1) hydrogen separation
H2分离
2) H2 permeation and separation
H2渗透分离
3) H 2 adsorption and dissociation
分子H2的吸附与解离
4) H_2 molecule
H2分子
1.
Based on the potential energy curve of H_2 molecule using Monte Carlo methods,the vibrational terms are determined.
基于Alexander and Coldwell报道的变分Monte Carno计算的势能曲线,计算了H2分子的振转能级。
2.
And the shell model interatomic potential for H is fitted from the electronic structure data of H_2 molecule for example.
提出了通过拟合双原子分子的量子化学从头计算电子结构数据来获得该势函数的方法,并由H2分子的电子结构数据建立了H原子间的电子壳模型势函数。
5) H2 plasma
H2等离子体
1.
The effects of Murakami solution and H2 plasma treatment on the surface morphology and structure of WC-Co alloy have been investigated by using of SEM and XRD.
利用SEM,XRD研究了Murakami溶液和H2等离子体处理对硬质合金表面形貌、物相结构的影响,并对硬质合金工具进行了复合金刚石薄膜涂层,采用压痕法和实际钻削实验检测了金刚石薄膜/基体间的结合力。
6) H_2
H2
1.
The mechanism of reaction between CH_2(singlet state) and Fe(quintet and triplet states) was discussed in detail.
采用密度泛函理论(DFT)中的UB3LYP方法在6-311+G(2d,2p)水平上研究了五重态和三重态的Fe与单重态CH2反应的机理,在UB3LYP结构优化的基础上用耦合簇理论方法UCCSD(T)在相同水平下对各驻点进行了单点能校正。
2.
The separation of H_2-CO gas mixture by pressure swing adsorption (PSA) process was studied.
采用变压吸附法进行H2 CO气体混合物的分离研究。
3.
At a fixed frequency of input voltage,as hydrogen addition(H_2%) increases,both the firing and sustaining voltages change accordingly;and both the voltages minimize at an optimized H_2%.
使用AC-PDP宏放电单元测试了AC-PDP放电单元加入少量H2对Ne-Xe混合气体放电性能的影响。
补充资料:4063m~(3)高炉热风炉分离式热管换热器
4063m~(3)高炉热风炉分离式热管换热器
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