Study on the Mechanism of Reversing Oil Displacement for Increasing the Production of Crude Oil in Low Permeability and Ultra-Low Permeability Oil Field

In this paper, new alkali-free hydroxyl sulfobetaine surfactant designed for the target oil reservoir in our laboratory was used. The interfacial tension property, emulsifying capability, peeling the oil film between surfactant/polymer binary oil-displacing system and the target crude oil and the viscosity of the system were investigated systematically. Finally, oil-displacement capacity of the binary oil-displacing system on the target reservoirs natural cores was discussed. The experimental results indicated under the actual condition of the target oil reservoir with total salinity ranging from 4694mg/L to 24270mg/L and temperature being 50°C, the surfactant/polymer binary oil-displacing system with surfactant mass fraction ranging from 0.025% to 0.2% and polymer mass fraction of 0.15% could reach ultra-low interfacial tension with the target crude oil rapidly. The surfactant/polymer binary system above mentioned could emulsified crude oil easily and the volume fraction of WinsorIII middle phase microemulsion could be up to 53.06%. It also could peel the oil film adhered to oil-wet quartz plate quickly and increase the viscoelastic of surfactant/polymer binary oil-displacing system slightly. The displacement experiments made by using natural core in the target oil field indicated that oil recovery was improved by 15% after water flooding. All these results showed that hydroxyl sulfobetaine surfactant had a good potential for flooding in EOR.

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Field Test of Carbon Dioxide Gas Channeling Foam Plugging

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.316-317.769 ◽

2013 ◽

Vol 316-317 ◽

pp. 769-772

Author(s):

Yun Bo Bao

Keyword(s):

Carbon Dioxide ◽

Gas Injection ◽

Oil Field ◽

Low Permeability ◽

Displacement Efficiency ◽

Oil Displacement ◽

Carbon Dioxide Gas ◽

Oil Displacement Efficiency ◽

Gas Channeling ◽

Swept Volume

Gas channeling is tending to happen in CO2 immiscible flooding process, and that would seriously influence gas injection development. In order to plugging gas channeling channel effectively, improve inspiration and production profile, and enhance swept volume and oil displacement efficiency of the gas injection, field trials of foam seal channeling are carried out. The tests showed that carbon dioxide foam can effectively plugging the gas channeling channel, expand the swept volume of carbon dioxide gas, reduce invalid circulation, and enhancing oil displacement efficiency. The anti-sealing channeling technology is cost-efficient, and it is suitable for Daqing peripheral low permeability oil field on gas injection development. It has good prospects, and it will provide a strong technical support on gas injection development of low permeability reservoir.

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Dynamics of Changes in Composition and Stability of the Heavy Oil Sampled from the Usinskoye Oil Field as a Result of Formation Treatment with a Sol-Forming EOR System

Journal of Siberian Federal University Chemistry ◽

10.17516/1998-2836-0142 ◽

2019 ◽

pp. 464-472

Author(s):

Darya I. Chuikina ◽

Tatiana V. Petrenko ◽

Larisa D. Stakhina

Keyword(s):

Crude Oil ◽

Oil Recovery ◽

Heavy Oil ◽

Oil Field ◽

Aggregative Stability ◽

Heavy Oils ◽

Asphaltene Precipitation ◽

Liquid Adsorption ◽

Oil Displacement ◽

Before And After

The paper deals with a sol-forming system for oil recovery enhancement (EOR system) used to increase the rate of heavy oil displacement. The effect of sol-forming EOR system during the heavy oil displacement on the composition and stability of oil sampled from the Usinskoye oil field of Russia is investigated. The composition of a crude oil also plays an important role in changing its stability. The work is aimed to investigate stability of heavy crude oil in regards to asphaltene precipitation. For asphaltene toluene/n-heptane solutions, the aggregation stability of asphaltenes based on сhange in the optical density with time is investigated via spectrophotometry. SARA analysis is used to characterize the compositions of heavy oils. First, the content of asphaltenes precipitated from the oil samples is determined and then the samples of deasphalted crude oil (maltenes) are analyzed by the method of liquid adsorption chromatography for the purpose to study the composition of oil sampled from the wells before and after their treatment with the sol-forming EOR system. It is found out that the treatment of reservoir crude oil with the sol-forming EOR system results in changes in composition of saturated, aromatic hydrocarbons, resins, and asphaltenes (SARA components) and aggregative stability of produced oil. The results obtained showed that the aggregative stability of heavy oil depends not only on the content of SARA components in the dispersion medium but on the presence of metalloporphyrins in the oil. Metalloporphyrins could act as inhibitors of asphaltene precipitation, which is an additional factor responsible for the stabilization of the oil dispersed system

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The Effect of EOR Technologies on the Content of Petroporphyrins and Naphthenic Acids of Recovered Heavy Oils from Usinskoye Field

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.670.39 ◽

2015 ◽

Vol 670 ◽

pp. 39-43 ◽

Cited By ~ 3

Author(s):

Larisa D. Stakhina ◽

Danil S. Petrenko ◽

Adina S. Spabekova

Keyword(s):

Crude Oil ◽

Heavy Oil ◽

Naphthenic Acids ◽

High Density ◽

Oil Field ◽

Steam Treatment ◽

Crude Oils ◽

Heavy Oils ◽

Oil Displacement

The effect of EOR technologies on the contents of petroporphyrins and naphthenic acids in recovered crude oil was studied using heavy oil from Usinskoye oil field (Republic Komi), which has high density, high content nickel and vanadium porphyrin complexes, the oxygen compounds and naphthenic acids. It is found that EOR system in combination with thermal steam treatment injection brings about an increase in the content of vanadium porphyrin complexes of crude oils. As a result of the oil-displacement EOR system injection, the naphthenic acids content would decrease in heavy oils.

