NONINVASIVE ULTRASONIC MEASUREMENTS IN THE FOOD INDUSTRY

Low-intensity ultrasonics frequently range at intensities lower than 1 W/cm2and at frequencies higher than 100 kHz. They are used in food industries for both process control and product assessment or control. Two kinds of techniques are used, through-transmission and pulse-echo. The most commonly used ultrasonic parameters are velocity and attenuation. The applications of low-intensity ultrasonics are encountered in all food industries mainly vegetables, dairy, and meat. When traveling through a medium, the ultrasound waves change their characteristics and the analysis of this change allows assessment of properties of the medium. Different properties of foods have been addressed in the past and have mostly been linked to texture (maturity, ripeness in cheese, melons, avocados, etc.), composition, or even sensory characteristics. Defect detection such as cracks in cheese or hollow hearts in potatoes has also been addressed.

[1]  David Julian McClements,et al.  Ultrasonic determination of fish composition , 1998 .

[2]  Juan A. Cárcel,et al.  Quality Control of Cheese Maturation and Defects Using Ultrasonics , 2001 .

[3]  David Julian McClements,et al.  Use of Ultrasound to Determine Cod Fillet Composition , 1997 .

[4]  K E Belk,et al.  Objective measurements of carcass and meat quality. , 1994, Meat science.

[5]  Alan V. Oppenheim,et al.  Discrete-Time Signal Pro-cessing , 1989 .

[6]  N. Galili,et al.  Models of Ultrasonic Parameters to Assess Avocado Properties and Shelf Life , 1996 .

[7]  C. Rosselló,et al.  Composition assessment of raw meat mixtures using ultrasonics. , 2001, Meat science.

[8]  Edward J. Staples,et al.  The zNose, a new electronic nose using acoustic technology , 2000 .

[9]  Antonio Mulet,et al.  Instrumental and Expert Assessment of Mahon Cheese Texture , 2000 .

[10]  Chyung Ay,et al.  Milk coagulation cut-time determination using ultrasonics , 1996 .

[11]  John N. Coupland,et al.  Concentration Measurement by Acoustic Reflectance , 2001 .

[12]  S. Samari Ultrasonic Inspection Methods for Food Products , 1994 .

[13]  A. Mizrach,et al.  An ultrasonic nondestructive method for measuring maturity of mango fruit , 1997 .

[14]  N. Sanjuán,et al.  Prediction of instrumental and sensory textural characteristics of Mahon cheese from ultrasonic measurements. , 2000 .

[15]  David Julian McClements,et al.  Ultrasonics in food engineering. Part I: Introduction and experimental methods , 1988 .

[16]  F. Payne,et al.  Ultrasonic Velocity in Used Corn Oil as a Measure of Oil Quality , 1994 .

[17]  G. Clemente,et al.  Cheese maturity assessment using ultrasonics. , 2000, Journal of dairy science.

[18]  C. G. Haugh,et al.  Detecting Hollow Heart in Potatoes Using Ultrasound , 1994 .

[19]  Timothy J. Mason Sonochemistry - a technology for tomorrow , 1993 .

[20]  Peter Withers Ultrasonic sensor for the detection of fouling in UHT processing plants , 1994 .

[21]  N. Sanjuán,et al.  Use of ultrasound to assess Cheddar cheese characteristics. , 2000, Ultrasonics.

[22]  José Bon,et al.  Review: Low intensity ultrasonics in food technology / Revisión: Ultrasonidos de baja intensidad en tecnología de alimentos , 1999 .

[23]  E. Boistier-Marquis,et al.  Applications des ultrasons de puissance en industries alimentaires , 1999 .