Jan. 12, 2023


Description

This presentation reports on a comparison of Raman, Brillouin and Rayleigh DTS simultaniously acquired in the same high-rate producer and injector wells. It is validated that with appropriate cable design, Brillouin DTS can be simultaniously operated on the same single-mode fiber with DAS and can deliver absolute temperature measurements suitable for production analysis. The speaker will discuss the implementation of this DTS-DAS solution for sensing subsea completions.

Background:

With the maturity of and demand for fiber optic sensing technology growing steadily over the last few years across multiple basins, operators are seeking fiber optic sensing solutions that address the technology challenges associated with life-of-field monitoring of subsea developments. Single-ended distributed temperature sensing (DTS) are typically acquired using Raman optical time-domain reflectometry (OTDR) on multi-mode fiber. However, for topside interrogation of subsea completions, Raman DTS performs poorly due to the available optical power budget, and the wavelength dependency of the measured Stokes and anti-Stokes intensities, as the temperature profile is calculated as a function of the ratios of these signals. The optical attenuation across connectors and splices may, in many instances, have a wavelength dependence that varies with temperature and/or directionality of the propagation of the optical signals. Any wavelength dependent attenuation as the signals pass through connectors, splices and optical feedthrough systems will generate step changes in the measured temperature profile. Brillouin OTDR can provide a DTS alternative that overcomes these challenges and operates on single mode fiber.

Brillouin OTDR operates with a large dynamic range to measure a wavelength (frequency) shift of the Stokes/anti-Stokes components that is proportional to both strain and temperature. Since downhole cables are manufactured with optical fibers suspended in a gel and with appropriate extra fiber length (EFL), any fiber strain relaxes, and the Brillouin wavelength shift is an absolute temperature measurement. We typically associate coherent Rayleigh OTDR with distributed acoustic sensing (DAS) on single-mode fibers, but low frequencies also contain a relative temperature dependence.

     


Event Format:

Lunch-and-Learn  at NexTiers Headquarters West-side of Houston. Several food options will be provided for those with various dietary needs. Parking is free. Doors open at 11:30 AM for networking. 


 


Featured Speakers

Speaker: Brian C. Seabrook
Speaker Brian C. Seabrook

Brian C. Seabrook is a Wells Research Engineer at ExxonMobil Upstream Research Company. His research is focused onm fiber optic sensing and building workflows to utilize the sensor data for surveillance and optimization of wells and associated facilities.
He has over 20 years of industry experience, is a licensed Professional Engineer …

Brian C. Seabrook is a Wells Research Engineer at ExxonMobil Upstream Research Company. His research is focused onm fiber optic sensing and building workflows to utilize the sensor data for surveillance and optimization of wells and associated facilities.


He has over 20 years of industry experience, is a licensed Professional Engineer in the state of Texas, USA and earned his Ph.D. in Civil and Environmental Engineering from Duke University. He is a member of SPE and EAGE, and currently serves as a 2022-23 SPWLA Distinguished Speaker.

Full Description



Organizer

Marcel Grubert

Mobile - (281) 731 8723


Email - marcel.grubert@gmail.com


Date and Time

Thu, Jan. 12, 2023

11:30 a.m. - 1 p.m.
(GMT-0600) US/Central

Pricing

  • Non-member (In-person)
    $50.00
    (ends 01/12/2023)
  • SPE member (In Person)
    $30.00
    (ends 01/12/2023)
  • Students/Retired/MiT (In Person)
    $10.00
    (ends 01/12/2023)

Location

NexTier Heatquarters

3990 Rogerdale Rd
Houston, TX 77042