SPWLA New Orleans Chapter 2019 January 17 Lunch Meeting

SPWLA New Orleans Chapter 2019 January 17 Lunch Meeting

SPWLA Monthly Luncheon Meeting  

January 17 2019

PanAm Building- Suite 1600

601 Poydras St,
New Orleans, LA 70130

11:30 – 1:00 pm

RSVP: Elizabeth Tanis (Elizabeth.Tanis@shell.com) Cost - $25


Presented By: Hani Elshahawi - Deepwater Digitalization Lead at Shell

For E&P companies, well integrity during the production cycle is of paramount importance for safeguarding health, safety, and the environment (HSE) and for maintaining the license to operate. In this paper, we describe the development of a composite well cement with specific enhanced acoustic signatures that can be detected by traditional sonic logging tools as well as next generation ultrasonic tools. This new acoustically responsive cement utilizes specially engineered particle fillers that act as acoustic band gap filters and contrast agents at specific frequencies. The resultant acoustic signature can thus be analyzed to determine the mechanical integrity of the cement as well as the mechanical stress experienced by the cement.

During the development of this technology, finite element analysis and simulations were used to determine the acoustic response and guide the design of the new cement. The composite cement was produced on the lab scale, and the acoustic band gap features were confirmed using vibrational measurements. Ultrasonic sensors were then used to determine the acoustic response of subscale composite structures, including under mechanical load and in simulated environmental tests. Finally, shallow buried pipes with cemented annuli and engineered voids were constructed for pilot testing. During that final stage, a slim hole monopole sonic logging tool was used to map the cement location and determine the location and relative degree of mechanical loading.

Stress was applied using a variety of methods and mapped along the wellbore. The results indicated improved acoustic detection using sonic bond log tools including uniquely identifiable cement placement, enhanced void discrimination, and localization of loaded regions. The acoustically responsive cement allows distinguishing between fluids and lightweight cement, monitoring of formation depletion and reservoir compaction, and increased knowledge of wellbore stresses in the oil field. Furthermore, the material has the potential to be continuously monitored with an acoustic interrogation system for remote real-time indication of cement stress and integrity on a zone-by-zone basis.




1/17/2019 11:30 AM - 1:00 PM
601 Poydras St PanAm Building- Suite 1600 New Orleans, LA 70130 UNITED STATES

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