Dielectric Properties of Grapes and Sugar Solutions at 2.45 GHz

Tulasidas, T.N.; Raghavan, G.S.V.; Voort, F. van de; Girard, Rémi

doi:10.1080/08327823.1995.11688266

Cited by 53 publications

(40 citation statements)

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“…Knutson et al (1988) reported the use of the microwave oven to pasteurize milk, and a continuous laboratory scale system has been successfully developed for this purpose (Kudra et al, 1991). Microwave heating is greatly affected by the presence of water in foods (Tulasidas et al, 1995) as water is the major absorber of microwave energy in food, consequently, the higher the moisture content, the better are the resultant heating effects. In contrast to conventional heating, microwaves penetrate the material, interact with it and generate heat leading to its rapid heating.…”

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confidence: 99%

“…Materials containing polar molecules such as water are rapidly heated when exposed to microwave radiation due to molecular friction generated by dipolar rotation in the presence of an alternating electric field. It is also reported that dissolved sugars are the main microwave susceptors in high carbohydrate foods and syrups (Tulasidas et al, 1995). Since honey contains a substantial amount of water (18-24%) as well as large amounts of dissolved sugars (70-80%), microwave radiation could be effectively used for heating honey.…”

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Microwave and Infrared Heat Processing of Honey and Its Quality

Hebbar

Nandini

Lakshmi

et al. 2003

FSTR

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Application of microwave and infrared radiation was explored for thermal processing of honey and its effect on the physico-chemical characteristics as well as the microbiological quality of honey were studied. Microwave heating provided a rapid means of achieving the desired level of yeast reduction with reduced thermal damage. Though different combinations of heating duration and microwave power intensity achieved the commercially acceptable level of yeast reduction in honey, heating for a shorter duration (15 s) at higher power intensity (16 W/g) was desirable in terms of lower hydroxymethylfurfural (HMF) value (3.8 mg/kg) and higher diastase activity (12.0). Infrared heating was not as rapid as microwave heating but achieved the desired results in a relatively shorter period (3-4 min) offering advantages over the conventional method.

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Microwave and Infrared Heat Processing of Honey and Its Quality

Hebbar

Nandini

Lakshmi

et al. 2003

FSTR

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“…For an aqueous system, although water is a good microwave absorber, its dielectric loss factor drops from above 20 to below 5 as the temperature rises from 3°C to 95°C 56,57 . On the other hand, in a study of grape and sugar solutions, the loss factors of low moisture grapes and high concentration sugar solutions rise as the temperature rises 58 . It has found that NaCl and CuSO 4 solutions have different dielectric responses to microwaves from that of pure water 59 .…”

Section: Study the Temperature Influence On The Microwave Effectsmentioning

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Microwave-assisted wet chemical synthesis: advantages, significance, and steps to industrialization

Shi¹,

Hwang²

2003

JMMCE

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Previous research has revealed several advantages from microwave-assisted wet chemical synthesis in reaction acceleration, yield improvement, enhanced physicochemical properties and the evolvement of new material phases. The study present examples that demonstrate the significance of these advantages to industrial application. In order to achieve successful industrial application there is a need to distinguish between the microwave athermal (not excited by heat) effect from the microwave-induced thermal effect (temperature rise). The optimization of this new process has to be systematically investigated, so the advantages and benefits of this new technology can be fully exploited. Advantages and significance ?-Fe 2 O 3 based magnetic materials?-Fe 2 O 3 based magnetic materials have been extensively used as recording materials because of their good magnetic properties. The emergence of nanomagnetic technology has imposed new demands upon magnetic materials. To fabricate ultrahigh density and ultrahigh speed data storage devices, which work on the magnetic -spintronic concept, magnetic materials with nanoscale particles are highly preferred 1 . Conventionally, ? -Fe 2 O 3 powders with monodispersed particles are synthesized first by means of forced hydrolysis of ferric nitrate or ferric chloride in aqueous solutions, which produces α-Fe 2 O 3 , and then the α-Fe 2 O 3 are transformed into ?-Fe 2 O 3 in a high-temperature process 2,3 . To effectively control the particle shape and particle size, which are essential for achieving the desired magnetic properties, the hydrolysis solution must be very dilute. For producing micron-and submicron-sized particles, the concentrations of the ferric irons are generally within a range around 0.02M 2, 4, 5 and for producing nanosized powders, the ferric concentration should be much lower. In addition to dilute solutions, the conventional hydrolysis has to be carefully controlled and it generally requires 2-7 days. This means that, even based upon the shortest processing time and highest concentration, the rate for producing the nanosized iron oxide powders would be less than 0.014 gram per liter per hour. In order to use nanosized magnetic materials for industrial applications, appreciable acceleration of the process and an increase in the ferric concentration are required.Several researchers have attempted the iron oxide synthesis via microwave-assisted hydrolysis. Komarneni et al demonstrated that under otherwise identical processing conditions, synthesis of crystalline hematite by a microwave-hydrothermal approach was 36 times faster than by conventional hydrothermal methods 6 . Our study shows the capability of controlling the particle shape and particle size with this rapid synthesis approach. Rigneau et al further shortened the processing time to 30 minutes and also increased the ferric concentration to 0.05M 7 , which could increase the production rate over one hundred times. The even more striking finding from their results was that the microwave synthesized Fe 2 O 3 p...

