Managing Adequate Gas EOR for Unstable Asphaltene Stability Field - Asphaltene Flow Assurance Pre-Risk Assessment Case Study for CO2, Enriched Gas, and Lean Gas Options

Tange, Masaaki; Hiraiwa, Tetsuya; Khlaifi, Khuloud Tareq; Sakurai, Risa; Bahri, Sami; Abed, Abdalla Abdelfattah; Uematsu, Hiroshi; Makishima, Ken; Inokuma, Yuto; Sawata, Masaru; Alkaabi, Sultan Hamdan; Yonebayashi, Hideharu

doi:10.2118/213443-ms

Cited by 2 publications

References 11 publications

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Asphaltene Flow Assurance Risk Evaluation Case Study to Establish Guidelines for CCUS in Arabian Gulf Carbonate Oil Field

Tange,

Hiraiwa,

Khlaifi

et al. 2023

SPE Journal

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Summary In this paper, we present a case study for a comprehensive series of asphaltene flow assurance risk evaluations in the Arabian Gulf Carbonate Oil Field, where CO2 enhanced oil recovery (EOR) is recognized as one of the highest potential technologies for full-field implementation. At first, the sampling location was carefully selected considering the target reservoir’s features because the reliability of asphaltene studies highly depends on sample representativeness. After the quality assurance and quality control of collected samples, asphaltene onset pressures (AOPs) were measured at multiple temperatures under CO2 mixing conditions. The experimental design was optimized in terms of not only improving evaluation accuracy but also minimizing the experimental/sampling cost. The AOP measurements showed clear potential risks associated with CO2 injection. Subsequently, the numerical model analysis was conducted with the cubic-plus-association equation of state model to identify the risk area during CO2 injection. The analysis suggested that risk area is applicable to not only near-wellbore region at the sampling location but also tubing section/surface facility. Furthermore, risk level can be higher at the deeper location of the target reservoir. Finally, CO2-induced asphaltene formation damage risk was investigated from the viewpoints of precipitated asphaltene particle size and pore throat size in the porous media. As a result, the clogging risks from CO2-induced asphaltene were estimated to be high in the target reservoir. By virtue of the comprehensive risk evaluation, the asphaltene flow assurance risk associated with CO2 injection was identified field-wide. The findings from the evaluation encouraged us to move on to future actions, such as more detailed formation damage risk evaluation and mitigation plan development. The extended asphaltene risk evaluation covering the precipitation to deposition phenomena and the reverse engineering for sampling operations based on the experimental design made a worthy demonstration to reduce unnecessary cost and time while obtaining the key information to drive the project. The procedure in this work can contribute to establishing a subsurface part of a guideline for carbon capture, utilization, and storage (CCUS) from the viewpoint of asphaltene flow assurance risk evaluation.

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Asphaltene Flow Assurance Risk Evaluation Case Study to Establish Guidelines for CCUS in Arabian Gulf Carbonate Oil Field

Tange,

Hiraiwa,

Khlaifi

et al. 2023

SPE Journal

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Managing Stealth Asphaltene Flow Assurance Potential Risk in Gas Injection Field Based on Data Science Using Over 20 years Accumulated Dataset

Yonebayashi,

Hiraiwa,

Khlaifi

et al. 2023

Day 2 Tue, October 03, 2023

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Gas injection into oil field is generally recognized to bring not only oil recovery improvement but also asphaltene destabilizing risks. Fortunately, a subject field has not caused any asphaltene-induced production deterioration in two main producing reservoirs during long term lean hydrocarbon gas injection. However, the recent first discovery of asphaltene deposits from the historical no-issued area in the field motivated us to do an immediate investigation for evaluating how critical risks might lurk and considering appropriate mitigation. The field has been applying pressure maintenance of peripheral powered sea water injection with the crestal lean hydrocarbon gas injection for two decades creating secondary gas cap surrounded by high GOR area. The first asphaltene deposits were observed from a producer near high but stable GOR area in the upper reservoir. Through the analysis of single phase bottomhole fluid from a similar positional relationship well near GOC in the lower reservoir, asphaltene precipitation behavior was investigated. The sample contained 0.1 wt% asphaltene with high colloidal instability index. Asphaltene onset was detected from lean hydrocarbon gas mixed-fluid using laser light scattering technique; however, the visual measurement using high pressure microscopy (minimum detection=1 μm) could not detect any asphaltene particles. This result implied that the gas injection causes asphaltene precipitation obviously but no aggregation leading deterioration of oil production. Namely, the precipitated but invisible asphaltenes can be still flowable. This stealth asphaltene behavior could well explain a possible mechanism of the first asphaltene observation in the upper reservoir. In the high GOR area, the stealth asphaltenes are precipitated and then flowed towards the asphaltene-observed well. After a certain amount of stealth asphaltene accumulation, the detectable deposits were finally observed. Since this mechanism might have possibility to expand, several mitigations were discussed for a future possible conservative scenario even keeping asphaltene problem-free production at this moment.

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Managing Adequate Gas EOR for Unstable Asphaltene Stability Field - Asphaltene Flow Assurance Pre-Risk Assessment Case Study for CO2, Enriched Gas, and Lean Gas Options

Cited by 2 publications

References 11 publications

Asphaltene Flow Assurance Risk Evaluation Case Study to Establish Guidelines for CCUS in Arabian Gulf Carbonate Oil Field

Asphaltene Flow Assurance Risk Evaluation Case Study to Establish Guidelines for CCUS in Arabian Gulf Carbonate Oil Field

Managing Stealth Asphaltene Flow Assurance Potential Risk in Gas Injection Field Based on Data Science Using Over 20 years Accumulated Dataset

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