Case Histories of a New Wireline Logging Tool for Determination of Free Point in Support of Drilling and Pipe Recovery Operations

Kessler, Calvin; Dorffer, Daniel; Crawford, Donald Leon; DeHart, Rory; Weiser, Jerry

doi:10.2118/119907-ms

Cited by 3 publications

(2 citation statements)

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“…A plot of depth versus the percentage of surface torque and pull transmitted down hole shows the deepest point at which the string is free. Performed research in the case of free point estimation are in field of logging tools and modifying or utilizing new tools and techniques [8,9]. This study focuses on a novel topic of free point estimation, by using drilling parameters.…”

Section: ) Free Point Indicator Tool (Fpit)mentioning

confidence: 99%

A New Approach for Estimating Free Point in Fishing of Stuck Pipe using Artificial Neural Network

Nejad¹,

Shahbazi²

2013

IJCA

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Stuck pipe is a common problem in drilling industry. It accounts for the major rig time losses each year in the petroleum industry. In cases where common solutions such as pulling up and pushing down, rotating, jarring, and changing flow rate don't work, then backing off is the last resort. To have a successful back off operation, estimating location of the free point is vital.In this study, an attempt is made to estimate the free point in stuck pipe cases using the drilling data and artificial neural network approach. For this purpose, drilling data such as mud properties, pipe rotation, rate of penetration, and some other parameters are required. In this study, artificial neural networks (ANNs) model using field data from more than 40 wells was employed, and results were compared to field results. ANN model was constructed with a supervised learning algorithm and feed forward back propagation learning rule is used for training the network. The statistical error analysis results obtained by the models and acceptable values for correlation coefficient indicate that ANN model is successful in free point prediction. KeywordsFree point, stuck pipe, artificial neural network.

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Section: ) Free Point Indicator Tool (Fpit)mentioning

confidence: 99%

A New Approach for Estimating Free Point in Fishing of Stuck Pipe using Artificial Neural Network

Nejad¹,

Shahbazi²

2013

IJCA

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“…It was not until the late 1990s that magnetic methods measuring the magnetic properties of the pipe were introduced (Trevillion 1988, Estes 2007, and Smaardyk 2010; however, limitations in technology did not allow for full deployment until the recent introduction of a tool, based on new sensors and electronic technology development, that could continuously record the magnetostrictive properties of the pipe under different tension conditions (Kessler et al 2009a, Kessler et al 2009b The new tool provides a continuous log of the magnetostrictive properties and typically reads log values between 9 and 15 units, while the response is close to zero when the magnetic effect is fully removed when working the pipe once the logging tool is at the bottom. Another technique that has not been fully developed is to apply different tension to the pipe while observing the change in response, which will be the same when the pipe is 100% stuck and there is no pipe stretch or change in property.…”

Section: Introductionmentioning

confidence: 99%

Middle East Case-Study Review of a New Free-Pipe Log for Stuck-Pipe Determination and Pipe-Recovery Techniques

Torne

Rourke

Derouen

et al. 2011

SPE Asia Pacific Oil and Gas Conference and Exhibition

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Significant drilling challenges can exist when drilling in mature fields or in reservoirs that are subject to various geomechanical stress regimes associated with overpressure, tectonic stress, and depletion. Despite mitigation efforts to reduce stuck-pipe occurrences, drilling problems leading to stuck pipe still occur. When conventional techniques used to free the drillstring are ineffective, wireline logs are often run to determine the stuck depth of the drilling assembly and to release the pipe above the free point.The traditional free-point (FP) logs used to determine the depth of stuck pipe are based on a measurement of strain when stress is applied to the pipe between two points. These measurements are taken at specific intervals and require the tool arms to firmly grip the pipe to prevent movement that could mask the strain measurement. This simple method is difficult to implement reliably. Because it depends on the skill of the specialist operator, pipe-recovery operations include "more art than science." A new technology, based on electromagnetic measurements, can now make a continuous FP log. The log consists of two passes, with and without stress applied to the pipe. By comparing the two responses, service company specialists and drilling engineers can interpret the log without the need for highly-experienced personnel.This paper reviews several cases from the Middle East and provides information about the tool response in various parts of the drilling assembly. It also reviews pipe-recovery techniques that are recommended depending on the FP log response and the specific drilling assemblies, such as drill collar, drill pipe, crossovers, and jars. The pipe-recovery techniques discussed include explosive back-off techniques, explosive pipe severing, and various pipe cutters. The case study examples demonstrate the improved efficiency and reliability of determining stuck-pipe intervals and subsequent successful pipe recovery.

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1.69-inch Electro-Mechanical Pipe Cutting Deployed on Digital Slickline

Heaney

Powell

MacKay

et al. 2023

Day 2 Wed, March 22, 2023

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Digital slickline (DSL) has been deployed in the industry since 2013 (Loov et al., 2014 & Wiese et al., 2015) and has proven to be an effective tool to improve well intervention efficiency from the traditional two-unit slickline and eline model. Since initial deployment, the product has continuously expanded services with on-command explosive triggers, non-explosive setting tools, downhole anchors, surface readout (SRO) pulse neutron formation evaluation services, production logging, and multi-finger calipers. Numerous case study papers extol the DSL time savings, which leverages one slickline rig-up & down compared to multiple rig ups and downs when a slickline and a separate eline unit are dispatched to complete the same work scope. On complex interventions such as multiple tubular patches, these savings could be several days, especially if each unit required scheduling to be on location. (Heaney et al., 2020). Other papers (Koriesh et al., 2022) highlight the opportunities for deploying a small and lightweight slickline unit to address offshore platform limits that would not support the larger eline units. Additional benefits of DSL include reduced personnel on board (POB), fewer crane lifts, faster rig up & down, and increased cable speeds compared to eline. Although DSL has many attributes, it still uses a slickline cable, albeit coated, that has a much lower breaking strength than eline and has limited communication bandwidth; nevertheless, the efficiency savings on many interventions is transformative. One service requested for DSL is a non-explosive pipe recovery device to reduce health, safety, and environmental (HSE) risks and provide cost containment in areas that require an explosive escort. One specific device proven effective in pipe recovery is the eline deployed electro-mechanical cutter, which can produce a complete flare-free machine shop quality cut that other pipe-cutting devices cannot match. There are multiple variations of the electric cutting tool, and all employ proprietary high-powered motors that allow the cutting blade to sever the tubular. The novel feature in this paper is a battery-powered 1.69-inch electro-mechanical pipe-cutting tool deployed on DSL or eline to cut pipe from 2.375 to 3.5-inch diameter that dominates many completions globally. The paper will discuss tool development details and verification testing to ensure a battery-powered device could sever the expected downhole tubulars.

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Case Histories of a New Wireline Logging Tool for Determination of Free Point in Support of Drilling and Pipe Recovery Operations

Cited by 3 publications

References 0 publications

A New Approach for Estimating Free Point in Fishing of Stuck Pipe using Artificial Neural Network

A New Approach for Estimating Free Point in Fishing of Stuck Pipe using Artificial Neural Network

Middle East Case-Study Review of a New Free-Pipe Log for Stuck-Pipe Determination and Pipe-Recovery Techniques

1.69-inch Electro-Mechanical Pipe Cutting Deployed on Digital Slickline

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