Differential Heating of Insects in Dried Nuts and Fruits Associated With Radio Frequency and Microwave Treatments

Wang, S.; Tang, Juming; Cavalieri, Ralph P.; Davis, Deborah Winders

doi:10.13031/2013.13941

Cited by 102 publications

(80 citation statements)

References 24 publications

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“…In general, RF is preferred to MW in controlling insects in stored products [16,17], and has been used at industrial scale for disinfestations of walnuts [18]. There is a need to investigate selective heating of one of the most troublesome insect pests, the Cryptolestes ferrungineus S., in the stored Canadian western red spring (CWRS) wheat, cv.…”

Section: Introductionmentioning

confidence: 99%

Elimination of Cruptolestes Ferrungineus S. In Wheat by Radio Frequency Dielectric Heating at Different Moisture Contents

Shrestha

Yu²,

Baik³

2013

PIER

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Abstract-Radio frequency (RF) dielectric heating was tested to control Cryptolestes ferrungineus S. in the bulk wheat samples (ca.152 g, dia. = 50 mm, ht. = 100 mm) at the MCs (%, w. b.) of 12, 15, and 18 using a pilot-scale RF heater (1.5 kW, 27.12 MHz) in the batch mode. When the temperature of the hottest spot (geometric center) of the sample, T H was at 80 • C, all the adult insects were found dead at the cold spots, near bottom-wall, at 50.7 to 56.0 • C depending up on the wheat MCs. The temperatures of the insectslurries higher than that of the bulk wheat by 0.8 to 15.1 • C indicated the selective heating of the insects. The mortalities of adult insects were almost constant within the quarantine period, QP1 (5 wk). The elapsed time during QP1 had a significant effect only on the insects' mortalities with the wheat at 12% MC. The wheat MC had only marginal significance on the absolute mortalities of insects. The larvae were completely destroyed at temperatures between 55 and 60 • C. The complete mortality of all life stages (eggs, larvae, pupae, and adults) of the insect was achieved at T H = 80 • C without any emergence of the insects during QP2 (8 wk). The RF treatment enhanced the germination of the wheat kernels at 12% MC while it was decreased by 2 to 33% depending up on the wheat MC, and the treatment temperature. Temperature had no significant effect on the falling numbers, and the yields of flour, bran, and shorts, and the peak bandwidth and the MC of the wheat, and the flour protein values. The means of the mixing-development-time deferred from the controls mostly for the wheat at 15% MC and T H = 70 • C, and 18% MC and T H = 70 and 80 • C. The mean-peakheight and the color values varied between 4 and 16%, and 3 and 6% off the controls depending up on the temperatures. The uniform temperature of 60 • C should be enough 518Shrestha, Yu, and Baik to control all life stages of the insect completely with a little or no changes in the important product qualities and germination of the wheat at MCs safe for the storage. Future research mainly focused on better estimation of the insect-to-grain electric field intensities is essential.

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Section: Introductionmentioning

confidence: 99%

Elimination of Cruptolestes Ferrungineus S. In Wheat by Radio Frequency Dielectric Heating at Different Moisture Contents

Shrestha

Yu²,

Baik³

2013

PIER

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“…Hence, model insects having dielectric properties similar to those of codling moth larvae have been developed using gel. Temperature measurements with model insects revealed 1.4-1.7 times greater heating of insects than walnuts at 27 MHz but no preferential heating of insects was detected at 915 MHz (Wang et al 2003a). The effect of soft electron treatment was studied by Imamura et al (2004) on the life stages of T. castaneum, P. interpunctella, and Callosobruchus chinensis (L.).…”

Section: Microbe Mortalitymentioning

confidence: 95%

“…There is a possibility of advantageous selective heating in mixtures of different substances (Hamid et al 1968;Nelson 1972;Ikediala et al 1999;Antic and Hill 2003;Wang et al 2003a). When a mixture of dry food stuffs and insects are heated, the insects are heated upto lethal temperature because they contain more water as compared to the food stuff which is either left unaffected or gets slightly heated (Hurlock et al 1979;Wang and Tang 2001).…”

Section: Principle Of Microwave Disinfestationmentioning

confidence: 99%

Microwave technology for disinfestation of cereals and pulses: An overview

et al. 2012

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Contamination of stored grain with insects, insect fragments, fungi, and mycotoxins is a major concern of the grain industry. The stored-grain insects affect the grains not only quantitatively but also qualitatively. Disinfestation of grains can be achieved by physical, chemical and thermal methods. Microwaves may be an alternate to chemical methods of killing insects in grain as their application do not leave any undesirable residues and thus might be very effective for controlling insect infestation compared to other available methods. Microwave disinfestation can provide a continuous process to allow large quantities of products to pass in a shorter period of time. Microwave disinfestation is considered safe and competitive alternative method to fumigation as it avoids environmental pollution. The aim of this review is to examine how the use of microwave treatment benefits grain producers, handlers, and processors seeking to use non-chemical methods for preventing and controlling insect infestation and fungal growth during storage.

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“…An important key to developing successful thermal treatments is to balance the need for complete insect mortality with minimal impact on the product quality. A common difficulty in using conventional hot-air disinfestation is the slow heating rate, non-uniform temperature distribution, and possible heat damage to heat-sensitive commodities [35]. A more promising approach is to heat the commodity rapidly using radio frequency (RF) or microwave dielectric heating to control insects [35,36].…”

Section: Quarantinementioning

confidence: 99%

“…The rate of temperature increase also depends on the density and thermal capacity of the heated material [35,36]:…”

Section: Quarantinementioning

confidence: 99%

Applications of Microwave Heating in Agricultural and Forestry Related Industries

Brodie¹

2012

The Development and Application of Microwave Heating

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Differential Heating of Insects in Dried Nuts and Fruits Associated With Radio Frequency and Microwave Treatments

Cited by 102 publications

References 24 publications

Elimination of Cruptolestes Ferrungineus S. In Wheat by Radio Frequency Dielectric Heating at Different Moisture Contents

Elimination of Cruptolestes Ferrungineus S. In Wheat by Radio Frequency Dielectric Heating at Different Moisture Contents

Microwave technology for disinfestation of cereals and pulses: An overview

Applications of Microwave Heating in Agricultural and Forestry Related Industries

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