Advanced search
Publication Cover
International Journal of Food Properties Volume 19, 2016 - Issue 3
Submit an article Journal homepage
1,515
Views
20
CrossRef citations to date
0
Altmetric
Original Articles

Dielectric Properties of Beans at Different Temperatures and Moisture Content in the Microwave Range

Richard Torrealba-MeléndezInstituto Nacional de Astrofísica, Óptica y Electrónica, Tonanzintla, Puebla, MexicoView further author information
,
María Elena Sosa-MoralesInstituto Nacional de Astrofísica, Óptica y Electrónica, Tonanzintla, Puebla, Mexico;Universidad de Guanajuato, Irapuato, Guanajuato, MexicoCorrespondence[email protected]
View further author information
,
José Luis Olvera-CervantesInstituto Nacional de Astrofísica, Óptica y Electrónica, Tonanzintla, Puebla, MexicoView further author information
&
Alonso Corona-ChávezInstituto Nacional de Astrofísica, Óptica y Electrónica, Tonanzintla, Puebla, MexicoView further author information
Pages 564-577 | Received 26 Dec 2014, Accepted 03 Apr 2015, Published online: 02 Dec 2015

REFERENCES

  • Sosa-Morales, M.E.; Valerio-Junco, L.; López-Malo, A.; García, H.S. Dielectric Properties of Foods: Reported Data in the 21st Century and Their Potential Applications. LWT–Food Science and Technology 2010, 43, 1169–1179.
  • Ryynänen, S. The Electromagnetic Properties of Food Materials: A Review of Basic Principles. Journal of Food Engineering 1995, 26, 409–429.
  • Jafari, F.; Khalid, K.; Hassan, Y.J.; Zulkifly, A.; Salim, N.S.M. Variation of Microwave Dielectric Properties Glucose Biosensor System. International Journal of Food Properties 2015, 18, 1428–1433.
  • Trabelsi, S.; Kraszweski, A.W.; Nelson, S.O. Nondestructive Microwave Characterization for Determining the Bulk Density and Moisture Content of Shelled Corn. Measurement Science and Technology 1998, 9, 1548–1556.
  • Mane, V.; Puri, V. Ag Thick Film Microstripline As Nondestructive Dielectric and Moisture Sensor For Soybean. Archives of Applied Science Research 2010, 2, 286–294.
  • El Sabbagh, M.A.; Ramahi, O.M.; Trabelsi, S.; Nelson, S.O.; Khan, L. Use of Microstrip Patch Antennas in Grain and Pulverized Materials Permittivity Measurement. Antennas and Propagation Society International Symposium, IEEE 2003, 4, 42–45.
  • Rodríguez-Licea, G.; García-Salazar, J.A.; Rebollar-Rebollar, S.; Cruz-Contreras, A.C. Preferencias del Consumidor de Frijol (Phaseolus Vulgaris L.) en México: Factores y Características Que Influyen en la Decisión de Compra Diferenciada por Tipo y Variedad [Consumer preferences of beans (Phaseolus vulgaris L.) in Mexico: Factors and characteristics that influence purchase decision by type and variety]. Paradigma Económico 2010, 2, 121–145. (In Spanish).
  • Wang, N.; Hatcher, D.W.; Tyler, R.T.; Toews, R.; Gawalko, E.J. Effect of Cooking on the Composition of Beans (Phaseolus Vulgaris L.) and Chickpeas (Cicer Arietinum L.). Food Research International 2010, 43, 589–594.
  • Estrada-Girón, Y.; Martínez-Preciado, A.H.; Michel-Uribe, C.R.; Soltero, J.F.A. Characterization of Extruded Blends of Corn and Beans (Phaseolus Vulgaris) Cultivars: Peruano and Black-Querétaro under Different Extrusion Conditions. International Journal of Food Properties 2015, 18(2), 2638–2651.
  • Regier, M.; Housova, J.; Hoke, K. Dielectric Properties of Mashed Potatoes. International Journal of Food Properties 2001, 4, 431–439.
  • Coronel, P.; Simunovic, J.; Sandeep, K.P.; Kumar, P. Dielectric Properties of Pumpable Food Materials at 915 MHz. International Journal of Food Properties 2008, 11, 508–518.
  • Ngadi, M.; Dev, S.R.S.; Raghavan, V.G.S.; Kazemi, S. Dielectric Properties of Pork Muscle. International Journal of Food Properties 2015, 18, 12–20.
  • USDA (Unites States Department of Agriculture). Kinetics of Microbial Inactivation for Alternative Food Processing Technologies. Microwave and Radio Frequency Processing. http://www.fda.gov/Food/FoodScienceResearch/SafePracticesforFoodProcesses/ucm100250.htm (accessed Nov 21, 2014).
  • AOAC. Official Methods of Analysis. Association of Official Analytical Chemists, 15th Ed; AOAC: Arlington, VA, 1990.
  • Mohsenin, N.N. Physical Properties of Plant and Animal Materials; Gordon and Breach Science Publishers: New York, NY. 1986.
