Optimization of Gel Flooding during the High Water Cut Stage in a Conglomerate Reservoir of the Xinjiang A Oilfield

Xin, Xiankang; Liu, Qian; Liu, Saijun; Yu, Gaoming; Wan, Qingshan

doi:10.3390/polym15071809

Cited by 4 publications

(4 citation statements)

References 37 publications

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“…This is related to the structure of the copolymer. The crosslinking mechanism of the gel is the polycondensation of phenolic resin and amide group in polymer chains [ 1 ]. As the copolymer’s AMPS content rises, the amide group content correspondingly reduces, resulting in a longer crosslinking time and weaker gel strength.…”

Section: Resultsmentioning

confidence: 99%

“…The problem of high water cut in oilfield development needs to be solved urgently, as it has the potential to reduce the utilization efficiency of injected water. A large amount of injected water flows through the high permeability layer, resulting in premature water emergence in oilfield development and a low sweep efficiency of the injected water [ 1 ]. To solve the above problems, common method is to inject selective plugging agents into high-permeability channels such as fractures [ 2 , 3 ].…”

Section: Introductionmentioning

confidence: 99%

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Study on Water-Soluble Phenolic Resin Gels for High-Temperature and High-Salinity Oil Reservoir

Ran

Zhang

Jiang

et al. 2023

Gels

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High water cut of produced fluid is one of the most common problems in reservoir development. At present, injecting plugging agents and other profile control and water plugging technologies are the most widely used solutions. With the development of deep oil and gas resources, high-temperature and high-salinity (HTHS) reservoirs are becoming increasingly common. Conventional polymers are prone to hydrolysis and thermal degradation under HTHS conditions, making polymer flooding or polymer-based gels less effective. Phenol–aldehyde crosslinking agent gels can be applied to different reservoirs with a wide range of salinity, but there exist the disadvantage of high cost of gelants. The cost of water-soluble phenolic resin gels is low. Based on the research of former scientists, copolymers consisting of acrylamide (AM) and 2-Acrylamido-2-Methylpropanesulfonic acid (AMPS) and modified water-soluble phenolic resin were used to prepare gels in the paper. The experimental results show that the gelant with 1.0 wt% AM-AMPS copolymer (AMPS content is 47%), 1.0 wt% modified water-soluble phenolic resin and 0.4 wt% thiourea has gelation time of 7.5 h, storage modulus of 18 Pa and no syneresis after aging for 90 days at 105 °C in simulated Tahe water of 22 × 104 mg/L salinity. By comprehensively comparing the effectiveness of the gels prepared by a kind of phenolic aldehyde composite crosslinking agent and modified water-soluble phenolic resin, it is found that the gel constructed by the modified water-soluble phenolic resin not only reduces costs, but also has shorter gelation time and higher gel strength. The oil displacement experiment with a visual glass plate model proves that the forming gel has good plugging ability and thus improves the sweep efficiency. The research expands the application range of water-soluble phenolic resin gels, which has an important implication for profile control and water plugging in the HTHS reservoirs.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Study on Water-Soluble Phenolic Resin Gels for High-Temperature and High-Salinity Oil Reservoir

Ran

Zhang

Jiang

et al. 2023

Gels

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“…Currently, there is a growing emphasis on the exploration and extraction of global petroleum reserves, particularly in high-temperature and high-salt reservoirs. However, these reservoirs are prone to developing cracks and high-permeability channels in the mining process, resulting in increased water production [1]. The heterogeneity of hightemperature and high-salinity reservoirs is pronounced.…”

Section: Introductionmentioning

confidence: 99%

Preparation and Performance Evaluation of Temperature-Resistant and Salt-Resistant Gels

Li,

Fu,

2024

Gels

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In order to improve the plugging performance of high-temperature and high-salt oil reservoir plugging agents, this paper utilizes a copolymer composed of acrylamide and 2-acrylamide-2-methylpropanesulfonic acid (AM/AMPS) as the polymer, polyethyleneimine as the cross-linking agent, and nylon fiber as the stabilizer to develop a high-temperature- and high-salt-resistant gel system. This study analyzed and evaluated the temperature resistance, salt resistance and blocking performance of the gel system. The evaluation results show that the gel-forming strength of this gel system can reach an H level, and it has good thermal stability at the high temperature of 130 °C. At the high salinity of 240,720 mg/L, the syneresis rate remains below 2.5%, and the gel-forming time is greater than 15 h; the higher the temperature, the shorter the gelling time. The results of our sand-filled pipe-plugging experiment show that the gel system can adapt to sand-filled pipes with different levels of permeability, and reaching a plugging rate of 94%.

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“…Currently, commonly used conformance control techniques to improve oil recovery include mechanical and chemical methods. , Chemical conformance control methods are widely used due to their convenient construction and low cost. , These methods involve injecting chemicals into the formation to adjust the water injection profile in the waterflood swept zone by the effect of either adsorption, retention, or plugging efficiency. , They can divert chase injection water toward high residual oil zones that have not been swept. − These chemicals mainly include in situ cross-linked polymer gels, particle gels, foam, etc., which have been evaluated in the laboratory and applied in the field in Xinjiang’s conglomerate reservoirs. − However, their conformance control effect has become very limited after many years of waterflooding in the field. Thus, it is necessary to select chemical systems with a higher strength to plug high-conductivity channels such as fractures.…”

Section: Introductionmentioning

confidence: 99%

Water Management and Oil Recovery Improvement Performance of High-Strength Preformed Particle Gels in Fractured Conglomerate Reservoirs

Tang

Zhao

et al. 2023

Energy Fuels

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Lithologic reservoirs, such as conglomerate reservoirs, exhibit stronger heterogeneity compared with conventional sandstone reservoirs. Their early stage development usually requires hydraulic fracturing to increase the stimulated reservoir volume (SRV). As a result, high-conductivity channels are generated during waterflooding, which further limit the sweep volume and oil recovery. Traditional particle gels and in situ cross-linked polymer gels exhibit limited field application due to their low plugging strength. In this paper, a high-strength preformed particle–gel (HSPPG) with sticking-together capability was studied through evaluating different factors such as particle size, swelling ratio, injection volume, and their effects on the swelling performance, gel strength, and plugging performance in fractures. The results show that the swollen HSPPGs had strong water swelling and sticking-together ability, exhibited good viscoelasticity, and formed high-strength adhesive bonds on rock surfaces. In addition, as the particle size decreased, the gel’s maximum swelling ratio increased. However, as the swelling ratio of HSPPG increased, the storage modulus G′ and the loss modulus G″ both decreased, but they still displayed excellent elasticity and viscosity. The greater the filling volume of HSPPG in fractured conglomerate rock cores, the stronger the overall plugging efficiency. Oil displacement experiments showed that the oil recovery of fractured conglomerate rock cores treated with HSPPG increased by 22.12 percentage points on the basis of primary waterflooding. Therefore, HSPPG has a promising application prospect in the conformance improvement of strong heterogeneity conglomerate reservoirs.

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Optimization of Gel Flooding during the High Water Cut Stage in a Conglomerate Reservoir of the Xinjiang A Oilfield

Cited by 4 publications

References 37 publications

Study on Water-Soluble Phenolic Resin Gels for High-Temperature and High-Salinity Oil Reservoir

Study on Water-Soluble Phenolic Resin Gels for High-Temperature and High-Salinity Oil Reservoir

Preparation and Performance Evaluation of Temperature-Resistant and Salt-Resistant Gels

Water Management and Oil Recovery Improvement Performance of High-Strength Preformed Particle Gels in Fractured Conglomerate Reservoirs

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