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A 3-D Computational Fluid Dynamics Model for Forced Air Cooling of Eggs Placed in Trays

机译：一种三维计算流体动力学模型强制空气冷却放置在托盘中的鸡蛋

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Shell eggs must be cooled quickly after laying for controlling Salmonella Enteritidis (SE) growth. To fulfill a research need identified by Food Safety and Inspection Service (FSIS), a 3-D Computational Fluid Dynamics (CFD) model was developed to predict the temperature of eggs placed on a tray (6 rows × 5 columns) under forced air cooling. The continuity, momentum, and energy equations were solved along with standard k-ε turbulence model using PHOENICS software. The model was validated by conducting experiments in a wind tunnel at various air temperatures (7–11 °C) and velocities (0.3– 0.7 m/s). Root mean square error for predicting yolk temperatures was within 1 °C. Finally, the CFD model was integrated with a microbial growth model to estimate the risk of SE growth during cooling. This model can be incorporated into the FSIS risk assessment model for more accurate estimation of SE risk in shell eggs.

机译：产蛋后必须快速冷却带壳蛋，以控制肠炎沙门氏菌（SE）的生长。为了满足食品安全检验局（FSIS）确定的研究需求，开发了3-D计算流体动力学（CFD）模型来预测在强制风冷下放置在托盘（6行×5列）上的鸡蛋的温度。。使用PHOENICS软件对连续性，动量和能量方程式以及标准k-ε湍流模型进行了求解。该模型通过在不同空气温度（7-11°C）和速度（0.3-0.7 m / s）的风洞中进行实验来验证。预测蛋黄温度的均方根误差在1°C以内。最后，将CFD模型与微生物生长模型集成在一起，以估计冷却期间SE生长的风险。该模型可以合并到FSIS风险评估模型中，以更准确地估计带壳蛋中的SE风险。

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Kumar, Vikas; Wee, Ai Pheeng; Birla, Sohan; Subbiah, Jeyamkondan; Thippareddi, Harshanardhan;
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年度 2012
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1. A 3-D computational fluid dynamics model for forced air cooling of eggs placed in trays [J] . Vikas Kumar, Ai Pheeng Wee, Sohan Birla, Journal of food engineering . 2012,第3期

机译：用于强制冷却托盘中鸡蛋的3-D计算流体动力学模型
2. A 3-D Heat Transfer and Fluid Flow Model for Cooling of a Single Egg under Forced Convection [J] . V. Kumar, D. Jonnalagadda, J. Subbiah, Transactions of the ASABE . 2009,第5期

机译：强制对流冷却单个鸡蛋的3-D传热和流体流动模型
3. A 3-D heat transfer and fluid flow model for cooling of a single egg under forced convection. [J] . Kumar V., Jonnalagadda D., Subbiah J., Transactions of the ASABE . 2009,第5期

机译：用于在强制对流条件下冷却单个鸡蛋的3-D传热和流体流动模型。
4. Thermal enhancements for a plastic-ball-grid array interconnect technology: computational-fluids dynamics modeling and characterization for low-velocity air-cooling [C] . Kromann, G.B., Argento, . 1996

机译：塑料球栅阵列互连技术的散热增强：低速空冷的计算流体动力学建模和表征
5. A Study of Computational Fluid Dynamics Assumptions and Their Role in the Evaluation and Design of Targeted Cooling Strategies for Dairy Operations Validated Through Experimentation. [D] . Mondaca Duarte, Mario Rene. 2016

机译：通过实验验证的计算流体动力学假设及其在评估和设计乳制品目标冷却策略中的作用。
6. Computational Fluid Dynamics Modeling of Ventilation and Hen Environment in Cage-Free Egg Facility [O] . Long Chen, Eileen E. Fabian-Wheeler, John M. Cimbala, 2020

机译：无笼蛋设施中通风和母鸡环境的计算流体动力学建模
7. Digital Design of Batch Cooling Crystallization Processes: Computational Fluid Dynamics Methodology for Modeling Free-Surface Hydrodynamics in Agitated Crystallizers [O] . -1

机译：批量冷却结晶过程的数字设计：计算流体动力学方法，用于在搅拌结晶器中建模的自由表面流体动力学
8. A Software Model for Visualization of Time Dependent 3-D Computational Fluid Dynamics Results [R] . Globus, Al 1992

机译：时变三维计算流体力学结果可视化的软件模型

A 3-D Computational Fluid Dynamics Model for Forced Air Cooling of Eggs Placed in Trays

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