在微波化学实验研究中,微波化学反应器是系统的核心部分。
The microwave-chemistry reactor is a core part of the microwave chemistry experiment system.
因此矩形槽波导谐振腔微波化学反应器更适合用来甲烷偶联制C2炔。
So microwave chemistry reactor made of rectangular groove guide reactor is more suitable to make methane to C2 alkynes.
介绍了一种适用于微波化学反应器的防爆喷缓冲装置的结构、工作原理和使用方法。
A buffer for protection from bumping in chemical reactions heated with microwave radiation was fabricated and its structure, working principle and method of manipulation were described.
分析表明介质加载时圆形槽波导的模式次序要发生变化,为设计圆形槽波导微波化学反应器提供了依据。
T he result that the presence of dielectric plate inside CGG changes the mode order will be useful for the design of the microwave chemical reactor based on CGG.
在使用波导型微波化学反应器的实验研究中,多数液相化学反应都是在置于波导中心的试管或烧杯中进行。
Most of the liquid chemistry reaction could be put into a tube or a beaker inside the microwave chemistry experiment system.
针对这种缺陷,本论文提出了槽波导谐振腔结构的微波化学反应器,并对槽波导谐振腔微波化学反应器进行了详细分析和优化。
In order to solve these defects, we put forward microwave chemistry reactor made of groove waveguide resonator, and we do a lot of studies.
此外,大部分微波化学反应器都是由家用微波炉改装而成,其功率源工作时不稳定,多个源的功率合成实际上是非相干源的合成。
Further more, most of the chemical reactors are made by domestic microwave ovens, and the power generator is unstable while working, accordingly, the microwave power synthesizing is incoherent.
在高功率和激励器的作用下,矩形槽波导谐振腔微波化学反应器内的甲烷气体在常压下就可以产生微波放电,使甲烷转化成C2炔。
Under the effect of high power and actuator, it can form microwave discharge, and make methane to C2 alkynes in microwave chemistry reactor made of rectangular groove guide reactor under atmospheric.
在高功率和激励器的作用下,矩形槽波导谐振腔微波化学反应器内的甲烷气体在常压下就可以产生微波放电,使甲烷转化成C2炔。
Under the effect of high power and actuator, it can form microwave discharge, and make methane to C2 alkynes in microwave chemistry reactor made of rectangular groove guide reactor under atmospheric.
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