1) calorimetric flow sensor
热温差原理
2) differential heat treatment
差温热处理
1.
A set of system of differential heat treatment about composite roll that based on Visual Basic and Windows XP Advanced Server as a platform for the software was presented.
详细介绍了以VisualBasic为开发工具,WindowsXP为开发平台,开发的一套复合轧辊差温热处理温度场模拟系统,其中深入介绍了该系统所包含各模块的功能和实现方法,在本系统中,编程采用事件驱动的方式,数据存取采用硬盘-内存交换方式。
2.
The roller differential heat treatment(DHT)by soft arc,fan shaped arc curtain like,thermal source in which formed by the interact process between arc electric field and alternating magnetic field was introduced.
采用电弧与交变磁场交互作用后形成的柔性电弧 (扇状弧幕 )加热轧辊表面 ,实现了轧辊差温热处理。
3) rapid heating furnace
差温热处理炉
1.
Design and analysis of roll rapid heating furnace system
轧辊差温热处理炉系统设计
4) temperature difference at warm end
热端温差
1.
The temperature difference at warm end of the No2 14000Nm3/h oxygen producing device was large when it was put into production.
分析了2#14000Nm3/h制氧机在投产时存在的板式热端温差大的问题;并利用检修的机会,在板式冷箱内增加了一台主板式换热器以解决换热面积不足的问题。
5) differential heating
差温加热
1.
A mathematical model on the theoretical calculation about temperature zone of a differential heating shaft under radiant condition is set up by analysing the differential equation of conduction and single valued condition; and it's convergence is proved.
通过分析导热过程的微分方程和单值性条件,给出了辐射换热条件下轴类件差温加热时温度场计算模拟的数学模型,并论证了解的收敛性。
6) heat transfer temperature difference
传热温差
1.
Study on heat transfer temperature difference between non-heated staircase and adjacent heated rooms;
非供暖楼梯间与供暖邻室传热温差的研究
2.
Based Stirling ideal refrigeration cycle,the heat transfer temperature differences in the cold end and heat end of Stirling cooler were dealt with dimensionless method.
基于斯特林理想制冷循环,对斯特林制冷机冷热端的传热温差进行无量纲化,分析了传热温差对斯特林制冷系数的影响关系。
3.
With the relationship between the pressure drop and the heat transfer temperature difference in the gas turbine recuperator included,the heat transfer difference can be further recommended as the evaluation criterion instead of the recuperator effectiveness for recuperative gas turbine cycles.
本文考虑了回热器传热温差与流动阻力损失的关系,进一步论证了燃气轮机回热循环的评价准则可采用传热温差代替传统的回热度。
补充资料:水热温差法
分子式:
CAS号:
性质:利用高温高压状态下矿物的溶解度与温度成正比这一现象而进行人工合成晶体的方法。其原理为:当溶液的浓度一定时,在一定的温度和压力条件下,矿物的溶解度也一定(饱和状态)。当温度由t1降成t2时,由于高温高压状态下矿物的溶解度与温度成正比,因此相应地溶解度m2<m1,溶液呈过饱和状态,由结晶学理论可知,将有m1-m2的物质结晶出来。目前此法广泛地运用于水晶、冰洲石、石榴石和萤石等晶体的合成。
CAS号:
性质:利用高温高压状态下矿物的溶解度与温度成正比这一现象而进行人工合成晶体的方法。其原理为:当溶液的浓度一定时,在一定的温度和压力条件下,矿物的溶解度也一定(饱和状态)。当温度由t1降成t2时,由于高温高压状态下矿物的溶解度与温度成正比,因此相应地溶解度m2<m1,溶液呈过饱和状态,由结晶学理论可知,将有m1-m2的物质结晶出来。目前此法广泛地运用于水晶、冰洲石、石榴石和萤石等晶体的合成。
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