The ozonized reaction processes of star anise oil and Cinnamonic oil were controlled by reaction, and were influenced less by mass transfer.
八角茴香油和肉桂油的臭氧化反应过程受反应控制,传质的影响很小;
In it often accompany heat transfer, mass transfer, chemical reaction and phase change. Mutual interactions of mass, momentum, energy and heat among different phases are very complicated.
气粒多相流动中往往伴随着传热传质、化学反应、相变等,相与相间的质量、动量、能量和热的相互作用十分复杂。
Surface tension, one of the key influence factors to the mass transfer and reaction of multiphase system, is an important physical property of liquid.
表面张力是影响多相体系的相间传质和反应的关键因素之一,是重要的液体物理性质。
The model of SO2 absorption in the impinge stream scrubber is established based on unsteady state mass transfer reaction theory.
针对新型的液柱冲击塔,用非稳态传质反应理论建立了塔内so_2吸收过程的物理和数学模型。
The model includes reaction rate equations, gas-liquid equilibrium and gas-liquid mass transfer equations, so that the simulation gives close results to the commercial practice.
数学模型中包括了反应动力学方程、气液平衡和气液传质方程,使模拟结果接近于工厂实践。
It was clear from the experiment that the coking mechanism in TLE was mass transfer and condensation-surface poly-condensation reaction.
实验表明,轻柴油裂解时,TLE结焦机理为传质、冷凝-表面缩聚反应机理。
Excellent solubility and mass transfer of supercritical fluids improve greatly molecular fluidity, and enhance hydrogen transfer and engaging in free radical reaction.
自由基重组、自由基歧化。超临界流体优异的溶解能力和传质性能,增强了分子的流动性,提高了氢原子自由转移并参加自由基反应的能力。
Chemical reaction of co is a gas-solid catalytic reaction in catalytic converter. The mass transfer course of co in honeycomb holes has very important effects on co conversion ratio.
催化转化器中CO化学反应属于气固非均相催化反应,在载体蜂窝孔内CO向催化剂固体表面的质量传输过程对CO的转化率有着重要影响。
While if the system was in a state between steady and transient, the whole reaction was controlled by the combination of charge transfer and mass transfer.
而当体系介于稳态和暂态之间时,则为传质和传荷的混合控制。
Through studying the heat-mass transfer and multi-spices electric-chemical reaction, a steady temperature model was developed for molten-carbonate fuel cell stack.
通过研究熔融碳酸盐燃料电池的传热传质和电化学反应机理,根据质能守恒原理建立了电堆的稳态温度模型。
A solid phase and a liquid phase are efficiently mixed in the reactor in order to enhance the heat and mass transfer efficiency during the reaction.
在反应器中固液两相进行高效的混合,强化反应过程的传热和传质效率。
A solid phase and a liquid phase are efficiently mixed in the reactor in order to enhance the heat and mass transfer efficiency during the reaction.
在反应器中固液两相进行高效的混合,强化反应过程的传热和传质效率。
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