The effect of combining microwave and ultraviolet methods of plant materials processing on Salmonella culture inhibition

Колоколова, А. Ю.; Илюхина, Н. В.; Trishkaneva, M.V.; Korolev, A.A.

doi:10.20914/2310-1202-2020-1-76-81

Cited by 4 publications

(1 citation statement)

References 6 publications

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“…Studies [18,19] conduct a microbiological assessment of the effect of radiation treatment on poultry during keeping on the extension of shelf life. Radiation resistance of organisms that cause food poisoning is usually associated with poultry, so the choice of the recommended dose was determined and taken into consideration.…”

Section: Introductionmentioning

confidence: 99%

Devising preventive actions in the production of broiler chickens using ultraviolet radiation for long-term storage based on risk analysis

Tungyshbayeva

Uazhanova

TYUTEBAYEVA

et al. 2022

EEJET

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The development of local poultry farming and import substitution are the main solutions to ensuring the safety of products in any state. For the effective development of poultry farming, it is necessary to overcome one of the constraining factors ‒ the insufficiency of a modern safety monitoring system throughout the food chain. Especially in the development of the system of deep processing of poultry meat ‒ starting from pre-slaughter keeping, cutting, preparation of semi-finished products, etc. In this regard, the current study has considered the effect of treatment with ultraviolet radiation under a non-stationary mode at such a control-critical point as the process of pre-slaughter aging in the production of broiler chickens. Additionally, this study was conducted in order to reduce the risks of increasing microbiological hazards at the production stage. As a result of the study, intermediate production control was established, and it was proved that in order to increase the shelf life of chilled meat of broiler chickens, it is advisable to sterilize with UV radiation in doses of 200 mJ/cm to 254 mJ/cm. A reduction in the risks of reproduction of potentially pathogenic microflora in poultry meat has been achieved at a cooling temperature of the carcass from +2 °C to +25 °C for no more than 135 days of risk. Research into the microbiological indicators of slaughter products of broiler chickens makes it possible to conclude that it is possible to use a given treatment in order to improve the quality and safety of finished products. Additionally, studying the effect of ultraviolet radiation on the inactivation of a number of microorganisms is very important for reducing pathogenic microbiological indicators in intermediate production control. The data reported here make it possible to prolong the period of sale and storage of the resulting product

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Section: Introductionmentioning

confidence: 99%

Devising preventive actions in the production of broiler chickens using ultraviolet radiation for long-term storage based on risk analysis

Tungyshbayeva

Uazhanova

TYUTEBAYEVA

et al. 2022

EEJET

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Hybrid microwave electrotechnological installation for processing biological substrates and plant material

Tukhvatullin

2024

E3S Web Conf.

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The work presents a hybrid microwave electrotechnological installation, in which it is possible to simultaneously process biological substrates and plant material. A general view of the hybrid microwave electrotechnological installation and a mathematical model of the technological unit for thermal microwave processing of plant material are presented. The results of experimental studies of the heat treatment of plant material in a hybrid microwave electrotechnological installation are presented. Purpose of the study: To conduct experimental studies of the processing modes of plant material in a hybrid microwave electrotechnological installation. Methodology: The design and development of a hybrid microwave electrotechnological installation for thermal processing of plant material and non-thermal processing of biological substrates is based on the solution of a consistent boundary value problem of electrodynamics and heat and mass transfer. Results: As a result of experimental studies on the heat treatment of plant material in a hybrid microwave electrotechnological installation, the preferred processing modes were determined, resulting in a uniform change in the temperature and humidity of the plant material and a reduction in processing time.

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Effect of Freezing Modes, Storage Time, and Defrosting Methods on Microbiological Quality Parameters of Apricots

Guseynova

Asabutaev

Daudova³

2021

Food Processing: Techniques and Technology

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Introduction. Low-temperature freezing technology extends the shelf life of perishable fruits as it causes a sharp slowdown in the biochemical and microbiological processes in frozen products. However, it cannot provide complete destruction of microorganisms. The present research featured the reaction of apricot microbiota to the technological techniques of shock freezing. The research objective was to study the effect of low-temperature freezing modes (t = –25, –30, and –35°C), storage time (3 and 9 months), methods, and defrosting modes (in air at t = 5 and 22°C; in water at t = 5, 16, and 22°C; under the effect of microwave irradiation) on the surface microflora of apricots. Study objects and methods. The experiment featured apricots of the varieties Uzden, Untsukulskiy Pozdniy, Honobah, Krasnoshchyokiy, and Shalakh. The microbiological profile of defrosted apricots was based on the State Standard. Results and discussion. Fast freezing at t = –25°C provided a better inhibition of epiphytic microflora than at t = –30 and –35°C: aerobic-mesophilic and optionally anaerobic microorganisms – by 65.2–68.6%, yeast – by 61.5–69.0%, and mold – by 59.3–68.4%, compared to their initial content on fresh apricots. During the initial period of refrigeration storage, the number of microorganisms decreased, while the subsequent nine-month storage (t = –18°C) led to a slight increase in microbiota. After nine months of storage, the number of microorganisms on defrosted fruits, depending on the variety, was the following: aerobic-mesophilic and optionally anaerobic microorganisms – 1.2×103–2.0×103 CFU/g, yeast – 14–26 CFU/g, and molds – 75–108 CFU/g. Defrosting of apricots by microwave irradiation resulted in a greater destruction of microorganisms than after traditional thawing in air and water. Conclusion. The results of microbiological studies indicate that the shock freezing technology ensures the production of quick-frozen apricots that meet the requirements of Technical Regulations of the Customs Union No. 021/2011.

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The effect of combining microwave and ultraviolet methods of plant materials processing on Salmonella culture inhibition

Cited by 4 publications

References 6 publications

Devising preventive actions in the production of broiler chickens using ultraviolet radiation for long-term storage based on risk analysis

Devising preventive actions in the production of broiler chickens using ultraviolet radiation for long-term storage based on risk analysis

Hybrid microwave electrotechnological installation for processing biological substrates and plant material

Effect of Freezing Modes, Storage Time, and Defrosting Methods on Microbiological Quality Parameters of Apricots

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