1.
density-dependent pressure gradient
与密度相关的压力梯度
2.
There is no pressure gradient through the thickness of the film.
贯穿流体膜厚度无压力梯度。
3.
A Finite Element Pressure Gradient Stabilization for the Compressible Navier-Stokes Equations Based on Local Projections;
可压缩Navier-Stokes方程的压力梯度局部投影有限元法
4.
Effect of starting pressure gradient on the production performance of fractured wells
启动压力梯度对压裂井生产动态影响研究
5.
Many experiments justify that there is a threshold pressure gradient (TPG) in low permeability reservoirs.
试验表明 ,低渗透油藏存在启动压力梯度。
6.
The Analysis of the Effect of Non-parallelism and Pressure Gradient on the Stability of Boundary Layer;
边界层稳定性的非平行性和压力梯度作用研究
7.
Method of Pressure Gradient Estimatiom for Tire Burst Based on Test Data
基于试验数据的车轮爆胎后压力梯度估算方案
8.
Study on Starting Pressure Gradient of Oil and Gas Two-phase Flow in Extra Low Permeability Reservoir
特低渗油藏油气两相启动压力梯度研究(英文)
9.
Variation characteristics of pressure gradient for oil-gas-water three-phase flow in horizontal pipeline
水平管油-气-水三相流压力梯度变化特性
10.
Experiments of discharge coefficient of film cooling holes under adverse pressure gradient
主流逆压力梯度下气膜孔流量系数的实验
11.
The determination of drainage radius for reserviors with a start-up pressure gradient
存在启动压力梯度时储层动用半径的确定
12.
Measurement of Starting Pressure Gradient and Affecting Factors in the Seepage Process of High-Wax Oil
高凝油渗流中启动压力梯度及其影响因素研究
13.
THE PRODUCTIVITY CALCULATION FOR WELL PATTERN OF LOW PERMEABILITY RESERVOIR CONSIDERING THRESHOLD PRESSURE GRADIENT
低渗透油田考虑启动压力梯度计算井网产量
14.
THE METHOD OF CHARACTERIZATION AND PHYSICAL SIMULATION OF TPG FOR ORDINARY HEAVY OIL
普通稠油启动压力梯度表征及物理模拟方法
15.
Calculating the limit injector-producer distance in low permeability pool by with start-up pressure gradient
利用启动压力梯度计算低渗油藏极限注采井距
16.
According to the variation of gradient pressure structure can be divided.
根据地层压力梯度的变化可以划分地层的压力结构。
17.
Effects of Losartan on HVPG in rats with portal hypertension
氯沙坦对肝硬化门静脉高压症大鼠肝静脉压力梯度的影响
18.
The numerical results show that material has large pressure gradient and velocity at the screw edge region and material.
计算结果表明,在螺棱处,在啮合区的物料具有较大的压力梯度和速度梯度;