1)  pseudo-pressure
拟压
2)  pseudopressure
拟压力
1.
The pseudopressure product in the equation of two phase fluid index of the oil and gas condensate was divided into the product of the two integral functions, one product function related to the physics properties of the high pressur.
提出将凝析油气两相指数式方程中的拟压力积分分解为两个积分函数之积,一个积分函数与流体高压物性有关,另一个积分函数与流体的有效渗透率有关。
2.
The model is solved by using pseudopressure.
利用拟压力采用非稳态方法求解气藏水平井的产能模型,预测了裸眼完井、射孔完井和压裂完井的水平井气井产能,分析了影响产能的因素,并将其与直井压裂的产能进行了对比。
3.
According to the superposition principle, the formula of dimensionless pseudopressure is derived,the new comprehensive interpreting typical curve is developed, and its character is discussed.
根据叠加原理,得到了测压周期的无量纲拟压力表达式,研制了新型综合解释典型曲线,讨论了典型曲线特征。
3)  pseudo-pressure
拟压力
1.
The application of the pseudo-pressure was quoted in the deformed media reservoir; furthermore, the permeability modulus definition was used.
拟压力应用到变形介质中,引入渗透率变异系数,推导了考虑渗透率影响的产量公式。
2.
The pseudo-pressure productivity equation can be used to reliably predict the individual well productivity and producing pressure drop, and the average.
以克拉 2气田现有产能测试资料为基础 ,分别确定了各次测试的拟压力和压力平方法无阻流量 ,根据无阻流量与地层系数的关系 ,建立了普遍适用于该气田主力产气层的典型二项式产能方程。
3.
Based on the material balance equation of the constant-volume gas reservoirs,the relationship between the formation pressure and deviation factor and the relation curve between the formation pressure and pseudo-pressure under the condition of constant formation temperature are obtained by Z-factor calculation s.
依据定容性封闭气藏物质平衡方程,在已知天然气密度、原始地层压力和地层温度等条件下,通过偏差因子软件计算得到地层温度恒定条件下地层压力与偏差因子的关系以及地层压力与气藏的拟压力之间的关系曲线,利用累积产量数据得到计算任意时刻气藏地层压力的新方法。
4)  pseudopressure method
拟压力法
1.
In this paper, the experience method, gas phase pseudopressure method, B-W method, oil reservoir integration method and approximation method for analysing gas condensate well testing are emphatical- ly described, and their characters, correctness and application scope are also compared.
着重介绍经验修正法、气相拟压力法、B-W方法、油藏积分法和近似法等,并比较了它们各自的特点、正确性及适用范围。
5)  pseudo-compressibility
拟压缩
1.
In the first topic,we mention that:(1) the incompressible N-S equations are solved with the method of pseudo-compressibility,and the implici.
采用拟压缩方法求解了不可压缩N-S方程,时间推进上采用隐式的LU-SGS方法,空间上采用R oger的五阶迎风格式。
6)  pseudo compressibility
拟压缩性
1.
We use a pseudo compressibility method to simulate the hovering flowfield of micro-rotor.
通过求解拟压缩性修正后的Eu ler方程成功地模拟了悬停时微型直升机旋翼的绕流。
2.
With introduction of pseudo compressibility,the pressure field is coupled up with the velocity field.
通过求解拟压缩性修正后的Euler方程成功地模拟了悬停时微型直升机旋翼的绕流。
3.
Pseudo compressibility is added to the continuity equation coupling up velocity and pressure.
本文通过求解拟压缩性修正后的三维不可压欧拉方程数值模拟了悬停状态时的微型直升机旋翼的流场。
参考词条
补充资料:冲击波超压与动压

[解释]:  核爆炸产生的高温、高压火球膨胀,在周围介质中形成连续向外传播的压力脉冲(或冲击波),冲击波阵面传播到空间某点时,超过周围环境大器的压力称超压;空气粒子高速随波阵面运动产生的冲击压力称动压。超压和动压都以帕斯卡(Pa)为主单位。超压随时间的变化取决于爆炸威力、距爆点的距离和爆心周围的介质情况。特定地点的峰值超压一般出现在冲击波阵面到达该点的瞬间,超压在该点的持续时间称为正压作用时间。尔后,该点的压力下降到低于周围压力,称为负压,再逐渐回升到周围压力值。对人员的直接冲击伤,超压为20—29千帕可引器轻度伤;29—59千帕可导致中度伤;59—98千帕可造成重度伤;大于98千帕可造成极重度伤。动压为10—20千帕可造成中度伤;20—39千帕可造成重度伤;大于39千帕可造成极重度伤。动压的推动、抛掷和超压的挤压会造成物体变形和毁坏。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。