Concurrent 29. Oral Presentation for: Optimising the transition from CO₂ EOR-EGR towards CCS for a mature oil and gas reservoir

Abstract

Presented on Thursday 18 May: Session 29

This study evaluates carbon dioxide enhanced oil recovery (CO₂ EOR) for enhanced oil recovery (EOR), enhanced gas recovery (EGR) and carbon capture and storage (CCS) purposes in the mature Mereenie Oil and Gas Field (‘Mereenie’). Mereenie consists of a rim oil and gas cap reservoir with low aquifer activity. We evaluate the microscopic and macroscopic displacement efficiencies of CO₂ EOR techniques after determining the minimum miscibility pressure of the CO₂ and reservoir oil system. Investigations on EOR, EGR and CCS are then conducted on a sector model containing the main pay zones. The CO₂ flood, water alternating gas (CO₂ WAG) and Huff ‘n’ Puff methods are evaluated within three strategies: unstructured well placement, five-spot pattern configuration and gravity-assisted flood. The sector model shows performance of an immiscible process in oil and gas recovery and CO₂ storage potential. The CO₂ flood is efficient in oil recovery but less efficient in CO₂ utilisation, making it a good option for a half oil recovery–half CO₂ storage objective. The CO₂ Huff ‘n’ Puff is more efficient for oil recovery at early stages of operation, and also very efficient for gas recovery. The CO₂ Huff ‘n’ Puff technique is not a good option for the CO₂ storage objective. The CO₂ WAG could be a good technique for oil recovery and CO₂ storage with proper CO₂ slug size and WAG ratio. The five-spot pattern configuration enhances sweep efficiency. The gravity-assisted flood strategy can be appropriate for the rim oil reservoir with gas cap in Mereenie.

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