用户可根据性能参数、检测要求,设定调整放电功率。
Users can set adjustable discharge power according to capability parameter and test request.
在相同放电功率下,喷嘴外径增大,NO的氧化率提高;
With the same power of discharge, the bigger the nozzle's OD, the higher the NO oxidation rate.
定量地给出了气体温度与放电功率、热容量流和气流速度的关系式。
A simple expression, which relates the temperature rise to the gas speed, the heat capacity flow rate and THS discharge powe...
定量地给出了气体温度与放电功率、热容量流和气流速度的关系式。
A simple expression, which relates the temperature rise to the gas speed, the heat capacity flow rat...
定量地给出了气体温度与放电功率、热容量流和气流速度的关系式。
A simple expression, which relates the temperature rise to the gas speed, the heat capac...
结果表明,在一定放电功率下,合适的气体配比和气压能产生峰值辐射。
The results show that a maximum radiation is achieved at suitable gas ratio and pressure under a constant input power level.
考察了后聚合时间、放电功率、乳化剂浓度对聚合转化率及特性粘数的影响。
The effects of the postpolymerization time, Plasma powers, plasma duration time and emulsifier concentration on the polymerized conversion and intrinsic viscosity were systematically studied.
精确控制拉锥时间、放电功率、步进量和步进速率可以获得不同的拉锥形状。
Different tapered fibers can be achieved with precise control of arc-discharged time and power, stepped size and velocity.
可根据性能参数检测要求,扳动相应的功率设定开关,任意组合、设定放电功率。
You can combine any of the discharge power according the requirements of performance parameters, setting corresponding power switches.
研究了放电参数(放电时间、氮气压力、放电功率)与远程位置对ACF减重率及吸附性能的影响。
The effects of discharge parameters, such as discharge time, discharge power, discharge distance and nitrogen pressure, on the weight and adsorptive capacity of ACF were studied.
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。
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.
探讨了等离子体处理时间、放电功率、气体压强及接枝单体浓度、接枝反应时间、温度等各因素对接枝率的影响规律。
The influences of the treating time, power, treating pressure of plasma, concentration of monomer, reaction temperature and time on the grafting rate are discussed.
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。
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。
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.
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