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Enabling non-disruptive production conditions - slug flow with surfactants

Enabling non-disruptive production conditions - slug flow with surfactants

The project goal is to enable non-disruptive production conditions in relation to slug flow with realistic fluid chemistry through pragmatic model developments. The project will concentrate our research on gas entrainment and surface chemistry effects, since our hypotheses leads us to believe that these factors are critical to accurately characterize slug flow in real applications with regards to slug length and frequency. The experimental part of the research will be carried out in a series of experiments at the medium scale flow loop at SINTEFs Multiphase flow laboratory at Tiller (Trondheim).

Slug flow regimes will become more frequent in the NCS in the future as it is most commonly observed when flow rates decrease. Slug growth is also promoted by the current field developments involving long tie-ins, e.g. in the arctic regions. Properly controlling and handling slugs can reduce the need for gas flaring which reduces the environmental impact and the CO2 emissions.

The structural stability of the sub-sea components due to fatigue is a major concern for the oil companies. Operation under slug flow regime is considered as the worst case scenario from a structural and an operational point of view. Further, unforeseen long slugs can cause damage and flooding of separators. And finally, slug frequency has a direct impact on corrosion. 

The existing slug flow models are weak because they are (a) largely based on experiments in short pipes, and (b) do not sufficiently consider realistic fluid chemistry e.g. the presence of surfactants and therefore significant gas buildup within the liquid slugs. This project will work towards reliable predictions of slug flow based on representative experiments

This is a KPN project financed by the Norwegian Research Council within Petromaks2, Total E&P Norge and Lundin AS. SINTEF Industry is the project owner and will work in close cooperation with NTNU and the international research partner HZDR (Germany). One PhD candidate will be educated as part of the project.

Published 09 September 2019
Research Scientist

Project duration

2018 - 2021