Cement Evaluation - A Risky Business

Benge, Glen

doi:10.2118/170712-ms

Cited by 10 publications

(1 citation statement)

References 31 publications

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“…Using a single variable, the CBL amplitude invites more risk and uncertainty (Benge 2014) to the definition. The advantage of using multiple variables in determining well bonded cement is critical.…”

Section: Uncertaintymentioning

confidence: 99%

Multivariable Threshold-Processing Workflow Provides Comprehensive Cement Evaluation for Effective Well-Barrier Assessment in Plug and Abandonment Applications

Imrie

Heeley

Foianini

2016

Day 2 Wed, March 23, 2016

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This paper presents a cement-evaluation workflow that encompasses the use of multiple measurement thresholds, proving that data processing with the use of logical discriminators can determine true cement-bond conditions with the use of conventional diagnostic tools.The algorithm filters raw and derivative acoustic data through various predetermined thresholds to discriminate well intervals that possess proper cement bond and vertical coverage. Should data associated with a well interval pass through all the chosen logical filters, the interval is flagged as having the necessary cement presence and bond to be considered an isolating annular barrier. The logical thresholds are operator-defined, enabling a customizable assessment of any cement type, regardless of operator standards, legal codes, or environmental regulations.The service was recently implemented in various wells where the customer required a decisive assessment to determine if a cement bond was minimally present prior to proceeding with abandonment. Their previous experiences with well-integrity diagnostics had resulted in contradictory information, requiring additional intervention work to help ensure zonal isolation. The interpretation workflow was able to indicate the presence of a minimum 11 ft of continuous cement and 100 ft of total cement behind the 7 5/8-in. OD production casing, which was one of the customer's well-integrity standards. The processed acoustic response, acquired with a cement-bond log tool and ultrasonic scanner, is presented in binary form, which clearly distinguished several intervals where annular cement complied with the various technical and legal variables that the client adopted.By eliminating the inconclusive nature inherent to cement evaluation, the new interpretation solution can rapidly serve operators with a simplified result, enabling faster decision making to determine whether or not remedial work is required. This routine can be especially valuable to asset decommissioning and new well drilling, where more assertive decisions regarding well-barrier integrity can result in operational efficiencies.

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Section: Uncertaintymentioning

confidence: 99%

Multivariable Threshold-Processing Workflow Provides Comprehensive Cement Evaluation for Effective Well-Barrier Assessment in Plug and Abandonment Applications

Imrie

Heeley

Foianini

2016

Day 2 Wed, March 23, 2016

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Using Radial Bond Segmented Waveforms to Evaluate Cement Sheath at Varying Depths of Investigation

Frisch

Fox

Hospedales

et al. 2015

SPE Annual Technical Conference and Exhibition

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The radial bond tool consists of multiple receivers normally 2 to 3 ft from the source in addition to the standard 3 to 5 ft of receiver spacing. The standard interpretation from these tools consists of 6 to 8 amplitude measurements presented as either curves or as an image, indicating circumferential cement to casing bond. Evaluating bond quality of the annular space between casing and formation has been extremely difficult using existing logging tools and interpretation techniques. The discussed technique processes segmented waveforms in an innovative way, providing additional circumferential cement bond information at varying depths of investigation in annular space. A new method of interpretation has been applied to the cement bond log (CBL) waveform that examines the peaks and troughs of the waveform to help determine the cement bond between the casing and formation. The interpretation provides up to four different amplitude curves at different depths of investigation in the annular space. Applying the same methodology to the segmented waveforms, but with additional steps, allows the circumferential bond to be determined between the casing and formation. Depending on the length of the segmented waveforms, these annular shells can extend from the casing to the formation, and can be corrected for the relative bearing of the tool. The example is a standard cement evaluation immediately above and below the surface casing shoe, with a washout immediately below the casing shoe. Both the raw and advanced cement evaluation revealed poor bond in the washout region. With the new processing of the radial waveforms, a channel in the annular space was shown to extend almost all the way to the surface, which is not visible using standard interpretation techniques. Using older standard evaluation techniques, the channel would have been missed or incorrectly evaluated. The use of the radial shell technique provided accurate interpretation of the annular space between the casing and formation. Standard interpretation of radial bond data does not include use of segmented waveforms. With this new processing technique, not only are the segmented waveforms used, but the annular space is broken into regions or circumferential shells, which can be further evaluated. These shells allow evaluation between the casing and formation, and allow a more accurate and complete evaluation of the cement sheath. This can help provide a more precise assessment of wellbore integrity and help prevent loss of the wellbore attributed to cement and or casing failure.

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Well Integrity Support by Extended Cement Evaluation - Numerical Modeling of Primary Cement Jobs

Godøy

Fontan

Capra

et al. 2015

Day 3 Wed, November 11, 2015

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The cement height requirements for primary cement jobs, or annulus cement, are stated as absolute values in some parts of the world. For example the Norsok Standard, D-010, "Well integrity in drilling and well operations" states that one cement barrier is either 50 meters when verified by displacement calculations, or 30 meters when verified by bonding logs. The requirements do not distinguish between reservoirs with high pressure/ temperature- and reservoirs with typical low pressure/termperature conditions. A numerical method has been developed which considers the current or future well conditions as part of the cement evaluation process. This numerical approach is an additional tool in the decision making process and does not replace existing verification practices. The time to run the analysis has also been an issue to address, since existing tools in the industry (FEM-analysis etc.) can be quite time consuming to run. Additionaly it is also possible to perform analysis up-front the operations and various pre-defined cement length intervals can be compared to the requirements or other upper acceptable cases. Offshore well cases from the Norwegian Continental Shelf have been used as basis in the development and demonstration of the method. The numerical model is based on monophase or multiphase Darcy flow calculations through the cement sheath involving uncertainties like cement permeability, reservoir pressure in the eternal perspective etc. The model allows a parametric analysis in a reasonable computation time and building of a well case library making the process efficient in an industrial comparison perspective. The method is an ‘engineering approach' taking place in the decision making process of well integrity.

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Cement Evaluation - A Risky Business

Cited by 10 publications

References 31 publications

Multivariable Threshold-Processing Workflow Provides Comprehensive Cement Evaluation for Effective Well-Barrier Assessment in Plug and Abandonment Applications

Multivariable Threshold-Processing Workflow Provides Comprehensive Cement Evaluation for Effective Well-Barrier Assessment in Plug and Abandonment Applications

Using Radial Bond Segmented Waveforms to Evaluate Cement Sheath at Varying Depths of Investigation

Well Integrity Support by Extended Cement Evaluation - Numerical Modeling of Primary Cement Jobs

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