Use of Fiber-Optic Information To Detect and Investigate the Gas-in-Riser Phenomenon

Santos, Otto; Williams, Wesley C.; Sharma, Jyotsna; Almeida, Mauricio; Kunju, Mahendra; Taylor, Charles

doi:10.2118/204115-pa

Cited by 5 publications

(1 citation statement)

References 13 publications

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“…Traditional kick detection/monitoring technologies rely primarily on surface-based measurements, which might be insufficient for real-time monitoring due to their latency and limited spatial resolution [5,6]. Fiber-optic sensors can overcome these limitations by providing data across the entire length of the installed fiber on a wellbore and/or drilling riser to inform gas kick location in real-time [7][8][9]. Three DAS datasets are analyzed in this study, each representing different gas influx volumes, fluid circulating conditions, and gas injection methods in well-scale settings.…”

Section: Introductionmentioning

confidence: 99%

Feature extraction techniques for noisy distributed acoustic sensor data acquired in a wellbore

Tabjula¹,

Sharma²

2023

Appl. Opt.

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Distributed acoustic sensor (DAS) is a promising technology for real-time monitoring of wellbores and other infrastructures. However, the desired signals are often overwhelmed by background and environmental noise inherent in field applications. We present a suite of computationally inexpensive techniques for the real-time extraction of gas signatures from noisy DAS data acquired in a 5163-ft-deep wellbore. The techniques are implemented on three well-scale DAS datasets, each representing multiphase flow conditions with different gas injection volumes, fluid circulation rates, and injection methods. The proposed denoising techniques not only helped in optimizing the gas slug signature despite the high background noise, but also reduced the DAS data size without compromising the signal quality.

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Section: Introductionmentioning

confidence: 99%

Feature extraction techniques for noisy distributed acoustic sensor data acquired in a wellbore

Tabjula¹,

Sharma²

2023

Appl. Opt.

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Well-scale experimental and numerical modeling studies of gas bullheading using fiber-optic DAS and DTS

Jagadeeshwar

Chen

Sharma

et al. 2023

Geoenergy Science and Engineering

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Analysis of Riser Gas Pressure from Full-Scale Gas-in-Riser Experiments with Instrumentation

Kunju

Almeida

2021

Day 3 Thu, September 16, 2021

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As the use of adaptive drilling process like Managed Pressure Drilling (MPD) facilitates drilling of otherwise non-drillable wells with faster corrective action, the drilling industry should review some of the misconceptions to produce more efficient well control methods. This paper discusses results from full-scale experiments recently conducted in an extensively instrumented test well at LSU and demonstrate that common expectations regarding the potential for high/damaging internal riser pressures resulting from upward transport or aggregation of riser gas are unfounded, particularly when compressibility of riser and its contents are considered. This research also demonstrates the minimal fluid bleed volumes required to reduce pressure build-up consequences of free gas migration in a fully closed riser.

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Use of Fiber-Optic Information To Detect and Investigate the Gas-in-Riser Phenomenon

Cited by 5 publications

References 13 publications

Feature extraction techniques for noisy distributed acoustic sensor data acquired in a wellbore

Feature extraction techniques for noisy distributed acoustic sensor data acquired in a wellbore

Well-scale experimental and numerical modeling studies of gas bullheading using fiber-optic DAS and DTS

Analysis of Riser Gas Pressure from Full-Scale Gas-in-Riser Experiments with Instrumentation

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