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1)  temperature jump
温度跃变
2)  jump temperature
温度跳跃
1.
First order slip velocity and jump temperature boundary conditions are employed to deter- mine the developing flow and heat transfer in the entrance region of a microtube.
对微圆管进口区运用一阶速度滑移和温度跳跃边界,考察了Kn、动量调和及热调和系数对流动与换热特性的影响机理和规律。
3)  temperature jump
温度跳跃
1.
Based on the energy and heat conductivity equations,an expression considering slip flow and temperature jump for fully developed temperature distribution of circular microchannel is achieved by means of the counter solution.
基于圆形微通道的能量守恒及热传导方程,在考虑速度滑移和温度跳跃的情况下,利用逆解法得到了一个热充分发展的温度场计算式。
2.
This article present the theoretical analysis of gas flow and heat transfer in micro rectangular channels in the regime of velocity slip and temperature jump.
分析了微矩形槽道内的不可压缩气体在速度滑移和温度跳跃区的流动和传热过程。
3.
A method for resolving the energy equation of the circular microchannel,which considers axial heat conduction,temperature jump,velocity slip and thermal entrance is presented.
提出了一种考虑轴向热传导、速度滑移、温度跳跃和入口效应情况下圆形微通道能量方程的求解方法。
4)  temperature jump
温度阶跃
1.
In order to capture the velocity slip and temperature jump at wall boundary,a novel treatment scheme is presented on the basis of the macroscale variables directly.
为了获得壁面边界的速度滑移和温度阶跃,在含有粘性热耗散的热格子模型的基础上,提出了一种新的直接基于宏观量的边界处理格式。
5)  Thermocline [英]['θə:məklain]  [美]['θɝmə,klaɪn]
温度跃层
1.
The General Distribution Characteristics of Thermocline of China Sea;
中国海温度跃层分布特征概况
2.
Statistical Analysis Ocean Thermocline on the South China Sea;
南海海洋温度跃层统计分析
3.
Based on temperature profile data of Argo floats during 2002-2007,thermocline characteristic parameters are estimated,and thermocline classification is determined.
基于2002年至2007年Argo浮标温度剖面资料,计算温度跃层特征参数,判定跃层的类型。
6)  catastrophe region of the non dimensional temperature
无量纲温度值跃变区
补充资料:温度跃变
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性质:温度跃变装置及反光吸收测量用圆柱形温度跃变样品池的横截面。样品池材料通常为耐热有机玻璃或聚三氟氯乙烯聚合体。电极是镀铂的。透镜和锥形小窗是用能经受紫外光的石英制作的。温度扰动是由充电到高压(U0)的电容器产生一强电流I在短时间内通过反应池内的电解质而产生的热效应使温度跃升,反应池由镀铂的电极及检测用的石英窗构成,温度跃变的梯度函数为dT/dt=I2R/ρCpV,T=T0+CU02/2ρCpV[1-exp(-2t/RC)],当C=0.1μF,U0=30kV,R=50Ω(反应池内阻),V=2ml,放电时间t=4μs时,可产生温度跃变为T-T0=5K,为使反应池具有高电导,常在反应液中加入惰性电解质。

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