Title of article
Attenuation of water coning using dual completion technology
Author/Authors
Ould-amer، نويسنده , , Y. and Chikh، نويسنده , , S. and Naji، نويسنده , , H.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
14
From page
109
To page
122
Abstract
Water coning causes a reduction of oil production and an increase of production costs. Dual completion (downhole water sink) is one of the methods adopted to attenuate water coning. This work describes numerical results associated with this completion technique. The water cone shape and water breakthrough time are investigated to define the mechanism and performance of this technical procedure. The numerical results show that dual completion deforms the shape of the cone. For instance, the top of the water–oil interface is shifted away from the well yielding (under high water production rates) oil breakthrough into water perforations. The water breakthrough is proportional to dimensionless density difference and horizontal permeability and inversely proportional to oil production rate, mobility, and anisotropy ratios. High oil production rates yield elevation of water coning height that intercepts oil flow. Paradoxically, high production rate at water sink is not recommended, the improvement of water breakthrough begins when dimensionless density difference is greater than 0.05. The dual completion technique delays water breakthrough time (BT*). In general, the BT* is delayed by two times that of single completion and critical oil rate is augmented compared to single completion.
Keywords
downhole water sink , Breakthrough time , Water coning , Dual completion
Journal title
Journal of Petroleum Science and Engineering
Serial Year
2004
Journal title
Journal of Petroleum Science and Engineering
Record number
2218485
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