放电电极长度的增加有利于脱硫,但应与功率匹配;
It becomes higher as humidity, power and length of discharge electrode (Le)increase;
介绍了与此有关的大面积均匀场放电电极的设计以及实验研究结果。
The related design of electrode with large area uniform electric field and the experimental results are introduced in this paper.
着重讨论了相对光串扰与驱动电压、放电电极间距、电极宽度之间的关系。
The relation between relative light crosstalk and driving voltage, gap of discharge electrode, width of electrode, as well as the effect to restrain crosstalk with barrier ribs are also discussed.
给出了上述放电电极的面型和表面电场分布,简述了制造上述电极的注意事项。
Profiles and electric-field distribution of these discharge electrodes are plotted and calculated, and their manufacturing notes are briefly described.
通过时间分辨成像研究起辉阶段在放电电极极间间隙的时空演变和发射谱线强度的特征。
The ignition characteristics in terms of spatial-temporal evolution of discharge interelectrode structure and optical emission intensity are investigated by time resolved imaging.
由于本发明的等离子显示面板采用了具有三角形形状的放电电极,从而提高了等离子显示面板的性能。
The triangular discharge electrodes are adopted by the plasma display panel of the invention, thereby improving the performance of the plasma display panel.
通过上述离子化过程会产生气体放电,从而使阻抗降低,放电电极之间就会有大量的电流流动,而产生较强的可视光。
The ionization will realize electric discharge of gas, so as to lower down the resistance, realize large amount of current flow between discharge electrodes and generates stronger visible light.
新型电池的原理和锂离子电池的原理相同,都是通通过在充电电极和放电电极之间移动钠离子或钾离子进行能量的存储和利用。相比较之下,这种电池是非常便宜的。
It relies on the same principle employed in lithium-ion batteries-moving sodium or potassium ions between electrodes during charging and discharging-but does it much more cheaply.
通过在头皮上安放电极,这些都能在脑电图上测量出来。
By placing electrodes on the scalp, these can be measured on the EEG.
正是锂离子进入和脱离电极的速度决定了电池充、放电的速度。
It is the speed with which the ions can enter and leave the electrodes that governs how fast a battery can be charged and discharged.
研究人员发现他们制作的电极充放电速度可以达到现有器件的100倍以上,同时保持同样多的能量。
The researchers found that their electrode can charge and discharge up to 100 times faster than existing devices while holding the same amount of energy.
通过把一个电极植入大脑或安装在它上面,并记录神经元的放电活动,然后通过一种算法,把这个活动翻译成计算机语言。
An electrode is implanted in or sits on top of the brain, and records patterns of neurons firing; this pattern is then translated, via an algorithm, into computer language.
在充满氙气的灯柱中的两个电极之间进行火花放电将产生“电离气体管”,电流通过该管流动,从而导致气体发光。
A spark discharge between two electrodes produces an "ionised gas tube" in the xenon gas-filled lamp piston through which electric current flows which in turn causes the gas to light up.
采用厚电极的铅酸电池可以比采用薄电极的铅酸电池更能容忍这种“深度”的放电,但只能以生产更为沉重的重电池作为代价。
Lead-acid batteries with thicker electrodes can tolerate such "deep" discharges better than those with thin ones, but only at the expense of making a heavy battery even heavier.
使用陶瓷纸作电极的电池也因此能够快速充电,但在高电流密度时同样会快速放电。
Batteries with ceramic paper electrodes could therefore be charged quickly, but also discharged quickly to allow for high current densities.
放电管:装有低压气体的封闭绝缘容器,当电极有足够的电压时,通过它电流就开始流动。
Discharge tube: a closed insulating vessel containing a gas at low pressure through which an electric current flows when sufficient voltage is applied to its electrodes.
由于大脑皮层紧挨着头盖骨,因而在对应大脑特定脑区的头皮上安置电极就能测到活跃着的神经元的放电情况。
Since the cerebral cortex is just under the cranium, electrodes placed on the scalp above the various regions of the brain can detect the electrical activity associated with functioning neurons.
电晕放电:这是一个非热放电产生的应用高电压急剧电极秘诀。
Corona discharge: this is a non-thermal discharge generated by the application of high voltage to sharp electrode tips.
首次确定了接地电极转动对介质阻挡放电的影响。
The effect of the rotating grounding electrode on dielectric barrier discharge is determined.
海洋电火花震源采用两种放电形式和多种电极结构。
The marine electric spark uses two kinds of discharge form and multiple electrode structures.
考察了激光取样、辅助火花放电电压、电极尖端距离等条件变化时对分析结果的影响。
The influence of laser sampling, auxiliary spark discharge voltage, and electrode point gap on analytical results was examined.
薄膜厚度愈大或晶粒度愈大,薄膜电极的放电容量愈低。
The film electrode with bigger grain size or larger thickness had lower capacity.
以锌空气电池气体扩散电极为研究对象,采用分层添加催化剂的方式研究了改变催化层位置对气体扩散电极放电性能的影响。
Take gas diffusion electrode of zinc-air battery for example and add catalyst by layers, we studied the effect of changing catalyst layer location on the performance of gas diffusion electrode.
线电极放电铣削加工是一种新型电火花铣削技术,它的最大优点是可通过线电极的缓慢移动来补偿加工中的电极损耗。
Wire Electrical Discharge Machining Milling (wire EDM-Milling) is a novel kind of EDM-Milling method that has the distinct advantage of electrode compensation via the wire electrode slow traveling.
线电极放电铣削加工是一种新型电火花铣削技术,它的最大优点是可通过线电极的缓慢移动来补偿加工中的电极损耗。
Wire Electrical Discharge Machining Milling (wire EDM-Milling) is a novel kind of EDM-Milling method that has the distinct advantage of electrode compensation via the wire electrode slow traveling.
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