Concentrated high intensity electric field (CHIEF) system for non-thermal pasteurization of liquid foods: Modeling and simulation of fluid mechanics, electric analysis, and heat transfer

Peng Peng; Hao Song; Tingting Zhang; Min Addy; Yaning Zhang; Yanling Cheng; Raymond Hatzenbeller; Xindi Zhu; Shiyu Liu; Yuhuan Liu; Xiangzhong Huang; Xiangyang Lin; Paul Chen; Roger Ruan

doi:10.1016/j.compchemeng.2016.11.044

Concentrated high intensity electric field (CHIEF) system for non-thermal pasteurization of liquid foods: Modeling and simulation of fluid mechanics, electric analysis, and heat transfer

Peng Peng, Hao Song, Tingting Zhang, Min Addy, Yaning Zhang, Yanling Cheng, Raymond Hatzenbeller, Xindi Zhu, Shiyu Liu, Yuhuan Liu, Xiangzhong Huang, Xiangyang Lin, Paul Chen, Roger Ruan

Bioproducts and Biosystems Engineering

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Abstract

This study develops an integrated, multi-scale model of the pilot concentrated high intensity electric field (CHIEF) system using the finite element method (FEM). The CHIEF system is a novel non-thermal pasteurization technology that uses medium to low voltage (≤10 kV) frequency AC (60 Hz) power supply, and offers satisfactory pasteurization results for liquid food such as juice and milk. The model in this study provides accurate predictions for the fluid behavior, electric field distribution and temperature profile and is validated using experimental results. Results from the model shows that the CHIEF system can provide electric field up to 4000 kV/m with a power supply of 10 kV, enabling a 6-log reduction of bacteria kill. Furthermore, recommendations and optimizations are made based on the modeling results, which would benefit for the process scale-up and design.

Original language	English (US)
Pages (from-to)	183-193
Number of pages	11
Journal	Computers and Chemical Engineering
Volume	97
DOIs	https://doi.org/10.1016/j.compchemeng.2016.11.044
State	Published - Feb 2 2017

Bibliographical note

Publisher Copyright:
© 2016

Keywords

Electric field treatment
Finite element method (FEM)
Fluid simulation
Non-thermal pasteurization

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Peng, P., Song, H., Zhang, T., Addy, M., Zhang, Y., Cheng, Y., Hatzenbeller, R., Zhu, X., Liu, S., Liu, Y., Huang, X., Lin, X., Chen, P., & Ruan, R. (2017). Concentrated high intensity electric field (CHIEF) system for non-thermal pasteurization of liquid foods: Modeling and simulation of fluid mechanics, electric analysis, and heat transfer. Computers and Chemical Engineering, 97, 183-193. https://doi.org/10.1016/j.compchemeng.2016.11.044

Concentrated high intensity electric field (CHIEF) system for non-thermal pasteurization of liquid foods: Modeling and simulation of fluid mechanics, electric analysis, and heat transfer. / Peng, Peng; Song, Hao; Zhang, Tingting et al.
In: Computers and Chemical Engineering, Vol. 97, 02.02.2017, p. 183-193.

Research output: Contribution to journal › Article › peer-review

Peng, P, Song, H, Zhang, T, Addy, M, Zhang, Y, Cheng, Y, Hatzenbeller, R, Zhu, X, Liu, S, Liu, Y, Huang, X, Lin, X, Chen, P & Ruan, R 2017, 'Concentrated high intensity electric field (CHIEF) system for non-thermal pasteurization of liquid foods: Modeling and simulation of fluid mechanics, electric analysis, and heat transfer', Computers and Chemical Engineering, vol. 97, pp. 183-193. https://doi.org/10.1016/j.compchemeng.2016.11.044

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abstract = "This study develops an integrated, multi-scale model of the pilot concentrated high intensity electric field (CHIEF) system using the finite element method (FEM). The CHIEF system is a novel non-thermal pasteurization technology that uses medium to low voltage (≤10 kV) frequency AC (60 Hz) power supply, and offers satisfactory pasteurization results for liquid food such as juice and milk. The model in this study provides accurate predictions for the fluid behavior, electric field distribution and temperature profile and is validated using experimental results. Results from the model shows that the CHIEF system can provide electric field up to 4000 kV/m with a power supply of 10 kV, enabling a 6-log reduction of bacteria kill. Furthermore, recommendations and optimizations are made based on the modeling results, which would benefit for the process scale-up and design.",

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author = "Peng Peng and Hao Song and Tingting Zhang and Min Addy and Yaning Zhang and Yanling Cheng and Raymond Hatzenbeller and Xindi Zhu and Shiyu Liu and Yuhuan Liu and Xiangzhong Huang and Xiangyang Lin and Paul Chen and Roger Ruan",

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AU - Zhang, Tingting

AU - Addy, Min

AU - Zhang, Yaning

AU - Cheng, Yanling

AU - Hatzenbeller, Raymond

AU - Zhu, Xindi

AU - Liu, Shiyu

AU - Liu, Yuhuan

AU - Huang, Xiangzhong

AU - Lin, Xiangyang

AU - Chen, Paul

AU - Ruan, Roger

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AB - This study develops an integrated, multi-scale model of the pilot concentrated high intensity electric field (CHIEF) system using the finite element method (FEM). The CHIEF system is a novel non-thermal pasteurization technology that uses medium to low voltage (≤10 kV) frequency AC (60 Hz) power supply, and offers satisfactory pasteurization results for liquid food such as juice and milk. The model in this study provides accurate predictions for the fluid behavior, electric field distribution and temperature profile and is validated using experimental results. Results from the model shows that the CHIEF system can provide electric field up to 4000 kV/m with a power supply of 10 kV, enabling a 6-log reduction of bacteria kill. Furthermore, recommendations and optimizations are made based on the modeling results, which would benefit for the process scale-up and design.

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Concentrated high intensity electric field (CHIEF) system for non-thermal pasteurization of liquid foods: Modeling and simulation of fluid mechanics, electric analysis, and heat transfer

Abstract

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Keywords

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