1) Reaction channel
反应通道
1.
All of the structures of the stationary points on the reaction channels such as reactants,transition states and products have been optimized at B3LYP/6-311G** level; the vibration frequencies and zero-point vibration energy have been also calculated and analyzed to determine the reality of the transition states.
在B3LYP/6-311G**水平上,全参数优化了反应通道上各驻点(反应物、过渡态和产物)的几何构型,计算出了它们的振动频率和零点振动能(ZPVE),并对它们进行了振动分析,以确定过渡态的真实性。
2.
It was found that channel one is the main reaction channe
3种方法计算得到了几个反应通道的反应活化能。
3.
Various possible reaction channels of U atom with CO molecule have been presented based on relevant experimental results.
在有关实验结果的基础上提出了U原子和CO分子的各种可能反应通道,然后采用第一性原理对反应通道上的各物种的几何构型、谐振频率以及总能量进行了计算和研究,计算结果表明,初级和次级反应的稳定产物分别为CUO和(η2-C2)UO2。
2) pathway reaction
通道反应
1.
Linear three-atom molecule CO 2 equilibrium state a nd interaction analytic potential of the pathway reaction of three-atom system have been successfully constructed by using the two-body perturbation potential .
应用两体扰动势 ,成功地构造了线性三原子分子CO2 平衡态及通道反应的三原子体系相互作用解析势 。
3) Multichanel reaction
多通道反应
4) response modality effect
反应通道效应
5) reactor channel
反应堆孔道;反应堆通道
6) microchannel reactor
微通道反应器
1.
The catalytic combustion reaction of hydrogen/air mixture was studied in a microchannel reactor.
实验过程中H2 入口浓度为 3% (mol)~ 15 % (mol) ,结果表明微通道反应器可使处于爆炸极限内的氢氧催化燃烧反应在高空速、低压降、等温及动力学控制区内安全地进行 。
2.
In order to effectively remove the small-quantity CO in hydrogen-rich reformed gas,4Ni-2Ru/ZrO_2 bimetallic catalyst was homogeneously coated on a microchannel reactor,and the method of selective methanation was used to purify CO.
为了有效去除富氢重整气体中少量的CO,将4 Ni-2Ru/ZrO_2双金属催化剂均匀涂布到微通道反应器中,运用CO选择性甲烷化方法来净化CO。
3.
Selective methanation of CO in hydrogen-rich gas was studied in a special microchannel reactor.
利用微通道反应器,对富氢重整气在Ni-Ru/ZrO2催化剂上的CO选择性甲烷化反应进行了研究;考察了反应温度、原料气中CO含量和CO2含量对Ni-Ru/ZrO2催化剂活性的影响,并考察了Ni-Ru/ZrO2催化剂的稳定性。
补充资料:反应素性变态反应
反应素性变态反应
见"I型变态反应"。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条