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中国精品科技期刊2020
基于CFD技术的橙汁超高温瞬时灭菌后冷却工艺优化[J]. 华体会体育, 2012, (18): 295-297. DOI: 10.13386/j.issn1002-0306.2012.18.078
引用本文: 基于CFD技术的橙汁超高温瞬时灭菌后冷却工艺优化[J]. 华体会体育, 2012, (18): 295-297. DOI: 10.13386/j.issn1002-0306.2012.18.078
Cooling process after UHT orange juice destination optimization based on CFD[J]. Science and Technology of Food Industry, 2012, (18): 295-297. DOI: 10.13386/j.issn1002-0306.2012.18.078
Citation: Cooling process after UHT orange juice destination optimization based on CFD[J]. Science and Technology of Food Industry, 2012, (18): 295-297. DOI: 10.13386/j.issn1002-0306.2012.18.078

基于CFD技术的橙汁超高温瞬时灭菌后冷却工艺优化

Cooling process after UHT orange juice destination optimization based on CFD

  • 摘要: 果汁热灭菌后需要进行冷却处理,在实际生产中冷却也经常因为过度而导致能源的浪费。本文分析了橙汁包装的耐热温度,利用FLUENT软件对橙汁超高温瞬时灭菌后的冷却工艺进行了模拟。针对热灭菌135℃,13s后果汁中心温度到达80℃时进行冷却,得出了不同温度时冷却的最理想时间条件:20℃(293K),9s;15℃(288K),8s;10℃(283K),8s;5℃(278K),7s;0℃(273K),7s。同时根据逆卡诺循环,计算了各种理想冷却工艺的能耗,根据能耗计算,得出了最优的冷却工艺为20℃(293K),9s。 

     

    Abstract: Cooling process after the juice thermal sterilization.By now, there has not been the exact cooling process.Excess cooling is the usual style to obtain the qualified juice.After the heat-resistant temperature of the juice package was analyzed, and based on this, orange juice cooling numerical experiment after UHT sterilization numerical experiment was carried out using FLUENT software.The optimization cooling process was obtained: (20℃ (293K) , 9s) , (15℃ (288K) , 8s) , (10℃ (283K) , 8s) , (5℃ (278K) , 7s) and (0℃ (273K) , 7s) .Using Carnot efficiency in Reverse Carnot cycle, the energy consumption in different cooling process was calculated, and the optimized process was:20℃ (293K) , 9s.

     

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