Assessing Productivity Impairment of Surfactant-Polymer EOR Using Laboratory and Field Data

Kamouei, Mehdi Izadi

doi:10.2118/190316-ms

Cited by 8 publications

(5 citation statements)

References 48 publications

(44 reference statements)

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“…During the single phase, experiment polymer was injected in a water-saturated core (in absence of oil). Results of this experiment did not suggest any adverse polymer-rock interaction and the residual resistance factor reported (RRF = 2.5) can be considered reasonable compared to those documented in the literature (Izadi, 2015;Martin, Donaruma & Hatch, 1982). However, polymer injection in tertiary mode did show a significant pressure increase (80 psi) and a poor incremental oil recovery (≈ 3% of the OOIP) after the injection (at 0.15 cc/min) of approximately 3 PV and 2 PV of polymer and brine with lower salinity (TDS = 35,000 ppm), respectively.…”

Section: Summary Discussionsupporting

confidence: 74%

“…Izadi, M., Kazemi, H., Manrique, E., Kazempour, M., & Rohilla, N., (2014) and Izadi (2015) recently reported the abnormal pressure response observed during a tertiary polymer flood experiment ( Figure 5). In this research, a polymer solution was injected in 1 ft. Berea core plugs in a single phase (Figure 5a) and at irreducible oil saturation to water (Figure 5b).…”

Section: Summary Discussionmentioning

confidence: 91%

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Historical and recent observations in polymer floods: An update review

Manrique¹,

Ahmadi²,

Samani³

2017

CT&F Cienc. Tecnol. Futuro

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Polymer flooding has been the most widely used chemical enhanced oil recovery (EOR) method. The experience gained over the past decades from laboratory studies to project design and field implementation has been well documented in the literature. The main objectives of this paper are to evaluate recent observations of polymer floods that report injection rates leading to pressure values above the formation fracture pressure (FFP), high polymer production, formation of tight emulsions and/or productivity losses.Based on this review, it can be concluded that no direct evidence exists to support that injecting polymer above the FFP will lead to more polymer production. However, uncertainties associated with the estimation of fracture propagation/dimensions using pressure Fall-Off Tests (FOT) still remain. High polymer production, other than severe channeling, is generally reported in large scale/commercial projects. The impact of oil geochemistry/ composition and water salinity on oil-water-polymer emulsions is commonly overlooked in polymer flood studies. The formation of in-situ emulsions can also explain the injectivity and/or productivity reduction and well test interpretation (i.e. FOT) reported in polymer floods. It was also identified that the OPEX (Operational Expenditures) associated with oil-water separation in the presence of polymer and productivity losses (i.e. workovers, stimulation costs) are generally underestimated. Finally, this review is expected to contribute with the planning, design and implementation of future polymer flood pilots and field expansions. OBSERVACIONES HISTÓRICAS Y RECIENTES EN INYECCIÓN DEPOLÍMEROS: REVISIÓN ACTUALIZADA. OBSERVAÇÕES HISTÓRICAS E RECENTES DE INJEÇÃO DE POLÍMEROS:REVISÃO ACTUALIZADA. EDUARDO MANRIQUE et. al. 18 L a inyección de polímeros es el método químico de recobro mejorado con mayor número de implementaciones a escala de campo. La experiencia adquirida en las últimas décadas desde estudios de laboratorio hasta el diseño e implementación de campo ha sido bien documentada en la literatura. El objetivo principal de este trabajo es evaluar observaciones recientes de proyectos de inyección de polímero reportando tasas de inyección por encima de la presión de fractura de la formación, alta producción de polímero, formación de emulsiones viscosas y/o pérdidas de productividad.Basados en esta revisión, se puede concluir de que no existen evidencias directas de que la inyección de polímero a tasas que impliquen superar la presión de fractura induzcan a una mayor producción de polímeros. Sin embargo, existen incertidumbres relacionadas con la estimación de las dimensiones y propagación de fracturas utilizando pruebas de caídas de presión (FOT). La alta producción de polímero, por razones diferentes a canalizaciones severas, generalmente se reportan en proyectos a escala comercial. Por otra parte, el impacto de la composición y geoquímica del crudo y de la salinidad del agua en la formación de emulsiones agua:petróleo:polímero ha sido subestimado en estudios de in...

