Development of a novel waterflood conformance control system

Frampton, H.; Morgan, Jessica; Cheung, Stephen K.; Munson, L.H.; Chang, Kin-Tai; Williams, Douglas E.

doi:10.2118/89391-ms

Cited by 141 publications

(81 citation statements)

References 12 publications

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“…Documented CDG's projects include Daqing Field in China [96,102,103], El Tordillo [104] and Loma Alta Sur [105] fields in Argentina and in multiple U.S. oilfields [106,107]. Regarding BrightWater® [108], at the present time Milne Point in Alaska is the only field application discussed or documented in the public domain [109,110]. However, it is expected that the number of CDG's and BrightWater® field applications will increase in the near future based on recent field and laboratory studies underway, opening a new window of opportunities for EOR chemical methods [111][112][113][114].…”

Section: Chemical Methodsmentioning

confidence: 99%

Enhanced Oil Recovery: An Update Review

2010

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With the decline in oil discoveries during the last decades it is believed that EOR technologies will play a key role to meet the energy demand in years to come. This paper presents a comprehensive review of EOR status and opportunities to increase final recovery factors in reservoirs ranging from extra heavy oil to gas condensate. Specifically, the paper discusses EOR status and opportunities organized by reservoir lithology (sandstone and carbonates formations and turbiditic reservoirs to a lesser extent) and offshore and onshore fields. Risk and rewards of EOR methods including growing trends in recent years such as CO 2 injection, high pressure air injection (HPAI) and chemical flooding are addressed including a brief overview of CO 2 -EOR project economics.

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Section: Chemical Methodsmentioning

confidence: 99%

Enhanced Oil Recovery: An Update Review

2010

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“…These drawbacks include the inability to control gelation time, the uncertainty of gelling due to shear degradation, gelant composition changes caused by chromatographic fractionation effect and dilution by formation water. PPG is created on the surface and injected as gel particles (Chauveteau et al 2001;Pritchett et al 2003;Frampton et al 2004;Rousseau et al 2005;Sydansk et al 2005;Bai et al 2007a, b;Zaitoun et al 2007;Wu et al 2011). PPGs are a better selection than in situ gels from the point of controlling the particle sizes for different reservoir characterization.…”

Section: Introductionmentioning

confidence: 99%

Influence of strong preformed particle gels on low permeable formations in mature reservoirs

Elsharafi

Bai

2016

Pet. Sci.

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In mature reservoirs, the success of preformed particle gel (PPG) treatment rests primarily on the ability of the PPG to reduce and/or plug the high permeable formations, but not damage the low permeable formations. Static test models (filtration test model and pressure test model) were used to determine the effect of PPG on low permeable formations. This work used a strong preformed particle gel, Daqing (DQ) gel made by a Chinese company. The particle gel sizes were ranged from 30 to 120 mesh for this work. PPGs are sized in a millimeter or micrometer, which can absorb over a hundred times their weight in liquids. The gel strength was approximately 6500 Pa for a completely swollen PPG with 1 % (weight percentage) NaCl solution (brine). 0.05 %, 1 %, and 10 % NaCl solutions were used in experiments. Sandstone core permeability was measured before and after PPG treatments. The relationship between cumulative filtration volumes versus filtration times was determined. The results indicate that DQ gels of a particle size of 30-80 mesh did not damage the cores of a low permeability of 3-25 mD. The DQ gels of a smaller particle size ranging from 100 to 120 mesh damaged the core and a cake was formed on the core surface. The results also indicate that more damage occurred when a high load pressure (400 psi) was applied on the high permeability cores (290-310 mD). The penetration of the particle gels into the low permeable formations can be decreased by the best selection of gel types, particle sizes, and brine concentrations.

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“…Preformed gels are three-dimensional, hydrophilic crosslinked polymers which, in contact with water, swell but do not dissolve as a result of a chemical or physical crosslinking and often than not will undergo a volume phase change when surrounding conditions such as temperature, salinity or pH change (Wen-Fu and Sung-Chuan 2006;Kytai and Jennifer 2002). The novelty and main difference between this technology and in situ gel technology is that with preformed gel, gel formation takes place at the surface well ahead before injection, whereas with in situ gelation, crosslinking and gel formation occur downhole in the reservoir (Bai et al 2013;Frampton et al 2004). This technology was revolutionary in that it addressed some of the problems posed by in situ gelation such as dilution and dispersion of gelant, chromatographic separation of gelant solution, dehydration, syneresis, and most importantly damage of low permeability zones.…”

Section: Introductionmentioning

confidence: 99%

A more superior preformed particle gel with potential application for conformance control in mature oilfields

Tongwa

Bai

2014

J Petrol Explor Prod Technol

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The present work presents a nanocomposite preformed particle gel for conformance control in mature oilfields. This product was observed to have a better performance than conventional hydrogels without nanomaterials. Preformed particle hydrogel was designed by the reaction of monomer, initiator, crosslinker, additives, and calcium montmorillonite nanomaterial, whereas conventional hydrogel is designed from just monomer, initiator, crosslinker and additives. The presence of nanomaterial in hydrogel design affords it tremendous improvement in nanocomposite gel properties and behavior compared to conventional hydrogels without any nanomaterial. Additionally, swelling performance, post-degraded gel viscosity, and long-term thermal resistance of nanocomposite gel increased by several orders of magnitude compared to hydrogels with no nanomaterial. Environmental Scanning Electron Microscopy (ESEM) revealed the presence of a very dense 3-D network compared to hydrogels with no nanomaterial. On incorporation of nanomaterial, increase in gel strength of up to 2,150 % was observed. Thus, they are potential replacements for existing preformed particle gels in mitigating permeability variations in mature reservoirs.

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Development of a novel waterflood conformance control system

Cited by 141 publications

References 12 publications

Enhanced Oil Recovery: An Update Review

Enhanced Oil Recovery: An Update Review

Influence of strong preformed particle gels on low permeable formations in mature reservoirs

A more superior preformed particle gel with potential application for conformance control in mature oilfields

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