1) Nucleate pool-boiling
池内核沸腾
2) nucleate pool boiling
池内核态沸腾
1.
In this paper,surface tension,thermal stability,performance of nucleate pool boiling and mass distribution ratio during evaporation process of anionic surfactant sodium dodecyl sulfate(SDS),nonionic surfactant Triton X-100 and Triton X-114 which are representative and industrial applicated extensively and their aqueous solutions were studied experimentally under laboratorial conditions.
本文选用了工业上广泛应用且有代表性的阴离子表面活性剂十二烷基硫酸钠(SDS),非离子表面活性剂曲拉通X100(Triton X-100)和曲拉通X114(TritonX-114)为研究对象,在实验室条件下对这三种表面活性剂水溶液表面张力、热稳定性、池核沸腾换热特性及蒸发过程的质量分配进行实验研究;并结合表面活性剂在水溶液气液和固液界面上的吸附作用、池内核态沸腾换热及蒸汽携带水滴相关理论,阐释了表面活性剂对水池内核态沸腾换热的影响机理及其水溶液蒸发过程的质量分配规律。
3) nucleate pool boiling
池核沸腾
1.
Investigation on Heat Transfer and Calcium Carbonate Scale Formation during Nucleate Pool Boiling;
池核沸腾传热与CaCO_3垢生成的研究
2.
Therefore, the nucleate pool boiling heat transfer coefficients of methanol have been tested for 9 JK-2 tubes, a JK-1 tube and a smooth tube.
测试了甲醇在9根第二代机械加工表面多孔管(JK-2管)、1根第一代机械加工表面多孔管(JK-1管)和1根光滑管上的单管饱和池核沸腾传热系数,结果表明,JK-2管比JK-1管能更有效地强化甲醇的池核沸腾传热。
3.
The nucleate pool boiling heat transfer coefficients of water on 9 JK-2 tubes, a JK-1 tube and a smooth tube were measured.
测试了水在9根第2代机械加工表面多孔管(JK-2管)、1根第1代机械加工表面多孔管(JK-1管)和1根光滑管上的单管饱和池核沸腾传热系数,结果表明,JK-2管比JK-1管能更有效地强化水的池核沸腾传热。
4) Pool nucleate boiling
池核沸腾
1.
Effect of CaCO_3 scale formation on heat transfer of pool nucleate boiling;
CaCO_3垢的形成对池核沸腾传热的影响
5) pool boiling
池内沸腾
1.
In this paper an experimental investigation of pool boiling heat transfer at horizontal plate surface is conducted for 26 nm Fe-water and 13nm Al2O3-water nano-particle suspensions.
本文对纳米颗粒悬浮液在平壁面上池内沸腾进行了实验研究。
2.
In order to further confirm the feasibility to simulate complicated phase transitions with the present model,the simulation on pool boiling and boiling flow in a vertical pipe is conducted.
为进一步验证该模型模拟复杂相变问题的可行性,利用该模型对池内沸腾和垂直管道中的流动沸腾现象进行了模拟,观察到气泡随时间变化不断长大,气泡受浮升力的影响脱离壁面,以及气泡在液相中上升时发生碰撞、聚合等现象。
3.
Several fractal models for the nucleate pool boiling, subcooled flow boiling,CHF and nanofluids boiling heat transfer are reviewed,summarized and discussed.
简要评述了沸腾换热(池内沸腾、流动沸腾、临界热流密度和纳米流体沸腾换热)的研究进展;详细论述了采用分形理论和方法研究沸腾换热分析解的理论和方法;指出了采用分形理论和方法有可能解决其它尚未解决的有关沸腾换热的若干课题和方向。
6) Nucleate pool boiling
核态池沸腾
1.
A new method has been presented to predict the nucleation site density in nucleate pool boiling based on the investigation of the microstructure of boiling surface.
本文提出了一种新的基于沸腾壁面微结构分析的预测核态池沸腾中汽化核心密度的方法。
补充资料:池沸腾
分子式:
CAS号:
性质:指加热壁面被沉浸在无宏观流速的流体表面下所发生的沸腾。这时从加热表面产生的气泡能脱离表面自由浮升。池沸腾时,液体的运动只是由自然对流和气泡扰动引起。
CAS号:
性质:指加热壁面被沉浸在无宏观流速的流体表面下所发生的沸腾。这时从加热表面产生的气泡能脱离表面自由浮升。池沸腾时,液体的运动只是由自然对流和气泡扰动引起。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条