Real-Time Casing Point Selection Optimization for MPD Wells Through Improved Kick Tolerance Analysis

Callerio, Santiago; Ashok, Pradeepkumar; Oort, Eric van

doi:10.2118/217692-ms

IADC/SPE International Drilling Conference and Exhibition 2024

DOI: 10.2118/217692-ms

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Real-Time Casing Point Selection Optimization for MPD Wells Through Improved Kick Tolerance Analysis

Santiago Callerio,

Pradeepkumar Ashok,

Eric van Oort

Abstract: Traditional casing point selection fails to reflect influx dynamics and leverage managed pressure drilling (MPD) advancements in the well design process, which often leads to over-engineering and increased expenditure. This study proposes a new approach that integrates MPD into the casing design process, employing a reduced drift-flux model (RDFM) to account for complexity. The methodology aims to optimize casing design and enable real-time assessment of kick tolerance (KT) while drilling, exploiting opportuni… Show more

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MPD Deepwater Drilling: A Case Study of MPD Surface Back Pressure Implementation for a Sidetrack Exploration Well in the Gulf of Mexico

Luis,

Happoff,

Meyer

et al. 2024

SPE/IADC Managed Pressure Drilling and Underbalanced Operations Conference and Exhibition

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Managed Pressure Drilling (MPD) was identified as the differentiating technology to successfully execute a sidetrack deepwater exploration prospect in the Gulf of Mexico. Conventional drilling efforts were suspended on the original hole due to multiple pressure management issues, such as losses, ballooning, and wellbore instability. MPD was selected as an enabler for overcoming these challenges. The sidetrack was planned to exit the existing 14-inch casing and run three additional strings of casing/liners to a planned total depth (TD) over 31,000 ft MD. MPD was strategically integrated to address operational hurdles and acquire valuable subsurface data. MPD enabled the liners' shoe to be set deeper in two sections than the original wellbore, increasing the probability of reaching well TD. Given the well's exploratory nature and lack of offset information, a statically underbalanced mud was used, giving maximum flexibility to manage and test the pressure profile. MPD techniques for real-time pressure estimation were successfully used to obtain critical reservoir information. This paper offers a comprehensive overview of the sidetrack design, delineating some operational challenges. It also delves into MPD's role in effective equivalent circulating density (ECD), mud weight (MW) management, and tripping strategies needed to comply with regulatory requirements. By presenting key highlights, lessons learned, and recommendations gathered from the operation, this case contributes to the understanding and application of MPD in deepwater exploration.

show abstract

MPD Deepwater Drilling: A Case Study of MPD Surface Back Pressure Implementation for a Sidetrack Exploration Well in the Gulf of Mexico

Luis,

Happoff,

Meyer

et al. 2024

SPE/IADC Managed Pressure Drilling and Underbalanced Operations Conference and Exhibition

View full text Add to dashboard Cite

show abstract

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Real-Time Casing Point Selection Optimization for MPD Wells Through Improved Kick Tolerance Analysis

Cited by 1 publication

References 36 publications

MPD Deepwater Drilling: A Case Study of MPD Surface Back Pressure Implementation for a Sidetrack Exploration Well in the Gulf of Mexico

MPD Deepwater Drilling: A Case Study of MPD Surface Back Pressure Implementation for a Sidetrack Exploration Well in the Gulf of Mexico

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