摘要
储集层被打开后,由于原地应力平衡被破坏,井孔周围的应力将重新分布。如果储集层胶结强度较低,近井带存在较大范围的塑性区。由于存在塑性区,以及钻井过程中发生钻井液的滤液及固相颗粒侵入,此双重作用导致近井带的渗透率很低,分成具有不同渗透率的3个带(含塑性作用的损害带,塑性带,弹性带)。由于塑性带宽度较大,其渗透率比弹性带小得多,因此在确定射孔深度时应将塑性带考虑在内。进行了近井周围储集层的弹塑性分析,给出了塑性带半径的计算方法,分析了影响塑性带范围的因素,在此基础上指出:射孔的最小深度应包括塑性带宽度。图3参7(段玉廷摘)
The stress around a hole will redistribute after the
formation is drilled. There exists a wide range of plastic zone around hole if
the formation is poorly consolidated. There are three zones around hole, i.e.
damaged zone, plastic zone and elastic zone, with different permeability because
of plastic deformation and fluid invasion, after the hole is drilled. The calculation
of perforation depth should take account of not only damaged zone, but also
plastic zone, because the plastic zone has much lower permeability. The required
minimum perforation depth is obtained on the basis of making the solution of
elastic/plastic equations, and the factors affecting perforation depth are analyzed
thereafter.
出处
《石油勘探与开发》
SCIE
EI
CAS
CSCD
北大核心
1999年第2期105-107,共3页
Petroleum Exploration and Development
关键词
储集层
塑性变形
最小射孔
深度计算
射孔完井
heading: Reservoir, Elastoplasticity, Analysis, Stress field,
Permeability, Perforation, Penetration depth
