EOR Process in Naturally Fracture Reservoir With Simulation Of GAGD And Compare With Natural Depletion And Continuous Gas Injection (in persisch)

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EOR Process in Naturally Fracture Reservoir With Simulation Of GAGD And Compare With Natural Depletion And Continuous Gas Injection (in persisch). / Saadat, Dorsa; Kharrat, Riyaz; Khazali, Alireza.
in: Journal of Exploration & Production Oil & Gas, Jahrgang 172, 15.02.2020, S. 48-55.

Publikationen: Beitrag in FachzeitschriftArtikelForschung

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@article{7ea38bc9f3a8499aa2c3e49034c345d6,
title = "EOR Process in Naturally Fracture Reservoir With Simulation Of GAGD And Compare With Natural Depletion And Continuous Gas Injection (in persisch)",
abstract = "Initially, oil reservoirs have enough energy to produce o in most fields. As time passes and oil production continues, the production rate is reduced and become mostly un-economical. At this time, it is inevitable to supply energy through some Enhanced Oil Recovery) EOR) methods. These methods include water injection, gas injection, foam injection, etc. The use of gas is one of the most common and cost-effective EOR processes for extracting the remaining oil. The gas injection process with gravity enhancement. ) GAGD) might be more suitable for fractured reservoirs. In this paper, the simulation of the GAGD process in an Iranian oil fractured reservoir was carried out using commercial software. The gas injection rate, well injection & production type, and method of injection were also considered. In this process, well perforation and location were also optimized. Based on this study, the highest recovery was obtained with the implementation of GAGAD in comparison to conventional gas injection. ",
keywords = "Fracture Reservoirs, EOR, GAGD, Simulation, Oil Recycling",
author = "Dorsa Saadat and Riyaz Kharrat and Alireza Khazali",
year = "2020",
month = feb,
day = "15",
language = "Other",
volume = "172",
pages = "48--55",
journal = "Journal of Exploration & Production Oil & Gas",
issn = "2538-1652",

}

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TY - JOUR

T1 - EOR Process in Naturally Fracture Reservoir With Simulation Of GAGD And Compare With Natural Depletion And Continuous Gas Injection (in persisch)

AU - Saadat, Dorsa

AU - Kharrat, Riyaz

AU - Khazali, Alireza

PY - 2020/2/15

Y1 - 2020/2/15

N2 - Initially, oil reservoirs have enough energy to produce o in most fields. As time passes and oil production continues, the production rate is reduced and become mostly un-economical. At this time, it is inevitable to supply energy through some Enhanced Oil Recovery) EOR) methods. These methods include water injection, gas injection, foam injection, etc. The use of gas is one of the most common and cost-effective EOR processes for extracting the remaining oil. The gas injection process with gravity enhancement. ) GAGD) might be more suitable for fractured reservoirs. In this paper, the simulation of the GAGD process in an Iranian oil fractured reservoir was carried out using commercial software. The gas injection rate, well injection & production type, and method of injection were also considered. In this process, well perforation and location were also optimized. Based on this study, the highest recovery was obtained with the implementation of GAGAD in comparison to conventional gas injection.

AB - Initially, oil reservoirs have enough energy to produce o in most fields. As time passes and oil production continues, the production rate is reduced and become mostly un-economical. At this time, it is inevitable to supply energy through some Enhanced Oil Recovery) EOR) methods. These methods include water injection, gas injection, foam injection, etc. The use of gas is one of the most common and cost-effective EOR processes for extracting the remaining oil. The gas injection process with gravity enhancement. ) GAGD) might be more suitable for fractured reservoirs. In this paper, the simulation of the GAGD process in an Iranian oil fractured reservoir was carried out using commercial software. The gas injection rate, well injection & production type, and method of injection were also considered. In this process, well perforation and location were also optimized. Based on this study, the highest recovery was obtained with the implementation of GAGAD in comparison to conventional gas injection.

KW - Fracture Reservoirs

KW - EOR

KW - GAGD

KW - Simulation

KW - Oil Recycling

UR - https://www.magiran.com/paper/2093712

M3 - Article

VL - 172

SP - 48

EP - 55

JO - Journal of Exploration & Production Oil & Gas

JF - Journal of Exploration & Production Oil & Gas

SN - 2538-1652

ER -