Polymer flooding design and optimization under economic uncertainty

We use a streamline-based simulator that accurately captures non-Newtonian rheology and controls numerical dispersion to investigate polymer-flooding design. First, we develop and test a parallel design algorithm to optimize polymer floods with respect to net present value in terms of slug size, pol...

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Bibliographic Details
Published in:Journal of petroleum science & engineering 2014-12, Vol.124, p.46-59
Main Authors: AlSofi, Abdulkareem M., Blunt, Martin J.
Format: Article
Language:English
Subjects:
Algorithms
Applied sciences
Computer simulation
Crude oil, natural gas and petroleum products
Economics
Energy
Exact sciences and technology
Fuels
Mathematical models
optimal
Optimization
Polymer flooding
sensitivity
simulation
Slugs
Uncertainty
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Summary:We use a streamline-based simulator that accurately captures non-Newtonian rheology and controls numerical dispersion to investigate polymer-flooding design. First, we develop and test a parallel design algorithm to optimize polymer floods with respect to net present value in terms of slug size, polymer concentration, and initiation; in which, simulations are run simultaneously and the results are combined through scaling of optimal slug size. In terms of optimal strategies, the optimization results illustrate that polymer-flooding design – with respect to concentration, slug size, and initiation – is more intuitive than earlier expected. It is always beneficial to start polymer flooding as soon as possible preferably before any waterflooding. The optimal slug size is close to being continuous. The optimal concentration is generally high and represents a balance between mobility gains and injectivity losses. Second, we quantify the impact of uncertainty on both the design and profitability of polymer flooding. This serves as a guide to associated data acquisition efforts, where pre-polymer flooding initiation, efforts can be focused on reducing uncertainties of high impact factors thereby increasing the probability of success. •We use a streamline simulator to investigate the optimal design of polymer floods.•We also investigate the effects of various uncertainties on the optimal design.•It is always beneficial to start polymer flooding as soon as possible.•Optimal slug size is close to being continuous.•Optimal concentration is a balance between mobility gains and injectivity losses.
ISSN:0920-4105
1873-4715
DOI:10.1016/j.petrol.2014.10.014