分析了作者设计的新型催化-分离脱氢膜反应器的氢传递过程原理。
The principle of hydrogen transfer in catalysis-separation dehydrogenation membrane reactor designed by the authors is analyzed in detail.
阐明用运动可靠度描述机构动态精度、误差传递过程及对产品实现经济性预计的原理和方法。
Clarify an theory and method using motion reliability for description mechanism motion precision, error impress course and production to come ture economy estimate.
导热是一个不可逆过程,它的优化遵循最小热量传递势容耗散原理。
Heat conduction is an irreversible process, and its optimization follows the least dissipation principle of heat transport potential capacity.
研究了3-3矩阵变换器(MC)基于直接传递函数法控制的原理,推导出了基于直接传递函数调制的矩阵变换器的控制过程。
The principle of 3-3 matrix converter(MC) based on direct transfer function control is studied and the control process of the matrix converter based on this control is deduced.
将场协同原理扩展到经典物理学与近代物理学中,并以实例说明场协同原理是强化能量传递与转换过程的一般原理。
A extension of field synergy principle to classical and modern physics by examples shows that field synergy is a generalized principle for enhancing processes of energy transfer and conversion.
将子结构法和双倒易边界元法联合应用于预测具有三维复杂流存在时管道和消声器的四极参数与传递损失,阐述其基本原理与数值过程。
A substructure method and a dual reciprocity boundary element method (DRBEM) are applied to calculate four-pole parameters and transmission loss of ducts and silencers with complex flow.
利用“三传(动量、能量、质量传递)一反(反应工程)”的原理,建立了固定床加压气化过程的数学模型;
Utilizing principle of momentum transport, energy transport, quality transport and reaction engineering, the mathematical model for coal pressure gasification on fixed bed has been established.
基于流变学原理和质量传递原理的分析,建立了一个能够描述渐变型聚合物光纤(GIPOF)共挤扩散制备过程的数学模型。
Based on an analysis of rheology and mass transport principle, a mathematical model was formulated for describing the co-extrusion and diffusion process of graded index polymer optical fiber (GI POF).
接着对直流无刷电机的基本组成环节、基本工作原理、运行特性和传递函数作了详细的介绍,分析了直流无刷电机的换相过程和PWM信号的分配情况。
Followed, it analyses the course of changing phase and distributing of PWM signal. Based on these facts, we present the sensor solution for BLDC motor, design the hardware system and software system.
从热电池的基本工作原理出发,研究了热电池放电过程中热量的产生、传递、散失变化特征。
According to the basic mechanism of thermal batteries, the heat producing, transfering and releasing during battery discharging were studied.
从热电池的基本工作原理出发,研究了热电池放电过程中热量的产生、传递、散失变化特征。
According to the basic mechanism of thermal batteries, the heat producing, transfering and releasing during battery discharging were studied.
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