TY - GEN
T1 - Internal Flow Model of a Helical Centrifugal Atomizer for Cold Preservation Systems in the Fishing Industry
AU - Raymundo, Carlos
AU - Ronceros, Julio
AU - Herrera, Carlos
AU - Chavez, Heyul
AU - Zapata, Gianpierre
N1 - Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.
PY - 2024
Y1 - 2024
N2 - Since 1960, a higher percentage of aquatic foods have been allocated for human consumption. In 2020, 89% of global fishery and aquaculture production was dedicated to this purpose. With the increasing demand in the industry, there has also been a development of quality and food safety standards. Therefore, the food preservation technique of refrigeration becomes essential to prevent input losses and maintain quality. This leads to the need for appropriate technology for the freezing process of aquatic foods on vessels. In this research, the study and consequently, the design of a swirl effect atomizer using tools based on mathematical models and complemented with numerical simulation (Ansys CFD: Computational Fluid Dynamics) is proposed. This cryogenic atomizer, in conjunction with another water atomizer, would produce ice in the form of tiny particles. This would increase the efficiency in the use of refrigeration resources by applying a layer of ice directly onto the food for freezing. Furthermore, by creating a portable design with fewer freezing elements requirements, space on the vessels would be optimized, allowing for greater food storage. Lastly, this research addresses the ability to generate freezing elements using the vortex chamber technique that combines cryogenic fluid and water. These elements do not affect the quality of aquatic foods.
AB - Since 1960, a higher percentage of aquatic foods have been allocated for human consumption. In 2020, 89% of global fishery and aquaculture production was dedicated to this purpose. With the increasing demand in the industry, there has also been a development of quality and food safety standards. Therefore, the food preservation technique of refrigeration becomes essential to prevent input losses and maintain quality. This leads to the need for appropriate technology for the freezing process of aquatic foods on vessels. In this research, the study and consequently, the design of a swirl effect atomizer using tools based on mathematical models and complemented with numerical simulation (Ansys CFD: Computational Fluid Dynamics) is proposed. This cryogenic atomizer, in conjunction with another water atomizer, would produce ice in the form of tiny particles. This would increase the efficiency in the use of refrigeration resources by applying a layer of ice directly onto the food for freezing. Furthermore, by creating a portable design with fewer freezing elements requirements, space on the vessels would be optimized, allowing for greater food storage. Lastly, this research addresses the ability to generate freezing elements using the vortex chamber technique that combines cryogenic fluid and water. These elements do not affect the quality of aquatic foods.
KW - Atomizer
KW - Helical
KW - High pressure
KW - Swirl
UR - https://www.scopus.com/pages/publications/85201073579
U2 - 10.1007/978-981-97-3305-7_21
DO - 10.1007/978-981-97-3305-7_21
M3 - Contribución a la conferencia
AN - SCOPUS:85201073579
SN - 9789819733040
T3 - Lecture Notes in Networks and Systems
SP - 263
EP - 271
BT - Proceedings of 9th International Congress on Information and Communication Technology - ICICT 2024
A2 - Yang, Xin-She
A2 - Sherratt, Simon
A2 - Dey, Nilanjan
A2 - Joshi, Amit
PB - Springer Science and Business Media Deutschland GmbH
T2 - 9th International Congress on Information and Communication Technology, ICICT 2024
Y2 - 19 February 2024 through 22 February 2024
ER -