A numerical simulation study of CO2 injection for enhancing hydrocarbon recovery and sequestration in liquid-rich shales

Kalra, Sumeer; Tian, Wei; Wu, Xingru

doi:10.1007/s12182-017-0199-5

Cited by 31 publications

(14 citation statements)

References 19 publications

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“… 2020 ; Kalra et al. 2018 ). Although multi-objective optimization issues can be addressed effectively, a perfect reservoir history matching model can trigger to cause a bad prediction.…”

Section: Introductionmentioning

confidence: 99%

Advance artificial time series forecasting model for oil production using neuro fuzzy-based slime mould algorithm

AlRassas

Al-qaness

Ewees

et al. 2021

J Petrol Explor Prod Technol

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Oil production forecasting is an important task to manage petroleum reservoirs operations. In this study, a developed time series forecasting model is proposed for oil production using a new improved version of the adaptive neuro-fuzzy inference system (ANFIS). This model is improved by using an optimization algorithm, the slime mould algorithm (SMA). The SMA is a new algorithm that is applied for solving different optimization tasks. However, its search mechanism suffers from some limitations, for example, trapping at local optima. Thus, we modify the SMA using an intelligence search technique called opposition-based learning (OLB). The developed model, ANFIS-SMAOLB, is evaluated with different real-world oil production data collected from two oilfields in two different countries, Masila oilfield (Yemen) and Tahe oilfield (China). Furthermore, the evaluation of this model is considered with extensive comparisons to several methods, using several evaluation measures. The outcomes assessed the high ability of the developed ANFIS-SMAOLB as an efficient time series forecasting model that showed significant performance.

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“… 2020 ; Kalra et al. 2018 ). Although multi-objective optimization issues can be addressed effectively, a perfect reservoir history matching model can trigger to cause a bad prediction.…”

Section: Introductionmentioning

confidence: 99%

Advance artificial time series forecasting model for oil production using neuro fuzzy-based slime mould algorithm

AlRassas

Al-qaness

Ewees

et al. 2021

J Petrol Explor Prod Technol

View full text Add to dashboard Cite

show abstract

“…Current knowledge strongly supports CO 2 sequestration in geological formations (e.g., shale and coalbed) as a promising approach to respond to the issue of excessive anthropogenic CO 2 emissions into the atmosphere, which is treated as carbon-negative technology and thus has been receiving growing attention (Abidoye et al 2015;Zhang et al 2015;Wan and Liu 2018;Liu et al 2020;Rani et al 2020;Řimnáčová et al 2020). Therein, injecting CO 2 into shale reservoirs is becoming increasingly attractive and has been lauded as a win-win solution for meeting geological CO 2 storage and simultaneous enhanced gas recovery (CS-EGR) from shales (Liu et al 2017b(Liu et al , 2019aKalra et al 2018;Pan et al 2018;Yang et al 2019;Zhang et al 2020). However, understanding of shale-based CS-EGR is limited, with only few pilot field studies undertaken, in which strategy optimization, site characterization/monitoring, and hazard assessment & management need to be taken into account in a comprehensive manner (Chi et al 2017;Ajayi et al 2019;Zhang et al 2019;Chen et al 2020;Iddphonce et al 2020).…”

Section: Introductionmentioning

confidence: 99%

Performance of free gases during the recovery enhancement of shale gas by CO2 injection: a case study on the depleted Wufeng–Longmaxi shale in northeastern Sichuan Basin, China

Liu

Xie

et al. 2020

Pet. Sci.

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In this work, a novel thermal–hydraulic–mechanical (THM) coupling model is developed, where the real geological parameters of the reservoir properties are embedded. Accordingly, nine schemes of CO2 injection well (IW) and CH4 production well (PW) are established, aiming to explore the behavior of free gases after CO2 is injected into the depleted Wufeng–Longmaxi shale. The results indicate the free CH4 or CO2 content in the shale fractures/matrix is invariably heterogeneous. The CO2 involvement facilitates the ratio of free CH4/CO2 in the matrix to that in the fractures declines and tends to be stable with time. Different combinations of IW–PWs induce a difference in the ratio of the free CH4 to the free CO2, in the ratio of the free CH4/CO2 in the matrix to that in the fractures, in the content of the recovered free CH4, and in the content of the trapped free CO2. Basically, when the IW locates at the bottom Wufeng–Longmaxi shale, a farther IW–PWs distance allows more CO2 in the free phase to be trapped; furthermore, no matter where the IW is, a shorter IW–PWs distance benefits by getting more CH4 in the free phase recovered from the depleted Wufeng–Longmaxi shale. Hopefully, this work is helpful in gaining knowledge about the shale-based CO2 injection technique.

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“…Injecting CO 2 into the depleted oil reservoirs for storage or to enhance oil and gas production is considered as one of the effective measures to reduce the content of CO 2 in the atmosphere (Ajayi et al 2019;Kalra et al 2018;Khather et al 2019). However, as an acid gas, CO 2 is highly corrosive in water-containing environment (Zhu and Liu 2018).…”

Section: Introductionmentioning

confidence: 99%

Risk assessment of corroded casing based on analytic hierarchy process and fuzzy comprehensive evaluation

et al. 2020

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Casing corrosion during CO2 injection or storage results in significant economic loss and increased production risks. Therefore, in this paper, a corroded casing risk assessment model based on analytic hierarchy process and fuzzy comprehensive evaluation is established to identify potential risks in time. First, the corrosion rate and residual strength characteristics are analyzed through corrosion tests and numerical simulations, respectively, to determine the risk factors that may lead to an accident. Then, an index system for corroded casing risk evaluation is established based on six important factors: temperature, CO2 partial pressure, flow velocity, corrosion radius, corrosion depth and wellhead pressure. Subsequently, the index weights are calculated via the analytic hierarchy process. Finally, the risk level of corroded casing is obtained via the fuzzy comprehensive evaluation. The corroded casing risk assessment model has been verified by a case well, which shows that the model is valuable and feasible. It provides an effective decision-making method for the risk evaluation of corroded casing in CO2 injection well, which is conductive to improve the wellbore operation efficiency.

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A numerical simulation study of CO2 injection for enhancing hydrocarbon recovery and sequestration in liquid-rich shales

Cited by 31 publications

References 19 publications

Advance artificial time series forecasting model for oil production using neuro fuzzy-based slime mould algorithm

Advance artificial time series forecasting model for oil production using neuro fuzzy-based slime mould algorithm

Performance of free gases during the recovery enhancement of shale gas by CO2 injection: a case study on the depleted Wufeng–Longmaxi shale in northeastern Sichuan Basin, China

Risk assessment of corroded casing based on analytic hierarchy process and fuzzy comprehensive evaluation

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