Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir

Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir

Polymer flooding is widely implemented to improve oil recovery since polymer can increase sweep efficiency and smoothen heterogeneous reservoir profile. However, polymer solution is somewhat difficult to be injected due to high viscosity and thus, water slug is recommended to be injected before and...

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Main Authors: Tuncharoen Warut, Srisuriyachai Falan
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Subjects:
Polymer flooding
Polymer Injectivity
Concentration Sorting
Number of Alternative Cycle
Online Access:https://doi.org/10.1051/matecconf/201817104001
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spelling doaj-829942f8097c462a8c1fe20a01a575692021-03-02T10:41:13ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011710400110.1051/matecconf/201817104001matecconf_e3pe2018_04001Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded ReservoirTuncharoen WarutSrisuriyachai FalanPolymer flooding is widely implemented to improve oil recovery since polymer can increase sweep efficiency and smoothen heterogeneous reservoir profile. However, polymer solution is somewhat difficult to be injected due to high viscosity and thus, water slug is recommended to be injected before and during polymer injection in order to increase an ease of injecting this viscous fluid into the wellbore. In this study, numerical simulation is performed to determine the most appropriate operating parameters to maximize oil recovery. The results show that pre-flushed water should be injected until water breakthrough while alternating water slug size should be as low as 5% of polymer slug size. Concentration for each polymer slugs should be kept constant and recommended number of alternative cycles is 2. Combining these operating parameters altogether contributes to oil recovery of 53.69% whereas single-slug polymer flooding provides only 53.04% which is equivalent to 8,000 STB of oil gain.https://doi.org/10.1051/matecconf/201817104001Polymer floodingPolymer InjectivityConcentration SortingNumber of Alternative Cycle
collection DOAJ
language English
format Article
sources DOAJ
author Tuncharoen Warut
Srisuriyachai Falan
spellingShingle Tuncharoen Warut
Srisuriyachai Falan
Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir
MATEC Web of Conferences
Polymer flooding
Polymer Injectivity
Concentration Sorting
Number of Alternative Cycle
author_facet Tuncharoen Warut
Srisuriyachai Falan
author_sort Tuncharoen Warut
title Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir
title_short Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir
title_full Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir
title_fullStr Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir
title_full_unstemmed Evaluation of Polymer Alternating Waterflooding in Multilayered Heterogeneous Waterflooded Reservoir
title_sort evaluation of polymer alternating waterflooding in multilayered heterogeneous waterflooded reservoir
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Polymer flooding is widely implemented to improve oil recovery since polymer can increase sweep efficiency and smoothen heterogeneous reservoir profile. However, polymer solution is somewhat difficult to be injected due to high viscosity and thus, water slug is recommended to be injected before and during polymer injection in order to increase an ease of injecting this viscous fluid into the wellbore. In this study, numerical simulation is performed to determine the most appropriate operating parameters to maximize oil recovery. The results show that pre-flushed water should be injected until water breakthrough while alternating water slug size should be as low as 5% of polymer slug size. Concentration for each polymer slugs should be kept constant and recommended number of alternative cycles is 2. Combining these operating parameters altogether contributes to oil recovery of 53.69% whereas single-slug polymer flooding provides only 53.04% which is equivalent to 8,000 STB of oil gain.
topic Polymer flooding
Polymer Injectivity
Concentration Sorting
Number of Alternative Cycle
url https://doi.org/10.1051/matecconf/201817104001
work_keys_str_mv AT tuncharoenwarut evaluationofpolymeralternatingwaterfloodinginmultilayeredheterogeneouswaterfloodedreservoir
AT srisuriyachaifalan evaluationofpolymeralternatingwaterfloodinginmultilayeredheterogeneouswaterfloodedreservoir
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