Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs

N2 injection process is a potential technique to control the water coning behavior in heavy oil reservoirs. In this paper, by using the methods of experiment and numerical simulation, the N2 injection process for controlling the edge water coning behavior is investigated. First, through a visual flu...

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Main Authors: Wei Zheng, Yabin Feng, Xianhong Tan, Renfeng Yang, Huiqing Liu, Haojun Xie, Taichao Wang
Format: Article
Language:English
Published: Frontiers Media S.A. 2022-03-01
Series:Frontiers in Earth Science
Subjects:
Online Access:https://www.frontiersin.org/articles/10.3389/feart.2021.825253/full
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author Wei Zheng
Wei Zheng
Yabin Feng
Xianhong Tan
Xianhong Tan
Renfeng Yang
Renfeng Yang
Huiqing Liu
Haojun Xie
Haojun Xie
Taichao Wang
Taichao Wang
author_facet Wei Zheng
Wei Zheng
Yabin Feng
Xianhong Tan
Xianhong Tan
Renfeng Yang
Renfeng Yang
Huiqing Liu
Haojun Xie
Haojun Xie
Taichao Wang
Taichao Wang
author_sort Wei Zheng
collection DOAJ
description N2 injection process is a potential technique to control the water coning behavior in heavy oil reservoirs. In this paper, by using the methods of experiment and numerical simulation, the N2 injection process for controlling the edge water coning behavior is investigated. First, through a visual fluid flow experimental device, the flow behavior of N2-water in porous media is discussed. Also, the effects of temperature, pressure, and injection rate were studied. Then, based on the experimental results, aiming at an actual edge water heavy oil reservoir, a reservoir simulation model is developed. Thus, the water coning behavior of edge aquifer is systematically studied. Also, two novel indicators are proposed to evaluate the water coning behavior. Then, a series of numerical models are developed to investigate the performance of N2 injection process in edge water heavy oil reservoirs after water coning, and the adaptability and the optimal operation parameters are analyzed. Results indicate that under the effect of porous media, N2 can cut into a series of small gas bubbles. It is a typical dispersed phase and can effectively plug the water coning path. Compared with pressure and injection rate, temperature is a more sensitive factor to affect the plugging performance of N2. From the simulation results, it is observed that the permeability, water/oil ratio, and distance between well and aquifer can significantly affect the performance of water coning behavior. N2 injection process can effectively control the edge water coning and improve the CSS performance. Furthermore, from the simulation results, it is found that the optimal operation parameters for a N2 injection process is that the total N2 injection volume should be higher than 6,000 m3 within one operation cycle and the optimal N2 injection rate should be lower than 700 m3/day. This investigation further clarifies the mechanisms of N2 injection process to control the water coning behavior in heavy oil reservoirs. It can provide a useful reference for the EOR process of the heavy oil reservoirs with edge water.
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spelling doaj.art-62da239a865040488c876ef33228205b2022-12-21T20:04:23ZengFrontiers Media S.A.Frontiers in Earth Science2296-64632022-03-01910.3389/feart.2021.825253825253Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil ReservoirsWei Zheng0Wei Zheng1Yabin Feng2Xianhong Tan3Xianhong Tan4Renfeng Yang5Renfeng Yang6Huiqing Liu7Haojun Xie8Haojun Xie9Taichao Wang10Taichao Wang11State Key Laboratory of Offshore Oil Exploitation, Beijing, ChinaCNOOC Research Institute Co., Ltd., Beijing, ChinaState Key Laboratory of Petroleum Resources and Prospecting, China University of Petroleum, Beijing, ChinaState Key Laboratory of Offshore Oil Exploitation, Beijing, ChinaCNOOC Research Institute Co., Ltd., Beijing, ChinaState Key Laboratory of Offshore Oil Exploitation, Beijing, ChinaCNOOC Research Institute Co., Ltd., Beijing, ChinaState Key Laboratory of Petroleum Resources and Prospecting, China University of Petroleum, Beijing, ChinaState Key Laboratory of Offshore Oil Exploitation, Beijing, ChinaCNOOC Research Institute Co., Ltd., Beijing, ChinaState Key Laboratory of Offshore Oil Exploitation, Beijing, ChinaCNOOC Research Institute Co., Ltd., Beijing, ChinaN2 injection process is a potential technique to control the water coning behavior in heavy oil reservoirs. In this paper, by using the methods of experiment and numerical simulation, the N2 injection process for controlling the edge water coning behavior is investigated. First, through a visual fluid flow experimental device, the flow behavior of N2-water in porous media is discussed. Also, the effects of temperature, pressure, and injection rate were studied. Then, based on the experimental results, aiming at an actual edge water heavy oil reservoir, a reservoir simulation model is developed. Thus, the water coning behavior of edge aquifer is systematically studied. Also, two novel indicators are proposed to evaluate the water coning behavior. Then, a series of numerical models are developed to investigate the performance of N2 injection process in edge water heavy oil reservoirs after water coning, and the adaptability and the optimal operation parameters are analyzed. Results indicate that under the effect of porous media, N2 can cut into a series of small gas bubbles. It is a typical dispersed phase and can effectively plug the water coning path. Compared with pressure and injection rate, temperature is a more sensitive factor to affect the plugging performance of N2. From the simulation results, it is observed that the permeability, water/oil ratio, and distance between well and aquifer can significantly affect the performance of water coning behavior. N2 injection process can effectively control the edge water coning and improve the CSS performance. Furthermore, from the simulation results, it is found that the optimal operation parameters for a N2 injection process is that the total N2 injection volume should be higher than 6,000 m3 within one operation cycle and the optimal N2 injection rate should be lower than 700 m3/day. This investigation further clarifies the mechanisms of N2 injection process to control the water coning behavior in heavy oil reservoirs. It can provide a useful reference for the EOR process of the heavy oil reservoirs with edge water.https://www.frontiersin.org/articles/10.3389/feart.2021.825253/fullheavy oilwater coningN2 injection processedge waternumerical simulation
spellingShingle Wei Zheng
Wei Zheng
Yabin Feng
Xianhong Tan
Xianhong Tan
Renfeng Yang
Renfeng Yang
Huiqing Liu
Haojun Xie
Haojun Xie
Taichao Wang
Taichao Wang
Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs
Frontiers in Earth Science
heavy oil
water coning
N2 injection process
edge water
numerical simulation
title Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs
title_full Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs
title_fullStr Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs
title_full_unstemmed Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs
title_short Feasibility Investigation on the N2 Injection Process to Control Water Coning in Edge Water Heavy Oil Reservoirs
title_sort feasibility investigation on the n2 injection process to control water coning in edge water heavy oil reservoirs
topic heavy oil
water coning
N2 injection process
edge water
numerical simulation
url https://www.frontiersin.org/articles/10.3389/feart.2021.825253/full
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