Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding

Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding

This work presents numerical well testing interpretation model and analysis techniques to evaluate formation by using pressure transient data acquired with logging tools in crossflow double-layer reservoirs by polymer flooding. A well testing model is established based on rheology experiments and by...

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Main Authors: Haiyang Yu, Hui Guo, Youwei He, Hainan Xu, Lei Li, Tiantian Zhang, Bo Xian, Song Du, Shiqing Cheng
Format: Article
Language:English
Published: Hindawi Limited 2014-01-01
Series:The Scientific World Journal
Online Access:http://dx.doi.org/10.1155/2014/890874
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spelling doaj-64f8e00435bd46cfa9dfcc3356bd33922020-11-25T00:12:32ZengHindawi LimitedThe Scientific World Journal2356-61401537-744X2014-01-01201410.1155/2014/890874890874Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer FloodingHaiyang Yu0Hui Guo1Youwei He2Hainan Xu3Lei Li4Tiantian Zhang5Bo Xian6Song Du7Shiqing Cheng8MOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, ChinaMOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, ChinaMOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, ChinaMOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, ChinaMOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, ChinaDepartment of Petroleum Engineering, University of Texas at Austin, Austin, TX 78712, USAResearch Institute of Exploration and Development, PetroChina, Korla 841000, ChinaDepartment of Petroleum Engineering, Texas A&M University, College Station, TX 77843, USAMOE Key Laboratory of Petroleum Engineering, China University of Petroleum, Beijing 102249, ChinaThis work presents numerical well testing interpretation model and analysis techniques to evaluate formation by using pressure transient data acquired with logging tools in crossflow double-layer reservoirs by polymer flooding. A well testing model is established based on rheology experiments and by considering shear, diffusion, convection, inaccessible pore volume (IPV), permeability reduction, wellbore storage effect, and skin factors. The type curves were then developed based on this model, and parameter sensitivity is analyzed. Our research shows that the type curves have five segments with different flow status: (I) wellbore storage section, (II) intermediate flow section (transient section), (III) mid-radial flow section, (IV) crossflow section (from low permeability layer to high permeability layer), and (V) systematic radial flow section. The polymer flooding field tests prove that our model can accurately determine formation parameters in crossflow double-layer reservoirs by polymer flooding. Moreover, formation damage caused by polymer flooding can also be evaluated by comparison of the interpreted permeability with initial layered permeability before polymer flooding. Comparison of the analysis of numerical solution based on flow mechanism with observed polymer flooding field test data highlights the potential for the application of this interpretation method in formation evaluation and enhanced oil recovery (EOR).http://dx.doi.org/10.1155/2014/890874
collection DOAJ
language English
format Article
sources DOAJ
author Haiyang Yu
Hui Guo
Youwei He
Hainan Xu
Lei Li
Tiantian Zhang
Bo Xian
Song Du
Shiqing Cheng
spellingShingle Haiyang Yu
Hui Guo
Youwei He
Hainan Xu
Lei Li
Tiantian Zhang
Bo Xian
Song Du
Shiqing Cheng
Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding
The Scientific World Journal
author_facet Haiyang Yu
Hui Guo
Youwei He
Hainan Xu
Lei Li
Tiantian Zhang
Bo Xian
Song Du
Shiqing Cheng
author_sort Haiyang Yu
title Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding
title_short Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding
title_full Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding
title_fullStr Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding
title_full_unstemmed Numerical Well Testing Interpretation Model and Applications in Crossflow Double-Layer Reservoirs by Polymer Flooding
title_sort numerical well testing interpretation model and applications in crossflow double-layer reservoirs by polymer flooding
publisher Hindawi Limited
series The Scientific World Journal
issn 2356-6140
1537-744X
publishDate 2014-01-01
description This work presents numerical well testing interpretation model and analysis techniques to evaluate formation by using pressure transient data acquired with logging tools in crossflow double-layer reservoirs by polymer flooding. A well testing model is established based on rheology experiments and by considering shear, diffusion, convection, inaccessible pore volume (IPV), permeability reduction, wellbore storage effect, and skin factors. The type curves were then developed based on this model, and parameter sensitivity is analyzed. Our research shows that the type curves have five segments with different flow status: (I) wellbore storage section, (II) intermediate flow section (transient section), (III) mid-radial flow section, (IV) crossflow section (from low permeability layer to high permeability layer), and (V) systematic radial flow section. The polymer flooding field tests prove that our model can accurately determine formation parameters in crossflow double-layer reservoirs by polymer flooding. Moreover, formation damage caused by polymer flooding can also be evaluated by comparison of the interpreted permeability with initial layered permeability before polymer flooding. Comparison of the analysis of numerical solution based on flow mechanism with observed polymer flooding field test data highlights the potential for the application of this interpretation method in formation evaluation and enhanced oil recovery (EOR).
url http://dx.doi.org/10.1155/2014/890874
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