模型同时考虑了电化学动力学、水动力学和多组分传递。
The model accounts simultaneously for electrochemical kinetics, hydrodynamics, and multicomponent transport.
另外,本文从电化学动力学的角度,对碱金属热电转换器的电极极化过程及对其特性的影响进行了讨论。
In addition, from the viewpoint of electrochemical kinetics, the electrode polarizing process of AMTEC and its effect on the AMTEC performance were discussed.
文中对用高斯·牛顿法拟合三参数和四参数极化曲线方程序求取电化学动力学参数提出了两种改进方法。
Based on the idea of curve fitting, the nonlinear least squares method (Gauss-Newton method) has been applied to estimate the complex parameters.
显然,该发现和研究对于丰富晶体生长动力学知识及指导利用电化学技术制备晶态薄膜都具有重要意义。
Obviously, these findings will enrich the knowledge of crystal growth dynamics and conduct the experiments of thin film growth by using electrochemical technique.
对不饱和有机酸在铱-铑合金电极上的吸附和电化学还原过程的动力学规律和反应机理进行了系统的研究。
The kinetic law and reaction mechanism or electrochemical reduction and the adsorption of unsaturated organic acid on Ir-Rh alloy electrode were systematically studied.
从动力学角度出发研究了织物电化学染色半染时间与槽电压和温度的关系。
The relationship between the half-dyeing time of electrochemical dyeing of the fabric and the voltage of dye box and temperature is studied from the viewpoint of dynamics.
基于电化学理论和电解质溶液中的吸附理论,建立了包含电解液浓度、氧化电压和温度在内的实验参数动力学模型。
Based on the electrochemical theory and the theory of adsorption in electrolyte solution, a dynamic model is established, which contains the electrolyte concentration, applied voltage and temperature.
随着添加量的增大,复合电极合金的热力学特征、电化学性能以及动力学性能均有显著改善。
With increasing the additive, the thermodynamic characteristics, the electrochemical performances and the kinetic properties of the composite electrode alloy are significantly improved.
焦点将在描述电化学的系统的热力学和动力学的模型化和工程接近计画。
The focus will be on modeling and engineering approximation schemes that describe the thermodynamics and kinetics of electrochemical systems.
研究发现,采用适当的电化学催化剂如过渡金属硫醇盐或导电聚合物能大大加快有机二硫在室温下的反应动力学速度。
Recently, appropriate electrocatalysis such as transition metal thiolate salts, and conducting polymers have been utilized to enhance the REDOX kinetics of this organic disulfide.
对渣相中氧离子迁移的电化学进行了研究,提出具有电化学特征的渣相氧离子流动力学模型此模型能较为全面地解释各种反应现象。
The electrochemistry of oxygen ion transport in slag has been studied and a kinetic model with electrochemical characteristic representing oxygen ion immigration has been worked out.
目的:建立高效液相色谱-电化学检测法测定大鼠血浆中灯盏乙素浓度方法并研究其药代动力学。
Aim: to develop a high performance liquid chromatographic (HPLC) with electrochemical detection method for the determination of scutellarin in rat plasma and to study its pharmacokinetics in rats.
另外,电化学中的磁流体动力学效应也一直是人们所关注的焦点。
On the other hand, the magnetohydrodynamics (MHD) is always the focus in electrochemistry.
针对甲醇电化学氧化过程中观察到的电化学振荡现象,建立了非线性动力学模型并对模型进行了线性稳定性分析和数值模拟。
We establish nonlinear dynamics model, make a linear stability analysis and numerical value simulation for the electrochemical oscillation phenomena observed in experiment.
本文在前人工作的基础上,采用系统动力学及数值模拟方法研究了外控电化学约束下的电极b - Z振荡体系中的动力学行为。
This thesis investigates the dynamical behaviors of electrode B-Z reaction system under external electrochemical constraints by means of systematic-dynamical analysis.
本文制备、优化出了高性能的镍-镓酸镧复合阳极体系,并利用多种电化学技术对电极上的氢氧化反应动力学进行了研究。
In this study, high performance Ni-doped LaGaO3 composite anodes were prepared and optimized, and multiple techniques were applied to study the kinetics of hydrogen oxidation over the electrodes.
本文在前三章中主要介绍了腐蚀的基本知识和基础理论,如金属电化学腐蚀的热力学原理和动力学原理。
Chapters in this paper is mainly about the corrosion of the basic knowledge and basic theory, metal electrochemical corrosion of thermodynamic principles and dynamics.
采用线性电位扫描和电化学交流阻抗等电化学测量技术 ,对高深宽比掩膜条件下微电铸镍的电极反应动力学过程进行了初步研究。
The kinetics of the electrode reaction is preliminarily studied by linear potential sweep technique and electrochemical impedance while electrodepositing Ni for high aspect ratio structures.
采用线性电位扫描和电化学交流阻抗等电化学测量技术 ,对高深宽比掩膜条件下微电铸镍的电极反应动力学过程进行了初步研究。
The kinetics of the electrode reaction is preliminarily studied by linear potential sweep technique and electrochemical impedance while electrodepositing Ni for high aspect ratio structures.
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