that meets the expected quality standards, avoiding undesirable states which may contribute to raise the cost. However, the traditional procedure followed by winemakers to monitor the fermentation process is not automated as winemaking is monitored manually by enologists, who must extract and analyze fermenting must samples at least twice a day from each fermentation tank during the whole fermentation process. An optoelectronic device has been developed in order to contribute to the automation of the wine fermentation process. It is capable of measuring both the fermentation kinetics and the maceration of wine during the whole fermentation by means of refractometric techniques and absorbance measurements in the visible spectrum, respectively. Moreover, as the refractive index is not measured by enologists during the fermentation (they rely on density measurements instead), it has been validated as an indicator for monitoring the fermentation kinetics according to both predictions derived from analytical calculations and from experimental data obtained in several fermentations with the optoelectronic device and other analytical techniques. The system consists of a laser diode and a PSD (position sensitive detector) for refractive index measurements, LEDs and photodiodes for color measurements, and a temperature sensor useful to reference the data to 20 °C. It also comprises a frame holder, some conditioning circuits and a data acquisition board.

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Boulton RB, Singleton VL, Bisson LF, Kunkee RE (1996) Principles and practices of winemaking. Chapman and Hall, New YorkCrossRef

Cao y Paz AM, Acevedo JM, Doval J, del Río A, Martínez-Peñalver C, Soria ML (2007) Plastic optical fiber sensor for real time density measurements in wine fermentation. In: Proceedings of instrumentation and measurement technology conference––IMTC, pp 1–5

Crespo R, Cárcel LM, Pérez MA, Nevares I, del Álamo M (2010) Suitable at-line turbidity sensor for wine fermentation supervision. In: Proceedings of international conference on food innovation, pp 1–4

Dasgupta PK, Eom I-Y, Morris KJ, Li J (2003) Light emitting diode-based detectors absorbance, fluorescence and spectroelectrochemical measurements in a planar flow-through cell. Anal Chim Acta 500:337–364CrossRef

De la Torre C, Muñiz R, Pérez MA (2009) A new, low-cost, on-line RGB colorimeter for wine industry based on optical fibers. In: Proceedings of XIX IMEKO world congress fundamental and applied metrology, pp 2554–2558

Docchio F, Corini S, Perini M, Kasana RS (1995) A simple and reliable system for measuring the refractive index of liquids using a position-sensitive detector. IEEE Trans Instrum Meas 44(1):68–70CrossRef

El Haloui N, Picque D, Corrieu G (1988) Alcoholic fermentation in winemaking: on-line measurement of density and carbon dioxide evolution. J Food Eng 8:17–30CrossRef

Flood AE, Puagsa S (2000) Refractive index, viscosity, and solubility at 30 °C, and density at 25 °C for the system fructose + glucose + ethanol + water. J Chem Eng Data 45:902–907CrossRef

Flood AE, Addai-Mensah J, Johns MR, White ET (1996) Refractive index, viscosity, density, and solubility in the system fructose + ethanol + water at 30, 40, and 50 °C. J Chem Eng Data 41:418–421CrossRef

Graeme JG (1996) Photodiode amplifiers: op amp solutions. McGraw-Hill Professional, New York

Hidalgo J (2011) Tratado de Enología, vol Tomo 1. Mundi-Prensa, Madrid

Jackson RS (2008) Wine science, principles and applications. Acedemic Press, London

Jiménez Riobóo RJ, Philipp M, Ramos MA, Krüger JK (2009) Concentration and temperature dependence of the refractive index of ethanol–water mixtures: influence of intermolecular interactions. Eur Phys J E 30:19–26CrossRef

Jiménez F, Vázquez J, Sánchez-Rojas JL, Barrajón N, Úbeda J (2011) Multi-purpose optoelectronic instrument for monitoring the alcoholic fermentation of wine. Proc IEEE Sens 390–393

Jiménez-Márquez F, Vázquez J, Úbeda J, Sánchez-Rojas JL (2013) Low-cost and portable refractive optoelectronic device for measuring wine fermentation kinetics. Sens Actuators B-Chem 178:316–323CrossRef

Koukolitschek K (1993) Verfahren und vorrichtung zur präzisen bestimmung der alkoholkonzentration in flüssigkeiten. German patent DE 41 38 419 A1

