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Integrated deterministic approaches for productivity index of reservoirs depleted by horizontal wells and undergone multiphase flow conditions.
- Source :
- Journal of Natural Gas Science & Engineering; Apr2019, Vol. 64, p152-174, 23p
- Publication Year :
- 2019
-
Abstract
- Abstract This paper introduces new integrated approaches for estimating pseudo-steady state productivity index (PI) and shape factor of oil and gas reservoirs drained by horizontal wells and dominated by multiphase flow conditions. These approaches couple PVT data, relative permeability curves, and pressure distribution models during pseudo-steady state flow (PSS). The objective is eliminating the uncertainties of applying single phase flow models and substantially comprising the realistic parameters that govern multiphase flow conditions. The importance of this study is represented by introducing the impact of multiphase flow (Gas, Oil, Water) to the productivity index and inflow performance relationship of reservoirs depleted by horizontal wellbores. This study is conducted throughout three tasks. The first includes reviewing currently used techniques for calculating pseudo-steady state PI and shape factor of bounded oil and gas reservoirs assuming single phase flow is the dominant flow pattern in the porous media. The second introduces new deterministic models for reservoir mobility and compressibility and new multiphase flow pressure function [ f (P) m p ]. While the third focuses on calculating PI and shape factor of reservoirs depleted by horizontal wellbores and predicting inflow performance relationship (IPR) considering multiphase flow conditions. The outcomes of this study can be summarized as: 1) Developing deterministic models by multi-regression analysis for reservoir mobility and compressibility using PVT data and relative permeability curves. 2) Generating multiphase flow reservoir pressure function [ f (P) m p ] that introduces the impact of multiphase flow conditions to PI model. 3) Applying the new approaches for calculating multiphase flow PI and shape factor and thereafter generating multiphase flow IPR. The study has pointed out: 1) The fact that the PI of constant Sandface flow rate is greater than constant wellbore pressure is confirmed for single and multiphase flow conditions. 2) PI and shape factor are time invariant at late production time and depends only on reservoir geometry and wellbore type. 3) PI of multiphase flow is less than the index of single phase flow while shape factor exhibits higher value for multiphase flow compared to the one for single phase flow. 4) Multiphase flow negatively changes the IPR either by increasing the pressure drop or by declining the flow rate. 5) Most of the deterministic models developed in this study show high accuracy (high R-squared value, R 2 ≥ 90 %) for the changes in fluid properties with reservoir pressure. Highlights • Performance integrated approaches for reservoirs drained by horizontal wells and dominated by multiphase flow conditions. • The approaches couple PVT data, relative permeability curves, and pressure distribution models during pseudo-steady state flow. • New deterministic models for reservoir mobility and compressibility and new multiphase flow pressure function. • New technique for predicting inflow performance relationship (IPR) considering multiphase flow conditions. [ABSTRACT FROM AUTHOR]
Details
- Language :
- English
- ISSN :
- 18755100
- Volume :
- 64
- Database :
- Supplemental Index
- Journal :
- Journal of Natural Gas Science & Engineering
- Publication Type :
- Academic Journal
- Accession number :
- 135076875
- Full Text :
- https://doi.org/10.1016/j.jngse.2019.01.024