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Development and Application of Efficient Oil Displacement System for Middle-Low Permeability and High Pour-Point Heavy Oil Reservoirs

Complexity ◽

10.1155/2021/3046584 ◽

2021 ◽

Vol 2021 ◽

pp. 1-10

Author(s):

Zhenfu Ma ◽

Kai Zhang ◽

Mengjie Zhao ◽

Lu Liu ◽

Chao Zhong ◽

...

Keyword(s):

Crude Oil ◽

Pour Point ◽

Freezing Point ◽

Reduction Rate ◽

Field Application ◽

Viscosity Reduction ◽

Low Permeability ◽

Oil Viscosity ◽

Oil Displacement ◽

Displacement System

In view of the problems of low permeability, high oil viscosity and freezing point, and low productivity of single well in Luo 321 and Luo 36 blocks of Luojia Oilfield, the chemical viscosity-reducing cold production technology was studied. By analyzing the properties of crude oil, it is concluded that the reason for high viscosity and high freezing point is the high content of asphaltene, pectin, and wax. The viscosity is mainly affected by asphaltene; the wax precipitation point and pour point are mainly affected by the wax; and the solidification point is affected by the wax and asphaltene. The treatment idea of reducing viscosity and inhibiting wax is determined. By compounding the synthetic pour point depressant POA-VA and the viscosity reducer DBD-DOPAMA, the effect of reducing the viscosity and freezing point of crude oil was evaluated. PD-7 (POA-VA 40%, DBD-DOPAMA 50%, and P-10C 10%) system was selected as the optimal formula. When the concentration of the system is 10%, the viscosity reduction rate reaches 95.2%; the freezing point can reduce by 10.2°C; it has good oil sample adaptability, salinity resistance, and temperature resistance; and the oil washing rate can reach more than 60%. The oil displacement system was injected into the formation by means of multiconcentration and multislug and was applied in the field of Luo 321-2 Well. A total of 500 t of the oil displacement system was injected, and the effect of measures lasted for 400 days, with a cumulative oil increase of 883 t. It has been applied in different blocks 30 times and achieved a good field application effect.

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The Application of In-fissure Divert Fracturing Technology in Ultra-low Permeability Oil Field

10.2523/13489-ms ◽

2009 ◽

Cited By ~ 1

Author(s):

Zhenyun Song ◽

Xiaowen Wang ◽

Yanpeng Ren ◽

Yong Li ◽

Weishi Zheng

Keyword(s):

Oil Field ◽

Low Permeability

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Relations of the Gravity of Crude Oil to the Geologic Structure in Okha Oil Field, North Sakhalin

Journal of the Japanese Association for Petroleum Technology ◽

10.3720/japt.5.91 ◽

1937 ◽

Vol 5 (2) ◽

pp. 91-114

Author(s):

Nobuyosi Usizima

Keyword(s):

Crude Oil ◽

Oil Field ◽

Geologic Structure

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Comparison of the crude oil removal effects of different surfactants in electrokinetic remediation of low-permeability soil

Journal of Environmental Chemical Engineering ◽

10.1016/j.jece.2021.105190 ◽

2021 ◽

Vol 9 (4) ◽

pp. 105190

Author(s):

Yunlong Li ◽

Liguo Jiang

Keyword(s):

Crude Oil ◽

Electrokinetic Remediation ◽

Low Permeability ◽

Oil Removal ◽

Crude Oil Removal

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TEMPERATURE EFFECT ON DENSITY AND VISCOSITY OF LIGHT, MEDIUM, AND HEAVY CRUDE OILS

10.33580/2313-5743-2020-8-1-177-206 ◽

2020 ◽

Author(s):

D Sagdeev ◽

◽

Ch. Isyanov ◽

I Gabitov ◽

V Khairutdinov ◽

...

Keyword(s):

Crude Oil ◽

Atmospheric Pressure ◽

Oil Field ◽

Viscosity Data ◽

Rotational Viscometer ◽

Correct Operation ◽

Hydrostatic Weighing ◽

Weighing Method ◽

Light Medium ◽

Measured Density

The density and dynamic viscosity of four light, medium, and heavy (extra-viscous) crude oil samples from Tatarstan Oil Field (Russian Federation) have been measured over the temperature range from (293 to 473) K (for density) and from (293 to 348) K (for viscosity) at atmospheric pressure (101 kPa). The density measurements were made using a new densimeter based on hydrostatic weighing method. The viscosity measurements of the same crude oil samples were made us-ing Brookfield rotational viscometer (DV-II+PRO, LVD-II+PRO). The combined expanded uncertainty of the density, viscosity, atmospheric pressure, and temperature measurements at 0.95 confidence level with a coverage factor of k = 2 is estimated to be 0.16 %, 1.0 %, 1.0 %, and 20 mK, respectively. For validation of the reliability and accuracy of the measured density data and correct operation of the new densimeter, all oil samples were measured using the pycnometric method. The present study showed that the densities measured using the new hydrostatic weighing densimeter (HWD) are agree with the values obtained with pycnometric method within (0.03 to 0.14) %. The measured density and viscosity data were used to develop widerange correlations as a function of temperature and API characteristics. The measured densities were represented using simple function of temperature (polynomial type) with API gravity dependent parameters with an accuracy of AAD within from (0.10 to 0.18) %. The measured viscosity data were also used to develop linear Arrhenius and VTF models. API gravity dependence of the Arrhenius parameters was studied.

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