基于计算流体力学CFD的高静水压力流体高压分析

Proceedings of the 2nd International Conference on Graphics and Signal Processing Pub Date : 2018-10-06 DOI:10.1145/3282286.3282296

Ghani Albaali, Ruba Al-Mahasneh

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引用次数: 0

摘要

研究和分析了装液态食品的三维圆柱筐内的温度和压力分布。对食品非热灭菌过程(高静水压力)中强制对流加热和自由对流加热进行了模拟研究。压力应从大气压增加到使用的处理压力(500)MPa。利用PHOENICS软件包对naver Stocks方程(连续性、能量和动量)进行求解。通过对液体模型的模拟，揭示了自由对流和强制对流对压缩初期液态食品内部温度分布的影响。它还显示了强制对流对最高温区(HTR)位置的影响，这是由于离开入口的泵送流体速度与处理室速度之间的差异而产生的。模拟还表明，在压缩过程结束后，由于自然对流的影响较小，传热主要由传导加热控制。

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Analysis of High Hydrostatic Pressure HHP of Liquid Using Computational Fluid Dynamics CFD

Profiles of temperature and pressure in a 3-D cylindrical basket filled with liquid food is studied and analyzed. Forced and free convection heating within non-thermal sterilization process (High hydrostatic pressure) of food is simulated and studied. Pressure is supposed to increase from atmospheric pressure to the used treatment pressure (500) MPa. The Naiver Stocks equations (continuity, energy and momentum) are solved together using PHOENICS software package. The simulation for the liquid model presents the effect of both free and forced convection on the temperature distribution in the liquid food at the beginning of compression. It also shows the effects of the forced convection on the location of Highest Temperature Region (HTR), which is created as a result of the difference between the pumping fluid velocity that leaves the inlet and the treatment chamber velocity. The simulations also show that after the end of the compression process, the heat transfer is in particular controlled by conduction heating which is due to the to the minor influence of natural convection.

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Proceedings of the 2nd International Conference on Graphics and Signal Processing

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