计算表明,无限导流水平井压力动态早期受流率分布变化影响,并不出现井筒径向流特征。
The results indicate that infinite-conductivity horizontal well transient pressure is influenced by variable flux, but it doesn't appear early well-bore radial flow characteristic.
压裂水平井的渗流过程较之水平井及垂直裂缝井更复杂,其压力动态特征与水平井存在较大差异。
Flow process of fractured horizontal well is more complicated than horizontal well and vertical fractured well, and its pressure dynamic features have much difference with horizontal well.
尤其是研究了不同含硫饱和度下的压力动态,针对含硫气井试井提出了一种新的试井分析方法。
Especially, studied pressure behavior of different sulfur saturation, gave a new solution for well test explanation of sour gas well.
在此基础上,分析渗透率模量变化对气藏压力和产量的影响,分析应力敏感性高压气藏井流入动态。
Then, the influence of the permeability modulus on the pressure and production of gas reservoirs and the inflow performance of stress-sensitive gas Wells with high pressure are analyzed.
水平井筒内的压力损失对压裂水平井的生产动态有一定的影响;
The pressure loss in horizontal borehole may have certain influences on production performance of fractured horizontal wells.
该方法的正演模拟可以实现井漏动态的预测和计算,反演模拟可以实现地层渗透率和地层压力的求取。
Dynamic prediction and calculation could be established with forward modeling and formation permeability and pressure could be derived with backward modeling.
机采井的压力恢复资料是油井动态分析的重要依据。
The pressure build-up data of an artificially lifted well are the important basis for well performance analysis.
多层油藏的压力动态可能不同于单层油藏,试井分析的基本目的应是评价各分层的渗透率与表皮因子。
A multi layer reservoir may have a pressure behavior different from that of a single layer reservoir, and objective of well test analysis is to obtain individual layer permeability and skin factors.
多层油藏的压力动态可能不同于单层油藏,试井分析的基本目的应是评价各分层的渗透率与表皮因子。
A multi layer reservoir may have a pressure behavior different from that of a single layer reservoir, and objective of well test analysis is to obtain individual layer permeability and skin factors.
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