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Section: Summary Discussionsupporting

confidence: 74%

Section: Summary Discussionmentioning

confidence: 91%

Historical and recent observations in polymer floods: An update review

Manrique¹,

Ahmadi²,

Samani³

2017

CT&F Cienc. Tecnol. Futuro

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“…From this total, only 3 of the 33 projects on the U.S were performed on carbonate reservoirs, according to Manrique et al (2007). Additionally, two more recent projects can be added to this list, the Illinois pilot (IZADI et al, 2018), and the Middle East pilot performed by Total S.A on an offshore carbonate reservoir (MOREL et al, 2016) summing up 44 projects.…”

Section: State Of the Artmentioning

confidence: 99%

“…From these projects mentioned previously, Sheng (2011), Zhu et al (2012) and Manrique (2007) describe 12 of these projects, and they can be defined as the projects more documented in the literature. From this, it can be concluded: Source: MANRIQUE; MUCI; GURFINKEL, 2007;MOREL et al, 2008;SHENG, 2011;ZHU et al, 2012;CHAUHAN, 2014;IZADI et al, 2018; Next, will be introduced some field implementations, laboratory applications and simulation research relevant to this study as a guide for the work developed.…”

Section: State Of the Artmentioning

confidence: 99%

“…Despite the challenges and risks, it was categorized as a success as safety was maintained during all the project, a significant oil desaturation was achieved, the tracer injection was a success as it helps evaluate the uncertainties on porosity channels, residual oil saturation, and reservoir dispersity. It was reporting a reduction of oil saturation of approximately 4 units of saturation within 1 meter around the well Izadi et al (2018). reported a technically successful SP injection on a pilot scale on the Illinois basin.…”

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confidence: 99%

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Optimization and comparison between polymer, surfactant-polymer and water flooding recoveries in a pre-salt carbonate reservoir considering uncertainties.

García¹,

Sebastian²

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A successful Chemical Enhanced Oil Recovery (CEOR) program starts with a proper process selection for a given field, followed by a formulation of the batch components and a representative simulation step. Also, lab studies, field data, pilot testing, and economic analyses are required before project implementation. This work discusses the state of the art of the Surfactant-Polymer flood (SP) EOR technique, specifically for carbonate reservoirs, and states a methodology mixing laboratory, literature and reservoir simulation, to assess its applicability under economic and geological uncertainties. First, it is explained concepts related to the research, such as polymer, surfactant, microemulsion, functionalities of each chemical injected, advantages, and disadvantages. Second, a state of the art is developed about recent SP advances. Third, it is described the laboratory method being used to evaluate some properties of the chemicals injected for the Polymer flooding (PF) and SP flooding. Later, the simulation study step being conducted is explained, which will define the volume recovered and Net Present Value (NVP) obtained for the PF, SP injections and water flooding, in different economic and geological scenarios for two models resembling carbonate Brazilian reservoirs. Finally, it is discussed the results obtained, future researches that could be performed, and the respective bibliography. As part of this research, it was verified the Xanthan gum shows adequate results at different concentrations; that a surfactant specifically selected for a carbonate rock with low Interfacial tension and low adsorption is required; also that for the Lula based model although the polymer flooding and Surfactant-Polymer simulation brought some benefits, when compared with the waterflooding, on different economic scenarios and geological models, the high cost associated to the chemical handling facilities and volume spent do not make favorable its application in any scenario. On the contrary for the Cerena I field model, it was found the SP and Polymer flooding on all cases brought better results when compared with the water injection. Concluding that the performance and success of a CEOR program require finding the correct slug characteristics for the unique conditions of each reservoir. In this research the reservoir with higher production rates made possible the use of Chemical EOR presenting better results than a water injection however in the smaller model they were not economically viable due to the additional associated prices.

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