  • Kataria, T.K.; Murthy, D.V.B.; Corona-Chavez, A. Compact Ultra Wide Band Antenna with Filtering Structure Using Metamaterial (MTM) and Substrate Integrated Circuit (SIC) Technologies. Proceedings of IEEE International Workshop on Antenna Technology, IWAT 09, Los Angeles, CA, March 2–4, 2009; 2009, 4 pp.
  • Ray, K.P. Design Aspects of Printed Monopole Antennas for Ultra-Wide Band Applications. International Journal of Antennas and Propagation 2008, 713858, 8 pp.
  • Ojha, J.R.; Peters, M. Microwave and Millimeter Wave Technologies: Modern UWB Antennas and Equipment. Chapter 3. In Patch Antennas and Microstrip Lines; Mini, I.; Ed.; Intechopen: Germany, 2010, 49–62.
  • Muqaibel, A.H; Safaai-Jazi, A. A New Formulation for Characterization of Materials Based on Measured Insertion Transfer Function. IEEE Transactions on Microwave Theory and Techniques 2003, 51(8), 1946–1951.
  • Nelson, S.O.; Trabelsi, S. Models for the Microwave Dielectric Properties of Grain and Seed. Transactions of the ASABE 2011, 54(2), 549–553.
  • Metaxas, A.C.; Meredith, R.J. Industrial Microwave Heating; Peter Peregrinus Ltd.: London, UK, 1993.
  • Geedipalli, S.S.R.; Rakesh, V.; Datta, A.K. Modeling the Heating Uniformity Contributed by a Rotating Turntable in Microwave Ovens. Journal of Food Engineering 2007, 82, 359–368.
  • von Hippel, A.R. Dielectric Properties and Waves; John Wiley: New York, NY, 1954.
  • NMX-FF-038-SCFI-2013. Non Industrialized Food Products for Human Consumption—Fabaseous-Beans (Phaseolus vulgaris L.)—Specifications and Test Methods. Mexican Government. http://200.77.231.100/work/normas/nmx/2010/nmx-ff-038-scfi-2013.pdf (accessed March 18, 2014).
  • Berbert, P.A.; Queiroz, D.M.; Melo, E.C. Dielectric Properties of Common Bean. Biosystems Engineering 2002, 83, 449–462.
  • Berbert, P.A.; Queiroz, D.M.; Sousa, E.F.; Molina, M.B.; Melo, E.C.; Faroni, L.R.D. Dielectric Properties of Parchment Coffee. Journal of Agricultural Engineering Research 2001, 80(1), 65–80.
  • Konak, M.; Carman, K.; Aydin, C. Physical Properties of Chick Pea Seeds. Biosystems Engineering 2002, 82(1), 73–78.
  • Haciseferogullari, H.; Gezer, I.; Bahtiyarca, Y.; Menges, H.O. Determination of Some Chemical and Physical Properties of Sakiz Faba Bean (Vicia Faba L. var. Major). Journal of Food Engineering 2003, 60, 475–479.
  • Guo, W.; Tiwari, G.; Tang, J.; Wang, S. Frequency, Moisture, and Temperature Dependent Dielectric Properties of Chickpea Flour. Biosystems Engineering 2008, 101, 217–224.
  • Guo, W.; Wang, S.; Tiwari, G.; Johnson, J.A.; Tang, J. Temperature and Moisture Dependent Dielectric Properties of Legumes Associated with Dielectric Heating. LWT–Food Science and Technology 2010, 43, 193–201.
  • Jiao, S.; Johnson, J.A.; Tang, J.; Tiwari, G.; Wang, S. Dielectric Properties of Cowpea Weevil, Black Eyed-Peas, and Mung Beans with Respect to the Development of Radiofrequency Heat Treatments. Biosystems Engineering 2011, 108, 280–291.
  • Debye, P. Polar Molecules; The Chemical Catalog, Co.: New York, NY, 1929.
  • Bottcher, C.J.F.; Bordewilk, P. Theory of Electric Polarization, Vol. 11; Elsevier: Amsterdam, Holland, 1978.
  • Içıer, F.; Baysal, T. Dielectric Properties of Food Materials-2: Measurement Techniques. Critical Reviews Food Science and Nutrition 2004, 44, 473–478.
  • Nelson, S.O. Correlating Dielectric Properties of Solids and Particulate Samples Through Mixture Relationships. Transactions of the ASAE 1992, 35(2), 625–629.
  • Trabelsi, S.; Kraszweski, A.W.; Nelson, S.O. New Calibration Technique for Microwave Moisture Sensors. IEEE Transactions on Instrumentation and Measurement 2001, 50, 877–881.
  • Trabelsi, S.; Paz, A.M.; Nelson, S.O. Microwave Dielectric Method for the Rapid, Nondestructive Determination of Bulk Density and Moisture Content of Peanut Hull Pellets. Biosystems Engineering 2013, 115, 332–338.
  • Malafronte, L.; Lamberti, G.; Barba, A.A.; Raaholt, B.; Holtz, E.; Ahrne, L. Combined Convective and Microwave Assisted Drying: Experiments and Modeling. Journal of Food Engineering 2012, 112, 304–312.
  • Purohit, P.; Jayas, D.S.; Yadav, B.K.; Chelladurai, V.; Fields, P.G.; White, N.D.G. Microwaves to Control Callosobruchus Maculates in Stored Mung Bean (Vigna Radiata). Journal of Stored Products Research 2013, 53, 19–22.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.