Ana Carolina de Sousa Silva scite author profile

Magnetic fields (MF) are increasingly being applied in food processing to preserve food quality. They can be static (SMF), oscillating (OMF) or pulsed (PMF) depending on the type of equipment. The food characteristics can be influenced by several configurations of the applied magnetic field as its flux density, frequency, polarity and exposure time. Several mechanisms have been proposed to explain the effects of magnetic fields on foods. Some of them propose interactions at the subatomic particle level that show quantum behavior, such as the radical pair and cyclotron resonance mechanisms. Other proposals are at the level of DNA, compounds, subcellular organelles and cells. The interactions between food and magnetic fields are addressed in a general way in this work, highlighting the applications and action models involved and their effects on the physicochemical, enzymatic and microbiological characteristics of food.

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EEG pattern discrimination between salty and sweet taste using adaptive Gabor transform

Hashida

Silva

Souto

et al. 2005

Neurocomputing

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A wireless floating base sensor network for physiological responses of livestock

Silva

Arce

Souto

et al. 2005

Computers and Electronics in Agriculture

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Postharvest freezing process assessment of the blueberry structure in three acts: Bioimpedance, color, and granulometry analysis

Arteaga

Robleto-Martinez

Silva

et al. 2021

LWT

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A New Alternative Real-Time Method to Monitoring Dough Behavior during Processing Using Wireless Sensor Technology

Pereira¹,

Pinto²,

Piza³

et al. 2013

International Journal of Food Engineering

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Currently, food industries need rapidly available information related to food production while most lab-based instrumentation techniques are often complicated and expensive for real-time application. Studies show that the measurement of rheological characteristics of dough is a relevant control variable for the proper formulation of ingredients and bread-making additives. It is in this context that this work aims to present an alternative method for real-time monitoring of the evolution of the dough behavior during processing with telemetry form. The dough behavior is monitored through the changes in the electrical properties of the motor as affected by the properties of the machine torque that makes the mixture. Results of this work showed that it is possible to record dough deformation during mixing in real time and also demonstrated how wireless technology can contribute to the quality control of a food processing system.

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