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51316-7649-Corrosion Management Challenges Related to CO2 Enhanced Oil Recovery on Existing Production Infrastructure

Product Number: 51316-7649-SG
ISBN: 7649 2016 CP
Author: Gareth John
Publication Date: 2016
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There can be significant corrosion management challenges resulting from planned CO2 Enhanced Oil Recovery (EOR) projects in relation to new & existing oil & gas production infrastructure covering existing production wells subsea pipelines and offshore process facilities.

The CO2 EOR project presented will involve water alternating gas (WAG) injection into an existing reservoir via new injection wells. It is planned that 1 to 3 years of seawater injection will be followed by gas injection at 5000 psig / 350barg of up to 41mmscfd (1.16 MsmĀ³/d) of CO2 rich gas (80mol%) into the mature reservoir. Reservoir modelling indicates that within 18 to 24 months water and CO2 breakthrough will occur initially at the new producing wells but eventually this will occur at existing producing wells also. The CO2 rich (up to 50 mol%) and high water cut (up to 80%) production fluids will be transported via existing subsea pipelines to offshore processing facilities for separation and export.The different corrosion management options for elevated CO2 and produced water operating conditions were reviewed to develop a range of corrosion control / material selection options for new delivery pipelines injection wells and producing wells and additional corrosion control (with associated corrosion monitoring and inspection requirements) for existing production flowlines and process equipment.

There can be significant corrosion management challenges resulting from planned CO2 Enhanced Oil Recovery (EOR) projects in relation to new & existing oil & gas production infrastructure covering existing production wells subsea pipelines and offshore process facilities.

The CO2 EOR project presented will involve water alternating gas (WAG) injection into an existing reservoir via new injection wells. It is planned that 1 to 3 years of seawater injection will be followed by gas injection at 5000 psig / 350barg of up to 41mmscfd (1.16 MsmĀ³/d) of CO2 rich gas (80mol%) into the mature reservoir. Reservoir modelling indicates that within 18 to 24 months water and CO2 breakthrough will occur initially at the new producing wells but eventually this will occur at existing producing wells also. The CO2 rich (up to 50 mol%) and high water cut (up to 80%) production fluids will be transported via existing subsea pipelines to offshore processing facilities for separation and export.The different corrosion management options for elevated CO2 and produced water operating conditions were reviewed to develop a range of corrosion control / material selection options for new delivery pipelines injection wells and producing wells and additional corrosion control (with associated corrosion monitoring and inspection requirements) for existing production flowlines and process equipment.

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