Effective Well Cleanouts With Seawater Using Downhole Measurements in Subhydrostatic Environment in Norway

Lundemo, Kristian; Langeteig, Bjarne Kaare; Petrone, Daniele; Harber, Bonnie En; Wolf, Kellen

doi:10.2118/121590-ms

All Days 2009

DOI: 10.2118/121590-ms

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Effective Well Cleanouts With Seawater Using Downhole Measurements in Subhydrostatic Environment in Norway

Kristian Lundemo¹,

Bjarne Kaare Langeteig

Daniele Petrone

et al.

Abstract: Critical coiled tubing treatments, such as fill cleanouts of sub-hydrostatic wells and perforations of small reservoir intervals have historically posed a high uncertainty for Norwegian operators due to nature of the complex completions i.e. long and large monobore completions. The complexity is exacerbated with the strict offshore environmental regulations that limit the fluids that can be used for intervention operations. Fill cleanouts on these wells with CT face the difficult challenge of… Show more

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Coiled Tubing Real-Time Downhole Measurements Reduce Total Exposure to HSE Risks

Morbelli

Altinkopru

2010

SPE International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production

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Through a series of examples, this study examines how real-time bottomhole data has reduced or mitigated the risks inherent to coiled tubing (CT) applications, leading to safer job execution. A number of tasks such as rigging up, mixing fluids, pumping, and rigging down are part of conventional CT interventions. Each of these tasks has risks associated with it. With the intent of optimizing CT operations, a fiber optic system was developed to enable real-time bottomhole measurements, allowing live monitoring of interventions. By providing real-time downhole intelligence, the technology has provided the means to operate more efficiently and enhanced the service quality and reliability of the CT services. More importantly, it helps optimize or minimize the tasks associated with conventional CT interventions, reducing personnel exposure to many of the risks. By providing a real-time casing collar locator (CCL), performing an extra dummy run is no longer necessary for all depth- critical operations. Reducing the number of runs not only reduces overall operational time, it also reduces personnel exposure to hazards related to these operations. Downhole pressure and temperature sensors have provided positive confirmation of gun detonation on CT perforating applications, reducing the risk of pulling out of hole with live guns. The monitoring of real-time bottomhole pressure provides a safer way to manage pressure by either assessing and obtaining the preferred perforating balance condition or validating the operation of the choke during a cleanout to avoid gas entry and to maintain a better control of the well. In applications such as matrix stimulations, cleanouts, or even nitrogen kickoff, the system has proven beneficial and effective in optimizing treatment volumes, consequently reducing extended cleanouts and associated flow back and flaring. Finally, this study evaluates the process of making informed decisions during execution of a CT job based on real-time downhole critical parameters and their impact on overall HSE performance.

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Coiled Tubing Real-Time Downhole Measurements Reduce Total Exposure to HSE Risks

Morbelli

Altinkopru

2010

SPE International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production

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show abstract

Multivariate Sensitivity Analysis and Real-Time Algorithms in Data-Driven Coiled Tubing Cleanouts Turn Insights into Action

Tardy,

Kotlyar,

Keong

et al. 2024

Day 1 Mon, February 12, 2024

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Depleted wells require underbalanced coiled tubing cleanouts (CTCO) in which natural production from the reservoir assists solids transport. Reservoir pressures are often uncertain in these subhydrostatic environments, making CTCO design conditions difficult to predict. Under these conditions, sustaining an efficient cleanout is challenging, and risks include undesired leakoff, damage to the wellbore, and stuck pipe. New physics-based algorithms and workflows consume real-time data and output actionable feedback to optimize design, execution, and evaluation of CTCOs. A coiled tubing hydraulics (CTH) simulator with state-of-the-art flow and transport models improves CTCO design capabilities by sensitizing over every parameter, which generates a combinatorial number of scenarios. Once executed, this multivariate sensitivity analysis generates a large database of sensitized scenarios which delineate a safe and effective operational envelope. Meanwhile, a real-time execution advisor selects the sensitivity analysis scenario that best approximates actual conditions and guides coiled tubing (CT) operators to choose optimal liquid rates, nitrogen rates, and CT speed. This execution advisor is supported by an early inference algorithm (EIA), which assesses reservoir pressure during the run in hole (RIH), while surface testing flowmetering data are consumed by an annular velocity algorithm (AVA) to estimate solids transport efficiency, reservoir leakoff, and inflow in real time. EIA, AVA, and execution advisor run in real time to reduce operation time by up to 15% and nitrified fluid consumption by 10%, ultimately increasing hydrocarbon production by 50%. In addition to driving efficient workflows, the model reduces the risks of poor solids sweeping, formation damage due to reservoir leakoff, solids inflow from reservoir due to large drawdowns, and damage to the surface equipment. This study demonstrates that by combining extensive multivariate sensitivity analysis, advanced flow models, surface and downhole measurements with real-time interpretation and inference algorithms, CTCO operators can quickly assess multiple metrics of job performance, such as downhole solids sweeping efficiency, reservoir leakoff and inflow, and drawdown, and react accordingly to significantly improve operational outcomes. This first use of these real-time execution advisors paves the way to a step change in the efficiency and safety of CT interventions worldwide.

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Effective Well Cleanouts With Seawater Using Downhole Measurements in Subhydrostatic Environment in Norway

Cited by 2 publications

References 0 publications

Coiled Tubing Real-Time Downhole Measurements Reduce Total Exposure to HSE Risks

Coiled Tubing Real-Time Downhole Measurements Reduce Total Exposure to HSE Risks

Multivariate Sensitivity Analysis and Real-Time Algorithms in Data-Driven Coiled Tubing Cleanouts Turn Insights into Action

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