A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones

A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones

Temperature is one of the most prominent factors affecting production operations, predicting the accurate wellbore-formation temperature in a water-flooding production well is of great importance for multiple applications. In this paper, an improved coupled model of oil–water two-phase flu...

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Main Authors: Guoshu Huang, Huolin Ma, Xiangyun Hu, Jianchao Cai, Jiabin Li, Hongqing Luo, Heping Pan
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Energies
Subjects:
transient coupled heat transfer model
water flooding
two-phase flow
seepage characteristics
wellbore-formation
multiple pay zones
Online Access:https://www.mdpi.com/1996-1073/12/10/1854
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spelling doaj-9a372ce27d234e1887e83f0b936c4dbe2020-11-24T21:30:09ZengMDPI AGEnergies1996-10732019-05-011210185410.3390/en12101854en12101854A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay ZonesGuoshu Huang0Huolin Ma1Xiangyun Hu2Jianchao Cai3Jiabin Li4Hongqing Luo5Heping Pan6Hubei Subsurface Multi-scale Imaging Key Lab, Institute of Geophysics & Geomatics, China University of Geosciences, Hubei, Wuhan 430074, ChinaHubei Subsurface Multi-scale Imaging Key Lab, Institute of Geophysics & Geomatics, China University of Geosciences, Hubei, Wuhan 430074, ChinaHubei Subsurface Multi-scale Imaging Key Lab, Institute of Geophysics & Geomatics, China University of Geosciences, Hubei, Wuhan 430074, ChinaHubei Subsurface Multi-scale Imaging Key Lab, Institute of Geophysics & Geomatics, China University of Geosciences, Hubei, Wuhan 430074, ChinaInstitute of geological survey of Guizhou, Geological & Geophysical development application engineering technology research center, Guizhou, Guiyang 550081, ChinaHubei Subsurface Multi-scale Imaging Key Lab, Institute of Geophysics & Geomatics, China University of Geosciences, Hubei, Wuhan 430074, ChinaHubei Subsurface Multi-scale Imaging Key Lab, Institute of Geophysics & Geomatics, China University of Geosciences, Hubei, Wuhan 430074, ChinaTemperature is one of the most prominent factors affecting production operations, predicting the accurate wellbore-formation temperature in a water-flooding production well is of great importance for multiple applications. In this paper, an improved coupled model of oil–water two-phase fluid flow and heat transfer was developed to investigate the transient temperature behavior for a producing well with multiple pay zones. Firstly, a novel method was derived to simulate the water saturation and the water breakthrough time (WBT) for tubing, which are key monitoring parameters in the process of water flooding. Then, we incorporated water saturation and an equation set for immiscible displacement to calculate the seepage velocity and the pressure of the two-phase fluid in the pay zones. Next, the upward seepage velocity of the tubing fluid change with depth was focused on, and the proper coupled initial and boundary conditions are presented at the interfaces, therewith the implicit finite difference method was used to compute the transient temperature with the input of the seepage characteristics for the reservoirs. Meanwhile, the validity of the proposed model has been verified by the typical model. Finally, a sensitivity analysis delineated that the production rate and the production time had a significant impact on the tubing fluid temperature. The overburden was hotter with a lower volumetric heat capacity or a higher thermal conductivity. In addition, the sensitivity of the porosity and the irreducible water saturation to formation temperature was significantly different before and after the WBT. The coupled model presented herein helps to advance the transient seepage characteristics analysis of pay zones, the precise temperature prediction is very useful for reservoir characterization and production analysis purposes and provides insight for designing the exploitation scheme in deep reservoirs and geothermal resources.https://www.mdpi.com/1996-1073/12/10/1854transient coupled heat transfer modelwater floodingtwo-phase flowseepage characteristicswellbore-formationmultiple pay zones
collection DOAJ
language English
format Article
sources DOAJ
author Guoshu Huang
Huolin Ma
Xiangyun Hu
Jianchao Cai
Jiabin Li
Hongqing Luo
Heping Pan
spellingShingle Guoshu Huang
Huolin Ma
Xiangyun Hu
Jianchao Cai
Jiabin Li
Hongqing Luo
Heping Pan
A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones
Energies
transient coupled heat transfer model
water flooding
two-phase flow
seepage characteristics
wellbore-formation
multiple pay zones
author_facet Guoshu Huang
Huolin Ma
Xiangyun Hu
Jianchao Cai
Jiabin Li
Hongqing Luo
Heping Pan
author_sort Guoshu Huang
title A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones
title_short A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones
title_full A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones
title_fullStr A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones
title_full_unstemmed A Coupled Model of Two-Phase Fluid Flow and Heat Transfer to Transient Temperature Distribution and Seepage Characteristics for Water-Flooding Production Well with Multiple Pay Zones
title_sort coupled model of two-phase fluid flow and heat transfer to transient temperature distribution and seepage characteristics for water-flooding production well with multiple pay zones
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2019-05-01
description Temperature is one of the most prominent factors affecting production operations, predicting the accurate wellbore-formation temperature in a water-flooding production well is of great importance for multiple applications. In this paper, an improved coupled model of oil–water two-phase fluid flow and heat transfer was developed to investigate the transient temperature behavior for a producing well with multiple pay zones. Firstly, a novel method was derived to simulate the water saturation and the water breakthrough time (WBT) for tubing, which are key monitoring parameters in the process of water flooding. Then, we incorporated water saturation and an equation set for immiscible displacement to calculate the seepage velocity and the pressure of the two-phase fluid in the pay zones. Next, the upward seepage velocity of the tubing fluid change with depth was focused on, and the proper coupled initial and boundary conditions are presented at the interfaces, therewith the implicit finite difference method was used to compute the transient temperature with the input of the seepage characteristics for the reservoirs. Meanwhile, the validity of the proposed model has been verified by the typical model. Finally, a sensitivity analysis delineated that the production rate and the production time had a significant impact on the tubing fluid temperature. The overburden was hotter with a lower volumetric heat capacity or a higher thermal conductivity. In addition, the sensitivity of the porosity and the irreducible water saturation to formation temperature was significantly different before and after the WBT. The coupled model presented herein helps to advance the transient seepage characteristics analysis of pay zones, the precise temperature prediction is very useful for reservoir characterization and production analysis purposes and provides insight for designing the exploitation scheme in deep reservoirs and geothermal resources.
topic transient coupled heat transfer model
water flooding
two-phase flow
seepage characteristics
wellbore-formation
multiple pay zones
url https://www.mdpi.com/1996-1073/12/10/1854
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