充放电效率的英文

• charge discharge efficiency
• charge-discharge efficiency

• "充放电"英文翻译    charge-discharge
• "效率"英文翻译    productiveness; efficiency; ...
• "充放电" 英文翻译 :    charge-discharge◇充放电 (电)键 charge and discharge key; 充放电开关 charge and discharge switch; 充放电配电盘 charge and discharge board; 充放电制 charge and discharge system
• "充放电键 充放电钥" 英文翻译 :    chargeanddischargekey
• "电效率" 英文翻译 :    electric efficiency; electrical efficiency; energy efficient
• "充放电板" 英文翻译 :    charge and discharge board; charging-discharging panel of battery
• "充放电机" 英文翻译 :    charge discharge machine
• "充放电键" 英文翻译 :    charging charging and discharging key
• "充放电开关" 英文翻译 :    charge and discharge key
• "充放电盘" 英文翻译 :    charging and discharging board
• "充放电曲线" 英文翻译 :    charging and discharging curve
• "充放电箱" 英文翻译 :    battery charge and discharge box
• "充放电钥" 英文翻译 :    charge and discharge key
• "充放电制" 英文翻译 :    charge and discharge system
• "练习充放电" 英文翻译 :    charge discharge in factory
• "训练充放电" 英文翻译 :    charge discharge in factory
• "充放电配电盘" 英文翻译 :    charge and discharge board
• "电池充放电板" 英文翻译 :    battery charging and discharging panel
• "充放电钥, 灌放电钥" 英文翻译 :    charge and discharge key
• "充电效率" 英文翻译 :    charge efficiency; charging efficiency
• "发电效率" 英文翻译 :    generating efficiency
• "光电效率" 英文翻译 :    photoelectric efficiency; photopeak efficiency
• "机电效率" 英文翻译 :    electromechanical efficiency
• "输电效率" 英文翻译 :    efficiency of transmission; transport current efficiency
• "总电效率" 英文翻译 :    overall electrical efficiency

• The results indicated that the electrochemical reversibility and charge / discharge efficiency on spectral pure graphite electrode are superior to that on the other two , and the possible causes of these differences are presented
  结果表明：其在光谱纯石墨电极上的电化学可逆性、充放电效率最优，处理石墨上次之，而在未处理石墨上的表现不理想。
• The supercapacitor is a new type of electrochemical energy storage devices between rechargeable batteries and traditional electrostatic capacitors , and it has high power density , high charge / discharge efficiency and long cycle life
  超大容量电赝电容器是一种性能介于电池和传统静电电容器之间的新概念高功率储能器件，具有功率密度大、充放电效率高、循环寿命长等特点。
• It was found that the defects were formed and the conductivity increased with the addition of co , which improved the diffusion of proton and inhabited the formation of y - niooh . the electrochemical capacity of the electrode with cobalt additives changed slightly after 206 cycles . the electrode can exhibit excellent high - rate discharge performance , the capacity discharged at 6c ( 1800ma / g ) can reach to 77 . 7 % of which discharged at 1c condition
  在纳米ni ( oh ) _ 2电极中加入钴和锌添加剂，并全面地分析了它们对电极性能的影响，发现加入钴添加剂后增强了电极的导电性，形成杂质缺陷，更有利于质子的出入，同时抑制- niooh的形成，提高充放电效率和循环稳定性，电极在经过206个循环后变化甚小；电极的倍率放电性能相当出色，在1800ma g ( 6c )的大电流放电条件下，依然能放出1c的77 . 7 ；在钴的添加方式中，以co和coo混合添加的效果最佳。
• The charge and discharge performances of different composites were studied by the charge and discharge ; the structures of composites were characterized by sem ; the electrochemical properties of sulfur positive materials were characterized by cyclic voltammetry and eis . we studied the charge process , discharge process , charge - discharge efficiency , self heat , and self - discharge of lithium - sulfur system on system shuttle constant , conduct the mechanism of these processes and simply analyse them
  以充放电技术研究了不同类别复合正极的充放电性能;以扫描电镜技术观测了复合正极的表面形貌;以循环伏安技术和交流阻抗技术研究了复合正极电极的电化学性能;并初步探讨了锂-硫电池体系中充电过程、放电过程、充放电效率、自热和自放电等对体系飞梭常数的影响,推导了这些过程的机理并简要的进行了分析。
• The blended gel type batteries show properties as good as the liquid type : discharge capacity of 128mah / g and efficiency of 83 % during the first cycle , 91 % of the initial discharge capacity at 50th cycle upon the repeated charge / discharge at c / 3 rate , and releases discharge capacity of 105mah / g at 2c rate ( 86 % of discharge capacity at c / 5 rate )
  共混聚合物锂离子电池具有与液态锂离子电池相当的电化学性能：首次放电容量为128mah / g ，首次充放电效率为83 。第五十次循环( c / 3 )的放电容量为首次的91 ， 2c倍率放电容量105mah / g为c / 5倍率的86 。
• As the temperature of pyrolysis and the soak time increasing , the carbon materials become more stacked , the specific surface area reduces , both reversible capacity and irreversible capacity decrease , the initial coulumbic efficiency increases , and the hysteresis in the voltage profile between charge and discharge is cut down
  随着热处理温度的升高和恒温时间的延长，所得炭材料的有序化程度增加，比表面积减小，可逆嵌锂容量与不可逆容量均减小，首次充放电效率增大，电压滞后现象得到抑制。
• The liquid li - ion batteries show discharge capacity ( based on cathode active material ) of 127mah / g and efficiency of 81 % during the first cycle , maintain 90 % of the initial discharge capacity at 50 cycle upon the repeated charge / discharge at c / 3 rate , and release discharge capacity of 118mah / g at 2c rate ( 94 % of discharge capacity at c / 5 rate )
  液态锂离子电池首次放电容量(根据正极活性物质计算)为127mah / g ，充放电效率为81 。第五十次循环( c / 3 )的放电容量为首次放电容量的90 ， 2c倍串放电容量118mah / g为c / 5倍率的94 。
• It shows that the charge - discharge performance of the battery , which is fabricated by casting the polymer electrolytes on the surface of the cathode directly then impregnating the composite electrode in liquid electrolytes for seconds , is much better than that of other batteries . the best battery ， s charge - discharge current density is as high as 0 . 33 ma / cm2 , and its specific energy accesses to 110ah / kg . moreover its capacity remains 80 % of initial capacity even after 20 cycles
  这种电池的充放电电流密度可达到0 . 33ma / cm2 ,比容量可达110ah / kg ,且在20次循环后,电池的容量仍能保持初始容量的80 % ，电池的充放电效率达到85 %以上，但是电池的本体电阻和电化学极化电阻比液态锂离子电池高两个数量级。
• Based on summarizing the actual research status , developing prospects , and the characteristic of different ways in preparation for silicon based composite , three ways were chosen , which was pyrolysis for si - phenolic resin prolyzed carbon material , using different catalyzer to prepare for si - o network coated silicon and carbon complex composite , easily chemical and deoxidizing reaction for super tiny metals mixed silicon and carbon complescomposite
  通过高温热解法制备了硅-酚醛树脂( pf , phenolicresin )热解碳材料。在700的条件下制备了硅-酚醛树脂热解碳材料,发现si和热解碳的质量比为3 : 7时材料具有最优异的性能,首次脱嵌容量为394 . 7mah ? g ~ ( - 1 ) ,充放电效率为50 % 。