1) hot site
热端
2) 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。
3) hot end tube
热端管
1.
Experimental study on the effect of the length of hot end tube on the performance of vortex tube;
热端管长度对涡流管性能影响的试验研究
4) hot and cold sides
冷热端
5) terminal temperature difference
传热端差
1.
In the approach, terminal temperature difference is chosen to reflect the fouling state, Neural network modeling is applied to separate the influences of both the fouling and off-design condition on terminal temperature difference.
该方法选取传热端差作为研究对象 ,以神经网络建模技术为基础成功实现冷凝器污脏、工况参数变化对传热端差影响的分离 ,可较准确地实现冷凝器污脏的在线监测。
2.
In the method,terminal temperature difference is chosen to reflect the fouling state,diagonal recurrent neural network is applied to separate the influences of both the fouling and off-design condition on terminal temperature difference.
该方法选取传热端差作为研究对象,运用对角递归神经网络建立变工况端差模型,成功分离出冷凝器污脏对端差的影响,准确实现冷凝器污脏程度的在线监测。
6) hot side temperature
热端温度
1.
One is the relationship between generation performance and hot side temperature,when cold side temperature is kept constant.
对半导体热电堆的发电性能进行了实验研究 ,得出这种半导体热电堆在冷端温度不变的情况下 ,其发电性能与热端温度的关系 ,以及半导体热电堆在热端温度不变的情况下 ,冷端温度对其发电性能的影响 ;发现半导体热电堆作为电源时 ,其内阻对它的性能指标有很大的影响 ,而且内阻随着温度的升高而增大。
参考词条
补充资料:负温度系数热敏电阻陶瓷(见热敏陶瓷)
负温度系数热敏电阻陶瓷(见热敏陶瓷)
thermo-sensitive ceramics with negative temperature coefficient
负温度系数热敏电阻陶瓷thermo一sensitiveeeramies with negative temperature eoeffieient在某一特定温度范围,电阻率随温度的升高而明显减小的热敏陶瓷。简称NTC陶瓷。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。