1) waste heat driven
废热驱动
1.
With the urgent energy demand, the development of combined cooling, heating and power especially the development of waste heat driven absorption chiller is paid much attention.
随着能源使用的日益紧张,各类冷热电联供技术尤其是废热驱动型吸收式制冷机组的性能研究越来越受到关注。
2) exhaust-driven
废气驱动的
3) electrothermal drive
电热驱动
1.
On basis of analyzing the electrothermal drive mechanism of shape memory alloy(SMA) springs,an experiment on a differential joint SMA actuator is completed.
在分析了形状记忆合金(SMA)弹簧电热驱动原理的基础上,对一种差动式关节型SMA驱动器进行了实验研究。
4) thermally driven
热驱动
1.
Effect of different porosity on thermally driven heat transfer in a centrifugal force field;
离心力场下多孔介质的不同孔隙率对热驱动换热影响的研究
2.
Fundamental Study of a New Cooling Technique Based on Thermally Driven Theory;
一种基于热驱动理论的新型冷却技术机理研究
3.
Study effect of different thickness of porous layer on thermally driven heat transfer in a centrifugal force field
离心力场下多孔层的不同厚度对热驱动换热的影响
5) thermal driving
热驱动
1.
In the investigation,the four channels were all heated at one end and cooled at the other,and the thermal driving of fluid is used to accomplish the heat transfer in a high body-force field.
采用数值模拟方法,比较了重力场下4种细微循环通道内的热驱动换热现象。
2.
Numerical simulations are carried out to study the effects of the fluid thermal properties on the heat transfer of thermal driving.
本文利用数值模拟,通过改变流体的密度、黏性系数以及导热系数等热物性参数随温度的变化规律,讨论了不同物性参数对循环小通道内热驱动运动及其换热效果的影响。
3.
A new cooling technique based on thermal driving in high centrifugal field (TDHCF) is developed for gas turbine rotational components, such as turbine blades.
该技术主要利用高彻体力场下微小封闭循环通道内流体的热驱动运动来达到高效换热的目的。
6) thermal drive
热驱动
1.
Heat transfer characteristics of liquid metal thermal drive in rotating closed cyclic small channel;
旋转封闭循环小通道内液态金属热驱动换热特性研究
2.
Stability analysis of thermal drive in porous media in a centrifugal force field
离心力场下多孔介质中热驱动的稳定性分析
3.
The micro electric field sensor was mainly comprised of shielding electrodes, sense electrodes and thermal drive structure, and fabricated using MUMPs surface micromachining process.
提出了一种新型的热驱动微型电场传感器,该微型电场传感器采用MUMPs表面微细加工工艺加工,主要包括屏蔽电极、感应电极和热驱动结构三部分。
补充资料:DSG型废热锅炉
分子式:
CAS号:
性质: 为水平型热交换器,由热交换器和汽包组成,二者用上升管和下降管连接。裂解气走管内,管外充满水,经热交换后,管外产生蒸汽,并夹带部分水沿上升管进入汽包,在汽包内水与水蒸气分离,分离出来的水经下降管返回热交换器的下部。由于在高温高压条件下,管壳式换热器的管板很厚,两侧受热不均,温差很大,热应力也较大,故会导致管板破裂,因此必须在高温介质入口处采取特殊的防护捐施。这种型式的急冷废热锅炉已逐渐淘汰。
CAS号:
性质: 为水平型热交换器,由热交换器和汽包组成,二者用上升管和下降管连接。裂解气走管内,管外充满水,经热交换后,管外产生蒸汽,并夹带部分水沿上升管进入汽包,在汽包内水与水蒸气分离,分离出来的水经下降管返回热交换器的下部。由于在高温高压条件下,管壳式换热器的管板很厚,两侧受热不均,温差很大,热应力也较大,故会导致管板破裂,因此必须在高温介质入口处采取特殊的防护捐施。这种型式的急冷废热锅炉已逐渐淘汰。
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