本文讨论了确定O_2中真实电离和电附系数的一种新方法。
A new method for determining the real ionization and attachment coefficients in oxygen is presented.
当温度高于650- 700k时,氧脱附显著影响样品的电输运性质,导致电阻率和塞贝克系数随温度增加而增大。
Above 650-700k, oxygen desorption from samples influences the transport behavior obviously and electrical resistivity and Seebeck coefficients increase with the increasing temperature.
测定了有效扩散素数、传质系数、吸附和脱附速率常数、平衡常数和饱和表面浓度。
Effective diffusivities, mass transfer coefficients, adsorption and desorption rate constants, equilibrium constants, saturated surface concentrations have been determined.
考虑了工质对的吸附特性对脱附过程的影响,讨论了肋片数量、肋片物性参数、吸附床的有效导热系数、接触热阻等参数对脱附时间的影响。
With this model, effects of the number and materials of the fin, the effective thermal conductivity of the bed and the contact heat resistance on the performance are studied.
考虑了工质对的吸附特性对脱附过程的影响,讨论了肋片数量、肋片物性参数、吸附床的有效导热系数、接触热阻等参数对脱附时间的影响。
With this model, effects of the number and materials of the fin, the effective thermal conductivity of the bed and the contact heat resistance on the performance are studied.
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