I'd give my kids rusty nails and battery acid.
我只给我的孩子锈钉子和蓄电池酸液。
You might as well drink battery acid he said, the result will be the same stress on your blood pH.
你不如喝酸蓄电池他说,结果将是同样的压力,对你的血液ph值。
Sample tests showed the level of acidity to be similar to the levels of battery acid or stomach acid.
抽样检测表明,酸度水平是类似电池酸或胃酸水平。
Detective Eric Box: If that's water in that tank, pretty soon he's going to be sitting in battery acid.
如果那玻璃缸里面装的是水,很快他就会坐在电池酸液里面。
6 - Police arrested two kids yesterday, one was drinking battery acid, the other was eating fireworks. They charged one - and let the other one off.
警察昨天逮住俩小孩,一个在喝电池液,一个在吃焰火。警察指控(充电)了一个,放了另一个。这个笑话有点冷。类似某电影台词“当我是个屁,把我放了吧”
Simply drop two aspirin tablets into the battery. The acid in the pill will react with the battery acid to provide enough of a charge to start the vehicle.
您只需简单地向电池中投入二片阿斯匹林,药片中的酸会与电池中的酸起反应以提供足够电量来发动汽车。
In the past the procedure was typically performed by a local woman using anything from a razor blade to a piece of broken glass, sometimes even using battery acid to stop the bleeding.
过去,对当地女性进行外生殖器切除的手术的工具无所不包,镭射刀,乃至一片碎玻璃都可以。有时甚至用蓄电池酸液来止血(残忍啊)。
This utility model combines the two kinds of current carriers: the super-capacitor and the plumbic acid battery group.
本实用新型结合了超级电容器和铅酸蓄电池两种电流载体。
The first rechargeable battery, the lead-acid battery, was invented in 1859 by Gaston Planté, a French physicist.
1859年,法国物理学家Gaston Planté发明了可充电电池。
In fact, Dr Cui says, it is so good that it rivals the energy-storage capacity of the familiar lead-acid battery.
实际上,崔博士说,它表现得很出色,其能量存储能力上能与我们所熟悉的铅酸蓄电池相匹敌。
Okay. And let's cover these also up, because this sulfuric acid ugh! So your lead battery in your car works with the same idea, except this is lead oxide and this is lead.
好吧,把这些盖起来,因为这硫酸,你车里的铅蓄电池,也是一样的工作原理,除了这是一氧化铅而这是铅。
Energy: There is life in a 150-year-old battery technology yet, it seems, as venerable lead-acid batteries are given a modern overhaul.
能源:铅酸电池垂垂老矣,但一经现代技术的点拨,这个150年前的电池技术重现生机。
Small floating charge current, less calorific power battery, the electrolyte acid stratification does not occur.
浮充电流小,电池发热量少,电解液不发生酸分层。
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.
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。
The organic expanders are necessary to negative active materials of lead-acid battery.
铅酸蓄电池负极活性物质中的膨胀剂是必不可少的。
The battery system shall consist of lead acid batteries cabinet charger and invertor fabricated of painted carbon steel located off the main skid in a customer provided safe area.
电池系统应由铅酸蓄电池、机柜、充电器和逆变器组成,由涂漆碳钢制得,位于业主提供安全区域内主支座外部。
The stretch method could lower the environmental pollution, save the energy, improve the production efficiency and the performance of the lead-acid battery.
切拉网法可以降低对环境的污染,节省能源,提高生产效率和铅酸电池的性能。
At the same time, the application circuit of12V sealed lead-Acid battery dual-level float charger, which is simple, feasible and stable is produced.
同时给出了一种简单实用、工作稳定且性能可靠的12V密封铅酸电池双电平浮充充电器的实际应用电路。
This vehicle chooses high performance horizon lead-acid battery and the battery box is designed specially.
该车采用高性能水平铅酸电池,并且对电池箱进行了专门设计。
UPS, dc power supply equipment commonly used Germany sunshine is lead-acid battery Germany sunshine storage battery.
直流电源设备常用的德国阳光蓄电池是铅酸德国阳光蓄电池。
Lead-acid and alkaline bettery must not be installed in the same battery room .
酸性蓄电池于碱性蓄电池不应装在同一蓄电池室内。
Valve regulated lead acid (VRLA) battery is applied extensively in substation DC systems as its less maintenance.
阀控式铅酸蓄电池简称VRLA电池,维护量小,在变电站直流系统广泛应用。
The influence of the charge mode on the cycle life of lead acid battery was studied.
研究了充电方式对铅酸蓄电池寿命的影响。
The experimental method to define the largest acceptable charging current (LACC) for maintenance free lead acid battery applied in electric vehicle (EV) was introduced.
提出了在电动汽车实际运行时定义回馈制动中免维护铅酸蓄电池的最大可充电流的实验方法。
Since the actual SOC of lead acid battery is influenced by many factors, such as temperature, cycle of discharge and aging of battery, it is difficult to obtain ideal results by traditional methods.
由于铅酸蓄电池真实的SOC受许多因素如电池温度、充放电次数、电池老化等因素的影响,传统的SOC预测技术很难达到理想的效果。
Since the actual SOC of lead acid battery is influenced by many factors, such as temperature, cycle of discharge and aging of battery, it is difficult to obtain ideal results by traditional methods.
由于铅酸蓄电池真实的SOC受许多因素如电池温度、充放电次数、电池老化等因素的影响,传统的SOC预测技术很难达到理想的效果。
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