增大了放电反应面积,增强了放电性能。
The discharge reaction area is increased and the discharging performance is reinforced.
提示肺迷走神经紧张性传入能加剧窒息膈神经放电反应。
The results demonstrate that the tonic vagal afferent activity can markedly increase the phrenic discharge response to asphyxia.
循环伏安实验表明,掺钛明显改善充放电反应的可逆性。
Cyclic voltammetry experiment shows the titanium dopant obviously improves the reversibility of charge-discharge reaction.
放电管中的催化剂与放电反应器后的催化剂可以相同,也可以不同。
The catalyst in the discharge tube and the catalyst at the back of the discharge reactor can be the same or different.
研制了一套高压脉冲电源和介质阻挡放电反应器,通过在常压下放电产生低温等离子体。
A high pulsed power supply and a dielectric barrier discharge reactor are designed, which produce non thermal plasma under normal atmospheric pressure.
对脉冲电晕法治理甲苯有机废气进行了实验,考察了放电反应器结构及参数对其性能的影响。
Using pulse corona discharge to decompose toluene in air and the structure parameters of corona discharge reactors have been studied and optimized.
当疼痛持续不消时,会造成显著的变化:脊髓神经元变得极度敏感,对微弱的刺激也产生放电反应。
When pain is unremitting, dramatic changes follow: spinal cord neurons become hypersensitive and start firing in response to weak stimuli.
采用新型的旋转电极辉光放电反应器,在常温常压下对辉光等离子体作用下的甲烷转化制C2+烃进行了研究。
The experiments of glow discharge plasma conversion of methane to C2 hydrocarbons were conducted by a novel reactor with rotary electrode at room temperature and atmospheric pressure.
针对富勒烯科学所面临的这些问题,本论文通过在石墨电弧放电反应中引入氯源,进行了一系列的有关氯参与下合成富勒烯的实验,重点考察了氯对富勒烯形成的影响。
In this thesis, a series of experiments involving chlorine were carried out in a graphite arc-discharge reactor and the study focus on the influence of chlorine on the formation of fullerenes.
该病的特点是反复发作——由一群脑细胞突然且通常是短暂过度放电而产生的物理反应。
It is characterized by recurrent seizures - which are physical reactions to sudden, usually brief, excessive electrical discharges in a group of brain cells.
像所有的金属一样,铁原子与其他元素反应,释放电子形成带正电的离子。
Like all metals, these react with other elements by giving up electrons to form positively charged ions.
通过电池暴露在空气中的表面所吸入的氧气在碳孔中进行反应为电池放电。
The oxygen, which will be drawn in through a surface of the battery exposed to air, reacts within the pores of the carbon to discharge the battery.
电视依靠化学反应来存储能量,但需要很长时间来充电和放电。
Batteries rely on chemical reactions to store energy but can take hours to charge and release energy.
本论文通过对反应器结构的改进,成功地研制出了大气压反常辉光放电等离子体化学反应器。
In this dissertation, through some improvements of conventional reactor structure, a new abnormal glow discharge plasma chemical reaction apparatus under atmospheric pressure has been invented.
电池反应所引起的负极金属表面阻抗的增加,是放电容量减小的主要原因。
The main cause of discharge capacity decrease was the impedance of metal surface increased due to cell reaction.
讨论了碱性锌锰电池负极在放电时宏观上的反应顺序:从锌膏靠近正极部位逐渐进行到负极集流体周围。
When zinc electrode discharge in alkaline zinc-manganese dioxide battery, its reaction sequence in macroscopy was from zinc gelled near positive electrode to close to negative current collector.
结果:泳入乙酰胆碱和谷氨酸后,对照组海马神经元单位自发放电频率均显著增多,呈兴奋性反应。
RESULTS: in the control group the frequencies of unit discharges were significantly increased and the main response to Glu or Ach was excitatory.
结论冷热水刺激可引起前庭神经元放电频率的改变,不同神经元的反应各不相同。
Conclusion MVN neuronal discharge rate is affected by caloric stimulation in middle ear, with different responses in different neurons.
目的探索听觉传导通路中听神经和下丘的单位放电记录并对其反应特性进行观察。
Objective to explore a proper recording of the unit discharge in auditory nerve and inferior colliculus for the observation of characteristics of response potential.
氧,(空气)通过电池表面的反应,暴露在空气中的毛孔内的碳,排放电池。
Oxygen drawn in through a surface of the battery exposed to air reacts within the pores of the carbon to discharge the battery.
本文介绍用微电极记录脊髓背角神经元对伤害刺激单位放电的反应及计算机处理方法。
The method that microelectrode is used to record unit discharge of spinal dorsal horn to respond to nocuous stimulus and its computer processing is described.
介绍了内燃机点火技术的研究进展,阐述了内燃机脉冲电晕放电点火新技术所涉及的点火能量、点火效率、燃烧时间和相关化学反应等问题。
The ignition energy, efficiency, burning time and main chemical reactions of the pulsed corona discharge ignition(PCD) used on internal combustion engine are discussed in detail.
对大气压反常辉光放电条件下CH4 -CO2重整制合成气反应过程进行了数值模拟。
The numerical simulation of CO2 reforming with CH4 to synthesis gas was carried out under the condition of atmospheric abnormal glow discharge.
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.
研究了在常温,常压及惰性气体稀释的条件下,用脉冲电晕放电进行的甲烷氧化偶联(OCM)反应。
Oxidative coupling of methane (OCM) at room temperature, under atmospheric pressure and in the absence of inert diluting gas by Pulsedcorona discharges was investigated.
利用介质阻挡放电等离子体研究了水中2,4 -二氯苯酚的降解反应,并对其降解动力学进行了初步探讨。
The degradation behavior of 2, 4-dichlorophenol in water was studied by using dielectric barrier discharge plasma (DBD) and preliminary results of degradation kinetics were obtained.
论述了空心阴极放电时,其内部化学反应生成物的迁移、扩散、蒸发和溅射。
While hollow cathode being discharged, migration, diffusion, evaporation and sputtering of reaction products were analyzed.
研制了用于尾气净化的低温等离子体催化反应器,该反应器由介质阻挡放电型低温等离子发生器和金属蜂窝载体催化剂组成。
Cold plasma-catalytic reactor for exhaust purification was developed, where the reactor was consisted by two parts including dielectric barrier discharge system and metal honeycomb substrate catalyst.
数值计算运用时域有限差分(FDTD)法,数值模拟结果为以后的反应器流光放电模拟及结构优化提供依据。
The procedure is based on a finite difference time domain(FDTD) scheme. The numerical results will offer theoretic reference for streamer discharge simulation or geometry optimization of reactor.
将双极性脉冲高压引入介质阻挡无声反应器,可以高效注入能量,兼有脉冲电晕放电和介质阻挡无声放电的特点。
The silent discharge reactor induced bipolar pulse power-supply can combine advantages of short pulse corona discharge and dielectric barrier discharge as well.
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