PREDICTION OF HEATING LENGTH TO OBTAIN A DEFINITE <i>F VALUE</i> DURING PASTEURIZATION OF CANNED FOOD

Derossi, A.; Pilli, Teresa De; Penna, M.P. La; Severini, C.

doi:10.1111/j.1745-4530.2012.00674.x

Cited by 3 publications

(3 citation statements)

References 22 publications

(35 reference statements)

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“…The hot junction of the thermocouple was placed into the least heated area of the product. In high-sugar products heat transfer occurs only due to thermal conductivity, so the hot junction of the thermocouple was placed in the geometric center of the product packed in a glass jar [17].…”

Section: Resultsmentioning

confidence: 99%

“…The loading and the unloading processes are mechanized; the temperatures of the heating and cooling zones are set in accordance with the selected pasteurization mode. The temperature is maintained and recorded automatically, which ensures uniformity of the temperature area in the CAP zones [15,16,17]. The pasteurization of the canned food with using CAP has a range of advantages: no time intervals between packing and pasteurization of the canned food; decreased duration of the pasteurization process; reduced labor costs due to complete mechanization and automation of loading and unloading of canned food; reduced consumption of water, steam and electricity per unit of production; option to produce many types of canned food.…”

Section: Introductionmentioning

confidence: 99%

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Development of Pasterization Modes for High-Sugar Cans in Continuous Acting Pasteurizers

2019

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A BST R ACT High-sugar canned fruits, such as jam, marmalade, confiture, are characterized by a high content of soluble dry solids and high acidity, which allows to apply to them pasteurization processes as heat treatment. In comparison with sterilization processes, heat treatment of hermetically sealed canned food during pasteurization is implemented at temperatures less than 100 °C. The article presents the results of the development of scientifically-based pasteurization modes for high-sugar canned food for industrial continuous-acting pasteurizers (CAP -continuous-acting pasteurizers) of open type with a temperature in the heating area less than 100 °C. For today, such pasteurizers are widely spread due to the simplicity of their design, high productivity, with the option to reduce consumption of water, steam, electricity and to use it for the various types of packaging. So, the actual task of this article is the establishment of canned fruit pasteurization modes for such pasteurizers. The development of pasteurization modes for high-sugar canned food using strawberry jam as a sample was carried out in the experimental equipment simulating the operation of a continuous-acting pasteurizer. The studies were implemented to confirm that the developed modes of heat treatment in the CAP as a matter of fact provide industrial sterility of the produced high-sugar canned food. Optimal pasteurization modes have the following parameters: heat treatment in an autoclave sterilizer at a heating temperature of the heating medium 97 °C and stage-by-stage cooling of the products with water at temperatures 70 °C, 50 °C and 30 °C.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Development of Pasterization Modes for High-Sugar Cans in Continuous Acting Pasteurizers

2019

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“…Therefore, the tunnel machines have to be designed to ensure the proper production capability and the thermal cycles of the filled container. In addition, to increase the capacity of the production plan and its flexibility, the same tunnel machine has to be capable of performing the thermal process for different food products and different containers [2,3]. Due to this, at the design stage, the thermal capability of the tunnel machine has to be known a priori, and for this reason, the heat exchanger capability of the filled container has to be understood.…”

Section: Introductionmentioning

confidence: 99%

Assessment of the volume and material container influence on juice cooling process

Suman

Zanini²,

Friso³

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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The quality of bottled beverages depends on the thermal process they undergo during the bottling process. The thermal history of the bottled beverage impacts the conservation of the product itself indeed. The temperature variation is related to specific aspects, such as the thermophysical properties, the heat exchange regime, and the possible simultaneous presence of more phases in the beverage itself. For instance, the behavior of the fluid inside the container might change according to the percentage of solid phases (e.g., pulp for juices). The present work addresses the cooling process on a processing line for beverage containers. This process aims to reduce the fluid temperature to preserve organoleptic characteristics and allows a stable and safe storage phase. The analysis has been carried out with a purpose-designed test bench to mimic the cooling process. Two juices with different percentages of solids (15 % and 50 %) are investigated for two container volumes (250 ml and 330 ml) and two container materials (glass and aluminum). The results show the influence of the pulp content on the cooling performance. The changes in the heat transfer performance determine different outlet temperature values and a different sensitivity to the container characteristics.

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Monitoring of metals migration and identification of corrosion sources in canned tomatoes and sardines

Safta

Limam

Jebali³

et al. 2020

International Journal of Environmental Analytical Chemistry

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PREDICTION OF HEATING LENGTH TO OBTAIN A DEFINITE F VALUE DURING PASTEURIZATION OF CANNED FOOD

Cited by 3 publications

References 22 publications

Development of Pasterization Modes for High-Sugar Cans in Continuous Acting Pasteurizers

Development of Pasterization Modes for High-Sugar Cans in Continuous Acting Pasteurizers

Assessment of the volume and material container influence on juice cooling process

Monitoring of metals migration and identification of corrosion sources in canned tomatoes and sardines

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