... 薄膜沸腾传热 boilingheattransfer 沸腾传热系数 boiling heat transfer coefficient 窄缝环形管内汽液两相流型及流动沸腾传热特性研究 phase Flow Pattern and Convective Boiling H ...
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nucleate boiling heat transfer coefficient 泡核沸腾传热系数
boiling heat-transfer film coefficient 沸腾传热膜系数
boiling film heat transfer coefficient 沸腾膜传热系数 ; 沸腾传热膜系数
Cryogenic treatment usually uses liquid nitrogen as cooling medium, where the boiling heat transfer coefficient of workpiece in liquid nitrogen bath is an important parameter.
深冷处理通常以液氮为冷却介质,此时工件在液氮浴中的沸腾换热系数是一个非常重要的参数。
参考来源 - 液氮浴中沸腾换热系数的反传热求解与验证The correlation of boiling heat transfer coefficient based on traditional refrigerant is not fit for predicting for carbon dioxide.
源于传统制冷剂实验获得的蒸发换热系数预测关联式不适合CO2。
参考来源 - 二氧化碳在细径管内蒸发换热特性和压降的实验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The experiment results show that the boiling heat transfer coefficient can be 7-up to 10-fold enhanced by using shroud.
实验结果表明,采用强化屏可使低肋管沸腾传热系数提高几倍乃至十倍。
It has been concluded that boiling heat transfer coefficient in narrow annular channel is 15 % higher than in conventional channel by comparison.
通过与常规流道中的沸腾传热系数的比较,得到了在窄缝环形流道中沸腾传热系数比常规流道中的沸腾传热系数约高1 5 %的结论。
In these applications, it is very crucial to predict the flow boiling heat transfer coefficient of liquid nitrogen for the system design and safe operation.
在这些应用中,准确预测液氮的流动沸腾换热特性对于系统设计和安全运行十分重要。
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