真实流体和复杂模型流体的相行为对化工过程设计和研究具有重要的意义。
Phase transitions of real and model complex fluids are of significant scientific and technological interest.
准确求取流体的真实流动速度是确定油水各相分层流量及产液剖面测井解释的关键。
Accurately deriving the true liquid flow velocity is the key for determining the stratification flow rate of oil and water and logging interpretation of liquid producing profile.
实验在工程流体力学教学中有着非常重要的作用,但由于条件限制,传统的真实实验常存在一些弊端和局限性。
Experiment has a very important role in the teaching of engineering fluid mechanics, but because of the condition limitations, traditional real experiment often has some drawbacks and limitations.
在现有的有关聚合物流变学的教科书或辅导书中,对非牛顿流体中“真实黏度”的概念解释不清,部分内容计算上有误。
In some common textbooks or reference books concerning on polymer rheology, the concept of true viscosity of non-Newtonian fluid is explained unclear, and parts of the calculation results are wrong.
基于流体动力学方程的行车时间估计模型不能很好地反映真实的行车时间,需要对其进行一定的改进。
The travel time estimation model based on the dynamic fluid equation can not reflect the actual travel time well, which needs to make certain improvement.
考虑地层水蒸发的高温高压气藏P-T相图更能真实反映地层流体的实际相态特征。
The P-T phase diagram of HT/HP gas reservoir considering formation water evaporation can reflect the real phase behavior characteristics well.
用计算机真实地再现水、云、烟为代表的流体在自然界中的运动过程和运动规律,即流体模拟是计算机图形学中的一个重要研究领域。
Building animation tools for fluid motions by computer on many natural phenomena such as water, cloud and smoke, which is one of the most important problems in computer graphics.
用计算机真实地再现水、云、烟为代表的流体在自然界中的运动过程和运动规律,即流体模拟是计算机图形学中的一个重要研究领域。
Building animation tools for fluid motions by computer on many natural phenomena such as water, cloud and smoke, which is one of the most important problems in computer graphics.
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