1) smoldering temperature
阴燃温度
1.
Case study shows that the smoldering temperature increases with the increase of airflow.
结果表明:随着空气流量的增大,阴燃温度是不断上升的,但由于受到反向空气风流的影响,阴燃温度的增长幅度是逐渐变小的;阴燃传播速度却呈现出先增大后减小直至熄灭的变化趋势;在气体流量为零的情况下,燃料仍然可以发生阴燃,而维持阴燃不断传播所需要的氧气量源于反应区域周围气体的扩散。
2) smoldering velocity
阴燃速度
1.
The effects of airflow velocity are numerically simulated on smoldering velocity and average maximum temperature of smoldering fuel by using the model.
应用该模型模拟了来流速度对阴燃速度及平均最高温度的影响,结果表明:首先阴燃传播速度随着来流速度的增大而增大,当风速为0。
3) cathode temperature
阴极温度
1.
In this paper are discussed the cathode temperature,such as the principles of experiment and the results including the layout,distribution of cathode temperature,its fitting to the lamp and the ballast,etc.
本文讨论了阴极温度分布的实验原理和阴极温度分布的结果以及灯与镇流器的配合等。
2.
Simulation and measurement result indicate that magnetic field influence the beam current of MIG, and the beam current of the MIG depends on the cathode temperature and space charge effect.
模拟和测量结果显示磁场对MIG的束流有影响,MIG的束流也与阴极温度和空间电荷效应有关系。
4) combustion temperature
燃烧温度
1.
The effects of nitrogen purity and pressure,combustion temperature,diluents content and the porosity were studied during the process.
研究结果表明:只要控制反应中的工艺参数,就可以采用自蔓燃得到不同相含量的Si3N4粉体;考虑到燃烧温度(Tcom),在氮化硅粉体的合成过程中,涉及到3个反应机制:低温机制,中温机制,高温机制;氮气压力下硅粉的自蔓燃合成反应,必须要引入Si3N4稀释剂,来控制反应温度和反应速度,获得不同相含量的粉体;NH4Cl在反应中分解,为反应提供了NH3,并与硅粉反应;压坯气孔率控制在30%~70%,否则反应不能进行。
2.
The influence of pressure, diameter and preheating temperature of green-pellet on combustion temperature (T_c) during preparing Al-Ti-C master alloy and the microstructure of synthesized product has been investigated.
采用自蔓延高温合成(SHS)技术制备出了一种用于铝及铝合金晶粒细化的AI-Ti-C中间合金,并研究了压坯密度、压坯直径、预热温度对自蔓延高温合成Al-Ti-C中间合金时的燃烧温度及微观组织结构的影响。
3.
The effect of CaO/MgO ratios on the efficiency of sulfur fixation was studied under the different combustion temperatures and the quantities of the sulfur-fixing agents.
通过对不同燃烧温度和固硫剂添加量下CaO/MgO之比与固硫率之间关系的研究发现,燃烧温度相同而CaO/MgO之比不同时,固硫率不同;燃烧温度不同时,最佳CaO/MgO之比也不同,而且随温度升高而向CaO增多、MgO减少的方向变化。
5) burning temperature
燃烧温度
1.
Influence of cigarette smoking parameters on burning temperature and delivery levels of smoke constituents;
抽吸参数对卷烟燃烧温度及主流烟气中某些化学成分的影响
2.
With action of catalyst it increases burning temperature, decreases energy consumption.
由于催化剂的作用,这种火盖可提高燃烧温度、降低 能耗、改善燃烧废气带来的环境污染。
3.
The burning temperature and explosive pressure of thirteen kinds of hydrocarbon gases was computed under various original conditions.
对于压力容器内的烃类气体与空气的混合物,按球面逐层绝热燃烧模型,编制了电算程序DU TGB1,在不同初始条件下计算了13种烃类气体的燃烧温度与爆炸压力,用本文实验值及文献值与之比较,燃烧温度的计算偏差为11。
6) light-off temperature
起燃温度
1.
Under simulated exhaust conditions,the catalytic activity is evaluated by using the light-off temperature(the temperature of 50% conversion simplified as T_(50)) and the temperature of 90% conversion(T_(90)) for the three pollutants CO、HC and NO_x.
在模拟条件下,以起燃温度和气体转化效率90%时的温度为评价指标测定HC、CO及NOx的三效催化活性。
2.
La_(1-x)Ce_xFe_(1-y-n)Co_yRu_nO_3 were prepared by the sol-gel method to study the catalytic activity and evaluated by using the light-off temperature (the temperature of 50% conversion simplified as T_(50)) and the temperature of 90% conversion (T_(90)) under simulated exhaust conditions for the three pollutants CO? HC and NO_X.
为研究Ru改性的铁基钙钛矿体系的催化性能,用溶胶-凝胶法分别制备了不同x、y、n值的La1-xCexFe1-y-nCoyRunO3系列化合物,在模拟条件下,以起燃温度和气体转化效率为90%时的温度为评价指标测定了HC、CO及NOX的三效催化活性。
3.
The results showed that the catalysts containing Ce xZr 1-xO 2 solid solutions have higher conversion as well as lower light-off temperature compared with that containing pure CeO 2.
4 O2 催化剂性能最佳 ,HC、CO、NO的转化率在A/F =14 6时分别为 97 33%、89 5 2 %、10 0 %;新鲜催化剂的起燃温度分别为 186、180、185℃ ,高温处理后起燃温度分别为 2 49、2 41、2 46℃。
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
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