Experimental study on seepage flow patterns in heterogeneous low-permeability reservoirs

• Main Authors: Qiannan Yu, Yikun Liu, Xue Liu, Di Yao, Yang Yu
• Format: Article
• Language: English
• Published: SpringerOpen 2017-05-01
• Series: Journal of Petroleum Exploration and Production Technology
• Subjects: Heterogeneous; Low permeability; Artificial core plate model; Seepage flow pattern; Pressure gradient; Displacement experiments
• Online Access: http://link.springer.com/article/10.1007/s13202-017-0354-y

Abstract Heterogeneous artificial core plate models with low permeability are designed, made and evaluated based on similarity theory of heterogeneous reservoir with low-permeability physical simulation by artificial core plate model; then, simulative experiments for seepage flow patterns can be carried out. Pressure data are obtained by pressure transducers symmetrically arranged in artificial core plate models to study on the seepage flow patterns in heterogeneous reservoirs with low permeability. Experimental results show that the pressure gradient around injection and production points is high, and the pressure gradient of diagonal corner is very low. The distribution of pressure gradient changes as plane heterogeneity of artificial core plate models changes. The higher permeability increases the spread range of pressure, but the enhancement of heterogeneity has a negative effect on pressure transmission at the same time. The effect of permeability is greater than the negative impact of heterogeneous when the overall permeability of plate model is at a very low level. Non-seepage flow section becomes smaller with the increase in permeability, and the proportion of quasi-linear seepage flow section which is more conducive to fluid flow raise as seepage flow section becomes larger.