TY - CONF VL - 1 EP - 534 UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84856631492&partnerID=40&md5=bbb1bf5d6c6b0db1b3685feb42369c1a A1 - El-Khatib, N.A.F. SN - 9781618392633 Y1 - 2011/// KW - Chemical flooding; Density difference; Developed model; Dip angle; Horizontal layers; Injectivity; Log-normal; Mobility control; Mobility ratios; Numerical solution; Oil recoveries; Oil reservoirs; Permeability distribution; Polymer injection; Relative location; Stratified reservoirs; Stratified systems; Variation coefficient; Water breakthrough; Water cuts KW - Oil well flooding; Petroleum reservoir evaluation; Petroleum reservoirs; Water injection; Well flooding KW - Reservoirs (water) TI - The modification of the Dykstra-Parsons method for inclined stratified reservoirs ID - scholars1767 SP - 517 N2 - The Dykstra-Parsons method is used to predict the performance of waterflooding in non-communicating stratified reservoirs. Much interest was shown lately for the application of the method for chemical flooding and in particular for the case of polymer injection used for mobility control. The original method however assumes the layers to be horizontal. Most oil reservoirs exhibit a dip angle with the water being injected in the up dip direction. It is there for important to account for the effect of the inclination on the performance. A modification of the Dykstra-Parsons equations is obtained to account for reservoir inclination. The developed model includes a dimensionless gravity number that accounts for the effect of the dip angle and density difference between the displacing and displaced fluids. The derived equation that governs the relative locations of the displacement fronts in different layers is non linear and include a logarithmic term. Iterative numerical solution is used to obtain the location of the front in the different layers at the time of water breakthrough in successive layers. This solution is used to obtain values for the fractional oil recovery, the water cut, the dimensionless time and the injectivity ratio. Solutions for stratified systems with log normal permeability distribution were obtained and compared with the horizontal systems. The effects of the gravity number, the mobility ratio and the Dykstra-Parsons permeability variation coefficient (V DP) on the performance are investigated. It was found that the gravity (dip angle) enhances the performance in terms of delaying water breakthrough, increasing the fractional oil recovery, and decreasing water cut as compared to horizontal layers. This occurs for both favorable and unfavorable mobility ratios but is more evident in unfavoorable mobility ratios and more heterogeneous cases. The results were also compared with the performance of inclined communicating reservoirs with complete crossflowand the communication was found to improve fractional oil recovery for unit and favorable mobility ratios and decrease recovery for unfavorable mobility ratio. Copyright 2011, Society of Petroleum Engineers. N1 - cited By 1; Conference of 17th Middle East Oil and Gas Show and Conference 2011, MEOS 2011 ; Conference Date: 25 September 2011 Through 28 September 2011; Conference Code:88322 AV - none CY - Manama ER -