Using Streamline and Reservoir Simulation to Improve Waterflood Management

Al-Zawawi, Ahmed S.; Hayder, Ehtesham M.; Baddourah, Majdi; Karim, Mohd Ghazali Abd; Hidayat, Wahyu

doi:10.2118/141794-ms

Cited by 21 publications

(1 citation statement)

References 5 publications

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“…Streamline simulation is a very effective and time saving tool for predicting best sweep efficiency. It gives an efficient aid in visualizing streams between injectors and producers, allocate injection rates for injectors, identifies fruitless water cycling, wasted water coning and highlight the areas with poor sweep efficiency [9]. Unlike analytical ways which have almost fixed areal sweep efficiency according to flood patterns, this tool uses simulation velocity field and inter well connectivity for designing an optimized injection allocation [10].To optimize the sweep efficiency the streamline uses a concept of Time of Flight (TOF) distribution, by which the areal sweep efficiency is easily optimized and enhanced in complex reservoirs to increase oil recovery in the poorly swept areas [11].…”

Section: Egyptian Journal Of Chemistrymentioning

confidence: 99%

Improving Water Flooding Management through Facies Remodeling and the Use of Streamlines and Finite Difference Simulators

2021

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A successful water flooding project requires continuous surveillance and updated studies. The use of moder practices is also essential to achieve maximum oil recovery. Field 'X' lies in the Western Desert of Egypt. Although the fiel employs water flooding as a secondary recovery mechanism, it suffers from low oil recovery, low sweep efficiency and water's production rates. In 2014, a field development plan was issued with a target recovery factor of 30% using water flooding. However, actual production has significantly underperformed initial forecasts, motivating a re plan. In particular, it was considered necessary to revisit the underlying geologic concept and how this was incorporated into flow simulation forecasts. The aim was to maximize the oil recovery factor before resorting to an expensive tertiary recovery plan; especially, under current low oil prices. This paper discusses the value of updating both static and dynamic models to better incorporate uncertainty associated with facies distribution. It also demonstrates the use of streamline simulation to reallocate water injection rates and determining the role of facies communication in improving the areal sweep efficiency. The new injection scheme is supported by the updated dynamic modelling study and added an incremental reserve of 6.5% and unlocked 28% of the oil in place in the field.

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Section: Egyptian Journal Of Chemistrymentioning

confidence: 99%

Improving Water Flooding Management through Facies Remodeling and the Use of Streamlines and Finite Difference Simulators

2021

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An injection optimization decision-making tool using streamline based fuzzy logic workflow

BuKhamseen

Al-Najem

Saffar

2021

J Petrol Explor Prod Technol

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This paper presents an adaptive approach to optimize field injection strategies using streamline-based well allocations coupled with fuzzy logic. The strength of our approach comes from the fact that streamlines are generated by running a full-physics reservoir simulator. Streamlines provide great insights about well pattern connectivity and good allocation factors allowing the injection efficiency (IE) for each pattern to be determined. Fuzzy logic can simulate human thinking and handle different categories of information including linguistic, imprecise, approximate, and overlapping to name a few. This paper presents a genuine approach for field injection optimization using a streamlined-based fuzzy logic system. In this work, we present an adaptive streamline-based fuzzy logic system that uses three input parameters namely injection efficiency (IE), water cut (WC), and injection loss to aquifer to assign an injector ranking index (IRI) according to injector performances. The workflow then smartly redistributes water injection by accounting for operational constraints and number of connected producers in a pattern in addition to the IRI. The workflow examines the low performers (i.e., low and medium IRI categories) and assigns different injection reduction factors for each injector in these categories. Then, the total amount of reduced injection is assigned to high performers (i.e., high IRI) while ensuring no operational constraint is violated, such as bottom-hole pressure (BHP) and capacity of pumps. This approach has been tested on a dual-porosity dual-permeability (DPDP) conceptual simulation model. The area of interest has two rows of injectors: downdip and updip. The updip injectors are the focus of the study. The results of applying this approach show noticeable improvements in injection efficiency for most wells in the area of interest ensuring better sweep, good pressure support, and improving cumulative oil production. We believe combining both technologies, namely streamlines and fuzzy logic, can provide reservoir engineers with a robust decision-making tool to attain a more successful field-wide water injection strategy.

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The performance of streamline simulation technique to mimic the waterflooding management process in oil reservoirs

Kazem

Hussein

Adnan

et al. 2023

Fuel

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Using Streamline and Reservoir Simulation to Improve Waterflood Management

Cited by 21 publications

References 5 publications

Improving Water Flooding Management through Facies Remodeling and the Use of Streamlines and Finite Difference Simulators

Improving Water Flooding Management through Facies Remodeling and the Use of Streamlines and Finite Difference Simulators

An injection optimization decision-making tool using streamline based fuzzy logic workflow

The performance of streamline simulation technique to mimic the waterflooding management process in oil reservoirs

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