用地球化学方法进行测井解释不受储层岩石组成及储层流体物理性质的影响。
Log interpretation with geochemistry technique is not affected by reservoir rock composition and formation fluid properties.
测井解释是油气层识别最常用方法,它是依据储层流体物理性质差异解释油气水层。
Log interpretation is the most common method of identifying oil reservoir, gas reservoir and water lay er, its basis being the differences among the physical properties of reservoir fluids.
课题包含利用流体物理学规律,以及物理学和三角学的应用来对血溅形态进行分析。
Topics include the physical laws of fluids and the application of physics and trigonometry to bloodstain pattern analysis.
目的探讨环氧化合物交联牛颈静脉带瓣管道的外观形态,组织稳定性及流体物理性能的特征。
ObjectiveTo investigate the morphologic and mechanical properties of bovine jugular venous con- duit with valves fixed with polyepoxy compound.
本文为实时估计两列波相位差提供了新方法,在流体物理检测、深海采矿船升沉运动位移等的检测中具有良好的作用。
It provides a new method to estimate phase difference for test of characteristic parameters of fluid and measurement of a ship heave in deep-sea mining.
原因是这不过是一个物理规律,描述了流体或者其他介质中粒子的热量传递。
The reason for that is basically physics of how heat is transported between particles in fluid, or actually any medium.
这项研究发布于美国物理学会流体动力学分会的一次学术会议上。
They presented their research at a meeting of the American Physical Society's Division of Fluid Dynamics.
本周,在马里兰州的巴尔的摩(美国一座港市),每年的美国物理学会流体力学分会上,这个团队报告了描述葡萄酒晃动的数学公式。
This week, at the annual meeting of the American Physical Society's Division of Fluid Dynamics in Baltimore, Maryland, the group reported a mathematical formula explaining how wine sloshes.
但在几十年来一直在分子层面看待玻璃的物理学家那里,他们在思考玻璃到底是固体还是仅仅是移动异常缓慢的流体。
But for decades, physicists, who view window glass at the molecular level, have pondered the question of whether or not glass is a solid or merely an extremely slow-moving liquid.
格纳纳德西肯在新泽西州普林斯顿美国地球物理流体动力学实验室工作。他表示:“我们的小组开发气候模型。”
"Our group develops climate models," said Gnanadesikan, of the U.S. Geophysical Fluid Dynamics Laboratory in Princeton New Jersey.
他们在为2010年美国物理学会流体运动画廊而准备的视频中说,皮毛大概有差别。
Perhaps the fur makes a difference, they say in a video intended for the 2010 aps Gallery of Fluid Motion.
粘度是流体的重要物理特性,也是很多液态工业产品的一项重要质量指标。
Viscosity is an important physical property of fluid and a quality index of many liquid industrial products.
这样就形成与物理分析相结合的计算流体力学体系。
In this way the system of computational fluid dynamics combined with physical analysis comes into being.
流体本身既是运动的介质,又是蕴含能量的载体,其物理、化学性质的变化在一定程度上反映了水动力的分布状态。
Fluid itself is a medium of movement as well as richly carrier of energy, its variation of physical and chemical properties is the reflection of distribution of hydrodynamics to some extent.
从传热学角度分析套管温度计测量流体温度的物理模型,并阐述了其测温基本原理。
A physical model for measuring temperature of fluid by thermometer with Metal-tube is analyzed from heat transfer and its basic principle of measurement illustrated.
近年来基于物理的流体模拟成为计算机动画领域的一个研究热点。
In recent years physically based fluid simulation is becoming a hot research issue in computer animation.
本文运用流体地质学方法研究了库车前陆盆地油气运移的物理化学条件。
The physical chemical conditions of oil gas migration in the Kuqa foreland basin were studied with fluid geology method in this paper.
该模式指出,阜山金矿各构造物理化学参量的分布在矿区内是不均匀的,构造作用是控制成矿流体分布与状态的重要因素。
This model indicates that the distribution of each variation is inhomogeneous in the Fushan gold deposit and the tectonic process is the main controlling factor.
不仅破坏了流体的连续性、降低了介质的物理特性,而且引起振动和噪声。
It not only damages flow continuity and reduces medium physical performance, but also induces vibration and noise.
01是大学新生第一学期的物理课,它包括牛顿力学、流体力学和气体动力论。
01is a first-semester freshman physics class in Newtonian mechanics fluid mechanics and kinetic gas theory.
已经使用的物理特性有比如流体模拟粒子系统等等。
This leads to a lot of the scalability of the physics being used for visual effects such as richer particle effects or fluid simulation.
涡轮流量计与旋涡流量计的流量系数随被测流体的物理性质变化而变化。基于这个原因,在流量计投入使用之前,应测取实际的流量系数。
The flow coefficients of Turbine Flow Meter and Votex Flow Meter will vary as the physical characteristics of the measured fluid change.
板片数量由流速流体的物理属性、压降和温度程序决定。
The plate numer is subject to the physical performance of the flow, pressur drop and temperature.
利用物理模型或数学模型按比例复制流体在储层中的流动过程的方法。
The methods of using physical or mathematical models to scale and duplicate the fluid processes in a reservoir.
利用开发地震技术系列,与岩石物理相结合,实现对储集层的定量描述及对储集层内流体的识别。
The other is to make quantitive description of reservoir and recognition of reservoir fluids by using the series of seismic and its combination with petrophysics.
粘度是表征流体性质的一个重要物理量。
粘度是表征流体性质的一个重要物理量。
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