Yunping Xi has completed his PhD in Structural Engineering from Northwestern University, Evanston, IL in the year of 1991. He has completed MS in Structural Engineering from Central Research Institute of Building and Construction in 1985 and has done B.S. in Civil Engineering from Beijing Institute of Civil Engineering and Architecture in 1982. Currently he is working as a professor of Structural Engineering & Structural Mechanics, Materials Science & Engineering department in University of Colorado at Boulder, USA.
Abstract
Well cement has been commonly used in wellbore environment, such as wells for oil and gas extraction and CO2 storage formation. For the safety of long-term operation of the wells, leakages in wellbore cement must be sealed. Nanoparticles in various slurries can be used to seal cracks in well cement. This study investigated the feasibility for developing an electrochemical method to inject nanoparticles into well cement not only to repair wellbore leakages and initial defects but also to extract the harmful ions (e.g. chlorides) simultaneously. Various experimental parameters were studied including different surface charges, types and sizes of nanoparticles and the intensity of injecting power supply. The new technology was developed and tested under the lab condition as well as a simulated wellbore condition. Some details for the technology to be used underground from inside of steel casing are under development so that it can be used for repairing the leakage of well cement for the oil and gas industry as well as for CO2 storage formations. Finite element models are being developed to simulate the nanoparticle injection and ionic transport processes of the technology.
Health, Safety and Environmental concerns
Oil and Gas processing
Advanced oil and gas technologies
Impacts of climate change
Recent advancements in petro chemistry
Conventional and Unconventional Resources
Renewable Energy Sources
Safety and Integrity of City Gas Distribution
Future challenges for oil exploration and consumption