boiling heat transfer coefficient 沸腾传热系数
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
coefficient boiling 沸腾系数
boiling heat tranfer coefficient 沸腾传热系数
boiling film heat transfer coefficient 沸腾膜传热系数 ; 沸腾传热膜系数
The possibility of unique azeotropy or polyazeotropy in a liquid mixture can be predicted using activity coefficient models in terms of boiling point calculation.
在存在共沸点的条件下, 利用活度系数关联式, 通过泡点计算求出共沸条件。
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。
The effects of gap size, heat flux and inlet subcooling on the boiling incipience, flow pattern, heat transfer coefficient, flow instability and critical heat flux were analyzed and discussed.
讨论和分析了流道间隙、加热功率和入口过冷度对沸腾起始点、沸腾流态、换热系数、流动不稳定性和临界热负荷的影响。
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