The indemnify technique about temperature, pressure of the density is one of the most important research issues in measurement of the discharge.
密度的温度、压力补偿技术是流量检测技术中的重要研究课题之一。
Some cars equipped with high strength discharge headlights HID, the device through its pre designed electrical system generated high voltage arc discharge generated high density light source.
有些汽车装备了高强度放电前大灯hid,该设备通过其预先设计的电子系统产生的高压电弧放电生成高密度光源。
The battery under development has demonstrated excellent performance in terms of energy and power density, efficiency, 500a charge and discharge current, internal resistance and maintenance work.
并表明,开发中的电池在能量和功率密度、效率、500a充电和放电电流、内部电阻和维护等各方面都有极好的性能。
Custom built 5.6kwh lithium-ion polymer for highest capacity per weight (specific energy density) high discharge rate capable of full power takeoff and climb.
定制的5.6千瓦时为每重量的最高容量(比能量密度的锂离子聚合物)高放电率能够充分权力起飞和爬升。
Then, the breakdown characteristics and the de-pendence of discharge current density on time are theoretically calculated in this kind of AC silent discharge.
然后由其解析解计算这种无声放电的着火特性和放电电流密度对时间的依赖关系,并与实验结果相比较。
The discharge of mercury arc is electric discharge phenomena of low pressure gas and the current density is great.
汞弧光放电是一种低气压气体放电现象,放电电流密度大。
By the simulation of discharge evolution in a discharge cell of SSAC-PDP, the space distributions of potential, electrons and ions density with time in a discharge cell are presented.
通过模拟单基板彩色AC - PD P放电单元的工作情形,给出了单元内电位、电子和离子浓度的分布情况。
It has much characteristic such as high temperature, large density of heat discharge and controlled atmosphere, and it supplied a new heat source.
它具有温度高、热流密度大、气氛可控等特点,它为钼的提取及冶炼提供了一个新的的热源。
Lithium ion batteries are attracting more attentions for their superior properties like high voltage, high energy density, high-speed discharge, low self-discharge, low toxicity, etc.
锂离子电池具有比能量高、体积小、质量轻、可高速率放电、自放电率低、循环寿命长、无毒等优异性能而倍受世人青睐。
The distribution in discharge space, time change of electric field intensity, electron and ion density and the current density are calculated.
分别计算和分析了介质阻挡放电中电场、带电粒子浓度以及电流密度在放电空间的分布和随时间的演变过程。
With the micro-discharge array, the glow discharge plasmas with high-pressure and high-current density can be formed to make DC plasma display panel.
它产生的高气压高电流密度辉光放电等离子体能够用来制作平面等离子体显示或光源。
This paper deals with the problems of ionization proportion, ion density and heating work piece on glow discharge.
从理论上研究了辉光放电时的离化率、正离子浓度、工件的加热问题。
Average density and density distribution of electron and resonance Xenon are presented to study the process of discharge.
研究了放电过程中各单元内电子、氙谐振态浓度分布和其平均浓度随时间的变化情况。
Li battery have the good features of small size, high power density, no memory effect, long cycle life, high voltage and low self-discharge.
锂电池具有体积小、能量密度高、无记忆效应、循环寿命高、高电压电池和自放电率低等优点。
With the increment of soil bulk density and water discharge rate, the movement of horizontal wetting front increased and the vertical movement decreased.
土壤质地、滴头流量、土壤密度以及供水方式等因素对于点源入渗有着一定的影响。
The sediment discharge of rivers with cultivated waste land of dry farm, population density are indirect proportion, it with forest cover degree, per capita output of grain are inverse proportion.
河流输少量与旱坡耕地垦殖率、人口密度成正比,与森林覆盖率、人均占有粮食成反比。
The pre-discharge not only eliminates partial wall charges but also increases density of priming particles which help the coplanar-type discharge start at a lower cell voltage.
此“ 先期放电”不但清除了部份的壁电荷还增加空间中带电荷粒子数量并使得其后产生的维持放电可于较低电压时开始。
Plasma in a pulsed discharge in water (PPDW) has the character of high pressure, high density and low temperature, low ionized degree.
水中放电等离子体(PPDW)具有高压、高密度和低温、低电离度的特点,人们对其辐射是否具有黑体辐射的特点一直观点不一。
The experimental results indicate that the relative density increases when improving the discharge voltage, increasing the discharge times and heating up the powder before compaction.
试验结果表明增加放电电压、多次放电、对粉末进行预热,均能提高压坯的平均致密度。
By the simulation of discharge evolution in a discharge cell of SSAC-PDP, the space distributions of potential, electrons and ions density with time in a discharge cell ar...
通过模拟单基板彩色AC - PD P放电单元的工作情形,给出了单元内电位、电子和离子浓度的分布情况。
The discharge power density of fuel cell used by carbon fibre cloth diffusion layer are 2.16 and 6.94 times than that of fuel cells used by carbon paper and carbon film diffusion layers respectively.
不同扩散层所组装的燃料电池最大放电功率密度有较大的差别,碳纤维布扩散层所组装的燃料电池最大放电能量分别是碳纸和碳膜扩散层所组装的燃料电池最大放电能量的2 16倍和6 94倍。
Uses in the electric conductance monitor solution the density change, determined differently circulates under the sufficient electric discharge condition battery capacity.
采用电导监测溶液中浓度的变化,确定不同循环充放电条件下的电池的容量。
The function of optogalvanic density and the discharge current and pumped energy was given.
同时给出了光电流信号强度与灯的放电电流和泵浦能量的关系。
Mainly enhances the active material the packing space, May reduce the battery capacity and the weight, it can obviously promote the battery energy density and the electric discharge power.
主要提高活性物质的填充空间,可以减少电池容量和重量,它能明显地促进电池能量密度和放电功率。
Nutrients in the ponds did not increase with the growth of fish, feeding and discharge, which indicated that the self-cleaning mechanism still support the cultured density.
在养殖周期内密养池塘中的营养物质并没有随鱼的生长、摄食量和排泄量的增加而逐渐增加,说明池塘的自净机制可以支持当前的放养量。
Applied battery charge-discharge instruments and inner resistance instruments positive electrode properties were investigated at different density.
本文研究了正极不同压实密度对电池性能的影响。利用电池充放电设备,内阻仪等测量电池性能。
The results showed that the component contents, particle size distribution, discharge rate obviously affected current density distribution, but less affected the SOC.
结果表明,材料的组分含量、粒度分布、放电倍率对电流密度影响较大,对SOC状态影响较小。
The results showed that the component contents, particle size distribution, discharge rate obviously affected current density distribution, but less affected the SOC.
结果表明,材料的组分含量、粒度分布、放电倍率对电流密度影响较大,对SOC状态影响较小。
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