Remediation of Leakage through Annular Cement Using a Polymer Resin: A Laboratory Study

Long term success of CO2 storage is heavily dependent on maintaining well integrity. Prevention and remediation of leakage through wells plays a crucial role in large scale implementation of CO2 storage. Squeeze cementing is the most common remediation practice in the oil and gas industry used for v...

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Bibliographic Details
Published in:Energy procedia 2016-01, Vol.86, p.442-449
Main Authors: Todorovic, Jelena, Raphaug, Martin, Lindeberg, Erik, Vrålstad, Torbjørn, Buddensiek, Maike-Liselotte
Format: Article
Language:English
Subjects:
CO2 leakage
micro-anulli
permeability
squeeze cementing
temperature-activated polymer resin
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Summary:Long term success of CO2 storage is heavily dependent on maintaining well integrity. Prevention and remediation of leakage through wells plays a crucial role in large scale implementation of CO2 storage. Squeeze cementing is the most common remediation practice in the oil and gas industry used for various well leakage scenarios. The objective of this work was to test the sealing ability of a commercially available temperature-activated polymer resin in a laboratory-scale squeeze cementing operation. Two well leakage scenarios were selected: micro-annuli or cracks in cement and debonding at cement-casing interface. Cement (with or without steel) core samples with designed vertical leak paths were prepared. Permeability of the samples was measured both before and after the squeeze procedure. Then the samples were disassembled and studied by optical microscopy. The squeeze procedure proved to be successful for plugging the designed leak paths.
ISSN:1876-6102
1876-6102
DOI:10.1016/j.egypro.2016.01.045