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“…En este sentido se han realizado numerosos estudios en alimentos (Van Dyke et al, 1969;Roebuck et al, 1972;To et al, 1974;Nelson, 1978a,b;Mudgett et al, 1980;Padua, 1993;Tulasidas et al, 1995;Bircan y Barringer, 1998;Funebo y Ohlsson, 1999;Kraszewski, 2000;Sipahioglu, 2002).…”

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“…Aplicación de la espectroscopia dieléctrica de microondas a productos de la agricultura Se ha estudiado la aplicación de microondas a diversas frutas y vegetales con la finalidad de correlacionar diferentes propiedades como son: humedad, contenido en almidón, y efecto de la temperatura con la variación de las propiedades dieléctricas (Nelson, 1980(Nelson, , 1983(Nelson, , 1992(Nelson, , 2005Tran et al, 1984;Seaman y Seals, 1991;Nelson et al, 1993Nelson et al, , 1994Berbert et al, 2002;Feng et al, 2002;Sharma y Prasad, 2002;Sipahioglu y Barringer, 2003;Datta et al, 2005;. Se han desarrollado varios modelos predictivos que correlacionan las propiedades dieléctricas de frutas y vegetales con algunos parámetros como la humedad, sólidos solubles e insolubles y temperatura (Sun et al, 1995;Tulasidas et al, 1995;Sharma y Prasad, 2002;Nelson, 2003;Sipahioglu y Barringer, 2003;Berbert et al, 2004;Calay et al, 2007). En general, cabe destacar que las frutas y verduras poseen una fase líquida importante que provoca que la constante dieléctrica adquiera valores altos; por el contrario, en frutas y verduras deshidratadas tanto la constante dieléctrica como el factor de pérdidas toman valores menores.…”

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Estudio de los espectros dieléctricos para el control de calidad de alimentos

Giráldez¹

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que presenta Dª MARTA CASTRO GIRÁLDEZ para aspirar al grado de Doctora por la Universidad Politécnica de Valencia, reúne las condiciones adecuadas para constituir su tesis doctoral, por lo que AUTORIZAN a la interesada para su presentación. Solamente la ardiente paciencia hará que conquistemos una espléndida felicidad. Valencia, Junio 2010 Pablo Neruda AgradecimientosPues ya casi he alcanzado el tramo final de este largo camino que me ha costado tantos y tantos duros momentos.Tan sólo quiero aclarar que este documento contiene muchísimo esfuerzo mio y de numerosas personas que me han apoyado y que me quieren, a todos ellos les quiero dar las gracias.En primer lugar quiero destacar la labor de mis tres directores de tesis;quiero agradecer a Pedro su confianza y apoyo durante estos intensos cuatro años, por ayudarme y animarme durante la redacción de esta tesis. A Fidel, por su gran experiencia y por ayudarme siempre que lo he necesitado. Y por último a Pedrojo, por su cariño, por su amistad y por su gran ayuda; por haber estado siempre ahí, en los buenos y en los malos momentos, gracias por todo, de verdad.A todas las personas que de una u otra forma han contribuido durante estos cuatro años: a Creu, por su predisposición y ayuda, gracias por todo lo que hemos vivido juntas. A mis dos amigas y mejores proyectandas, Laura y Patri, porque gracias a vosotras pude superar aquellos momentos tan duros y sacar adelante esta tesis, muchísimas gracias, ya sabéis que os quiero mucho. A Javi, porque siempre estás ahí para apoyarme y escucharme, por tu paciencia y por tu cariño, por quererme tanto y por comprenderme, gracias mi vida, ya sabes que lo eres todo para mi. A mis padres, por darme todo lo que tengo, a vosotros os debo todo lo que soy. A mi hermano, Mabel y Hugo, porque siempre traéis alegría a mi vida, os quiero mucho. A mi familia, porque soy tan afortunada de teneros a todos que ni siquiera tengo palabras suficientes para plasmarlo en este papel. ResumenActualmente, la industria agroalimentaria debe hacer frente a numerosas presiones y retos, de entre los que destaca la innovación como la única posibilidad para afrontar la enorme competencia que caracteriza el mercado. La innovación a nivel de proceso está dirigida a la investigación y aplicación de nuevas tecnologías. Mejorar e innovar en los procesos dará lugar a productos más seguros y de mayor calidad, lo cual está relacionado con las exigencias actuales del consumidor. En este contexto, los modernos sensores basados en la aplicación de energía electromagnética suponen un gran avance en el control de calidad en la Industria Alimentaria.La presente tesis estudia la aplicación de la radiación electromagnética a diferentes productos y procesos de la industria agroalimentaria, con el objeto de solucionar algunos de los grandes problemas del sector cárnico y de la industria postcosecha, así como controlar la operación de deshidratación osmótica en carne y frutas.En primer lugar se analizó la utilización de energía electromagnética para controlar la calidad de car...

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Dielectric Properties of Grapes and Sugar Solutions at 2.45 GHz

Cited by 53 publications

References 1 publication

Microwave and Infrared Heat Processing of Honey and Its Quality

Microwave and Infrared Heat Processing of Honey and Its Quality

Microwave-assisted wet chemical synthesis: advantages, significance, and steps to industrialization

Estudio de los espectros dieléctricos para el control de calidad de alimentos

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