The Evolution of CaCO3 Scaling Potential in ADNOC Reservoirs Under Water Flooding and CO2 WAG Scenarios

Unlike other CCUS technologies, CO2 EOR has been widely implemented at a commercial level and on an industrial scale. In CO2 EOR, CO2 can be injected on its own or alternated with water in CO2 WAG (water-alternating-gas). Both applications have a direct impact on produced fluid compositions influencing GOR, water cut, CO2 concentration and consequently Ca2+, alkalinity and pH. The variation of fluid compositions has an inevitable impact on the scaling potential of produced fluids and on the resulting level of scale formation and its mitigation strategy. The aim of this work is to investigate the scaling potential changes for a wide range of CO2 WAG scenarios in a high salinity carbonate reservoir in the Middle East using input data from reservoir modelling simulations and running multiple sensitivity studies. The main scale formed in this reservoir is calcium carbonate (CaCO3). The equilibrium reservoir water, the produced water chemistry profiles from downhole to stock tank and the scaling risk profiles are modelled using a commercial integrated PVT and aqueous phase software. A rigorous scale prediction procedure previously published by the authors is applied to accurately calculate scale risk trends for variable production scenarios. As CO2 increases in the WAG cycle, reservoir pH drops but the equilibrium with CaCO3 rock causes an increase in alkalinity. This results in more CaCO3 precipitation in the production system where pressure drops and CO2 flashes off solution. Hence, these results show unequivocal detrimental impact of CO2 WAG on the calcium carbonate scaling potential of produced fluids. This leads to a need for operational and/or chemical adjustments to the scale management program when this technology is deployed. Whilst in this field some CaCO3 scale is predicted to form downhole, but this is not a severe problem although it may need to be addressed. The separator is operated at a sufficiently high pressure that calcium carbonate is not expected to form there. Changing operating pressures and CO2 and H2S concentrations can shift some of the problem to the separator, but if this remains at high pressure there will be no scale precipitation here. However, the calcium carbonate scale will predominantly precipitate at stock tank conditions. Implementing green technologies such CCUS is fundamental to achieving net zero goals and this work clearly shows that actions need to be taken to manage the associated CaCO3 scale problems in the produced fluids to make this application successful.

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Dynamic Mitigation Strategy to Flow Assurance Challenges Associated with CO2 EOR in an Onshore Abu Dhabi Field

Abdallah

Grutters

Igogo

et al. 2022

Day 2 Tue, November 01, 2022

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A CO2-WAG (water-alternate-gas) injection EOR pilot is currently ongoing in a carbonate reservoir, in an Onshore Abu Dhabi field, as part of the company's strategy for Carbon Capture, Utilization and Storage. The pilot is an important phase to de-risk challenges associated with CO2 injection prior to full field implementation. This paper will focus on the mitigation of subsurface flow assurance challenges to handle corrosion, asphaltene and inorganic scaling risks in production wells. As the conditions change during the CO2 pilot duration from producing dry oil to producing oil with miscible gas along with water, the flow assurance mitigation strategy must change to address the different challenges at each stage. Based on extensive lab studies and modeling work confirming the risk of corrosion, asphaltene and scale, it was decided to equip producer wells with downhole chemical injection facilities. Inhibitors for different applications were lab qualified as part of the chemical program to be injected, upon demand, during the pilot life cycle. A comprehensive surveillance program of gauge cutter runs, logging and fluid sampling was put in place to monitor pilot performance and changes in fluid properties and conditions that warrant mitigation by chemicals. The plan was to inject corrosion inhibitor at the start of the pilot and switch to a corrosion/asphaltene combo chemical with CO2 break-through, as it tends to destabilize asphaltene and lead to deposition. Once water cut increases, asphaltene deposition starts to diminish and the risk of inorganic scale increases. At that stage the strategy is to switch back to corrosion inhibitor injection with scale inhibitor squeeze application into the reservoir to protect from scaling. The pilot has been operational for 5 years. Water cut increased in producers from 0% to > 10% with instances of inorganic scale deposition in the lower part of the tubing. This was handled through acid washes due to favorable economics in comparison to inhibitor injection. CO2 levels at the producers increased from 6 mol% to 13-20 mol%, confirming CO2 break-through. With an effective corrosion inhibitor injection, the time-lapse corrosion logs confirmed that the tubing was in good condition. No asphaltene deposition experienced up to date hence no asphaltene inhibitor injection was administered. This paper describes steps required to assess different flow assurance challenges during a CO2-WAG pilot and outlines the mitigation strategy including a robust surveillance program during pilot execution. This mitigation strategy should be dynamic, responding to the changes in challenges posed at each phase considering the most cost-effective solution. For scale and asphaltene deposition the frequency of occurrence should be considered to decide on whether to inject inhibitors or apply solvent soaks.

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The Evolution of CaCO3 Scaling Potential in ADNOC Reservoirs Under Water Flooding and CO2 WAG Scenarios

Cited by 5 publications

References 6 publications

Study on influencing factors of wellbore scaling during ASP flooding

Study on influencing factors of wellbore scaling during ASP flooding

The Impact of CCUS for Improved Oil Recovery on CaCO3 Scaling Potential of Produced Fluids

Dynamic Mitigation Strategy to Flow Assurance Challenges Associated with CO2 EOR in an Onshore Abu Dhabi Field

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