Lamberti N, Ardia L, Albanese D, Di Matteo M (2009) An ultrasound technique for monitoring the alcoholic wine fermentation. Ultrasonics 49:94–97CrossRef

Lide DR (2005) CRC Handbook of chemistry and physics, CRC press, Florida. Internet version 2005 http://www.hbcpnetbase.com

Malardé D, Wu ZY, Grosso P, de Bougrenet JL, Le Menn M (2009) High-resolution and compact refractometer for salinity measurements. Meas Sci Technol 20:015204CrossRef

Mutanen J, Räty J, Gornov E, Lehtonen P, Peiponen KE, Jaaskelainen T (2007) Measurement of color, refractive index, and turbidity of red wines. Am J Enol Vitic 58(3):387–392

Negueruela AI, Echávarri JF, Ayala F, Lomas AM (1995) Colorimetría en vinos. ZUBÍA Monográfico 7:151–166

Nemoto S (1992) Measurement of the refractive index of liquid using laser beam displacement. Appl Optics 31(31):6690–6694CrossRef

Nerantzis ET, Tartaridis P, Sianoudis IA, Ziani X, Tegou E (2007) Winemaking process engineering: οn line fermentation monitoring––sensors and equipment. J Sci Technol 2:29–36

Niskanen I, Mutanen J, Lehtonen P, Räty J, Yamaguchi M, Peiponen K-E, Jaaskelainen T (2008) Multifunction spectrometer for optical inspection of red wine. Sens Instrument Food Qual 2:58–65CrossRef

Nita I, Geacai S, Iulian O (2011) Measurements and correlations of physico–chemical properties to composition of pseudo–binary mixtures with biodiesel. Renew Energ 36:3417–3423CrossRef

Noiseux I, Long W, Cournoyer A, Vernon M (2004) Simple fiber-optic-based sensors for process monitoring: an application in wine quality control monitoring. Soc Appl Spectrosc 58(8):1010–1019CrossRef

OIV (2011) Compendium of international methods of wine and must analysis. International Organisation of Vine and Wine, Paris

Pérez MA, Muñiz R, de la Torre C, García B, Carleos CE, CrespoR, Cárcel LM (2009) Impedance spectrometry for monitoring alcoholic fermentation kinetics under wine-making industrial conditions. In: Proceedings of XIX IMEKO world congress fundamental and applied metrology, pp 2574–2578

Quintáns C, Acevedo JM, Cao y Paz AM, Graña MJ (2009) Experiences in measuring density by fiber optic sensors in the grape juice fermentation process. In: Proceedings of XIX IMEKO world congress fundamental applied metrology, pp 2579–2582

Resa P, Elvira L, Montero de Espinosa F, González R, Barcenilla J (2009) On-line ultrasonic velocity monitoring of alcoholic fermentation kinetics. Bioprocess Biosyst Eng 32:321–331CrossRef

Ribéreau-Gayon P, Dubourdieu D, Donèche B, Lonvaud A (2006a) Handbook of enology: the microbiology of wine and vinifications, vol 1. John Wiley, ChichesterCrossRef

Ribéreau-Gayon P, Glories Y, Maujean A, Dubourdieu D (2006b) Handbook of Enology: the chemestry of wine stabilization and treatments, vol 2. John Wiley, ChichesterCrossRef

Wieland S (2006) Verfahren zum kontrollierten Vergären einer Flüssigkeit. European Patent EP 1 559 775 A3

Yeh Y-L, Wnag CC, Jang M-J, Lin Y-P (2009) A high-precision measurement technique for evaluating alcohol concentrations using an optical metrology system based on a position sensing detector. Opt Laser Eng 47:599–603CrossRef

Zhao Y, Zhang B, Liao Y (2003) Experimental research and analysis of salinity measurement based on optical techniques. Sens Actuators B-Chem 92:331–336CrossRef

Title: High-resolution low-cost optoelectronic instrument for supervising grape must fermentation
Authors: F. Jiménez-Márquez
J. Vázquez
J. Úbeda
J. L. Sánchez-Rojas
Publication date: 01-04-2014
Publisher: Springer Berlin Heidelberg
Published in: Microsystem Technologies / Issue 4-5/2014
Print ISSN: 0946-7076
Electronic ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-013-2033-3

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