• 专利标题:   Determining integrity of well in oil and gas industries, involves mixing conductive materials into fluid, allowing conductive materials to surface coating, and transmitting data through electrically conductive data conduit coating.
  • 专利号:   WO2021016244-A1, US2021025272-A1, CA3148433-A1, CN114144571-A, EP4004141-A1
  • 发明人:   BOUL P J, SANTRA A
  • 专利权人:   ARAMCO SERVICES CO, SAUDI ARABIAN OIL CO, SAUDI ARABIAN OIL CO, SAUDI ARABIAN OIL CO
  • 国际专利分类:   C09K008/035, C09K008/40, C09K008/467, E21B047/005, E21B047/12, C09K008/03, C09K008/34, C09K008/42, E21B033/14, E21B047/13, G01V003/20, C04B028/02, C04B028/24, C04B040/00, E21B033/138, E21B047/01
  • 专利详细信息:   WO2021016244-A1 28 Jan 2021 202116 Pages: 33 English
  • 申请详细信息:   WO2021016244-A1 WOUS042890 21 Jul 2020
  • 优先权号:   US877036P, US934602, CA3148433, CN80053322

▎ 摘  要

NOVELTY - Determining integrity of well involves mixing conductive materials into a fluid, introducing the fluid into the well, allowing the conductive materials to coat a surface of a subsurface formation, by forming an electrically conductive data conduit coating, and transmitting data through the electrically conductive data conduit coating. USE - Determining integrity of well in oil and gas industries. ADVANTAGE - The method enables determining integrity of well having excellent elasticity, stability, safety, strength and self-healing capabilities. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a wellbore integrity monitoring configuration, which consists of an electrically conductive data conduit coating arranged between a wellbore casing and a subsurface formation, several wellbore sensors, and a surface interrogator in communication with the wellbore sensors through the electrically conductive data conduit coating provides a medium for data transmission from the wellbore sensors to the surface interrogator, in which the wellbore sensors are arranged in the subsurface formation and operable to measure a condition that is indicative of the integrity of the wellbore and to generate sensory data representing the wellbore condition. The electrically conductive data conduit coating or in an intervening layers are arranged between the electrically conductive data conduit coating and the wellbore casing. The surface interrogator, the wellbore sensors, and the electrically conductive data conduit coating are collectively configured for the transfer of sensory data from the wellbore sensors to the surface interrogator through the electrically conductive data conduit coating to facilitate monitoring of the integrity of the wellbore based on sensory data received from the wellbore sensors.