1) hot-state test system
热态试验系统
2) thermodynamic experimental systems
热力学试验系统
3) thermal test
热态试验
1.
The campaign of blast furnace is prolonged by using copper staves, and the thermal performance of the staves is determined by thermal test and numerical simulation.
通过热态试验和数值模拟的方法来测试其热态性能。
2.
The thermal test system of cooling stave was designed and established to put up the industrial experiment of the heat transfer for the cast steel cooling stave and ductile iron cooling stave.
设计并建造了冷却壁热态试验系统,对铸钢冷却壁和球墨铸铁冷却壁的换热效果进行了工业模拟试验。
3.
The strain of cold surface and temperature of the stave under high thermal load were measured through thermal test,and the fields of temperature,strain and stress were also calculated through numerical simulation.
通过热态试验测量了高温下冷却壁的温度分布和冷面应变分布,通过数值模拟计算了冷却壁的温度场和应力应变场。
4) hot state test
热态试验
1.
Therefore,hot state tests were carried out,on an internally circulating fluidized bed test rig,using coal as fuel.
因此,在1个内循环流化床燃烧试验台上进行了以煤为燃料的热态试验。
5) hot test
热态试验
1.
The hot test of the copper cooling stave with circular channels was done in the test furnace designed by the authors.
在自行研制的热态试验炉上对圆孔型铜冷却壁进行了热模拟试验。
2.
Simulating the operation conditions of staves of No3 BF at Baosteel,the first experimental furnace in China for hot test of large stave has been establishedThe influence of temperature and velocity of inlet water,gas temperature of BF and heat impact on the temperature distribution of the stave have been studiedThe main cause of stave damage is discusse
模拟宝钢3号高炉冷却壁的实际工作条件,建立了国内第一台大型冷却壁热态试验炉。
3.
The contrast hot test of the copper cooling stave with different cooling channels was done in the hot test whole-scale furnace which is designed by the authors.
在自行设计的1:1热态试验炉上对不同孔型的铜冷却壁进行了热态对比试验,对试验结果作了传热学分析,提出优化铜冷却壁水流通道断面设计的方法,优化后的水流通道可以达到强化传热和减少铜料消耗以及节约冷却水用量的目的。
6) hot test
热态试验,热试验
补充资料:传导暂态和高频骚扰抗扰性试验
传导暂态和高频骚扰抗扰性试验
conducted transient and high frequency disturbance immunity tests
和冲击电流的输出能力。现行试验标准中规定的试脸波形有两组,第一组:开路电压1.2/50娜~短路电流8/20仁s,如图1(a)、(b)所示;第二组:开路电压10/700邵,如图1(c)所示,短路电流波形无规定。第一组适用于工业、民用所有低压设备的电派回路、工业用有可能遭受雷击的户外低压设备的控制和信号电路;第二组适用于与通信线路相连接的设备。┌────┬─┐ │一/ │ │ ├────┼─┼─────────────────────────────────────┐│茄 │ │___一___入 ││ ┌──┼─┼─────────────────────────────────────┤├─┼竭┐│} │ ,││ │亏││ │_T.一 │└─┼─┴┴─┼─────────────────────────────────────┘ │犷!… │ └────┘ 日口Ol┌─────┐ ├料──┐ │ │一/ │ │ ├───┼─┼────┐│._, │日│一孔竺一│├─┬─┼─┤ ││J │/ │ │ │└─┴─┴─┴────┘┌───┐ │BJ │ ├───┤ │万 │ ├───┼───┐│护 │、、 ││ ┌─┼───┤├─┤功│—T一 ││ │ │ │└─┼─┼───┘ │『│ └─┘ 一为如J-0众0.众认 图l浪涌抗扰性试验电压/电流波形(a)开路电压1.2/50衅;(b)短路电流8/20拜s; (e)开路电压10/700拌s 浪涌抗扰性试验的严酷等级如表1所示,表中数值适用于共模试验,差模试验数值减半。严酷等级应根据设备的安装条件选择。(见电滋扰扰性试脸) 快速暂态/脉冲群抗扰性试脸在有些产品标准中也简称为快速暂态干扰试验。试验目的是检验设备对极短暂态脉冲群的抗扰性。
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