Application Precision Control Fracturing in Water Flooding Development During Extra High Water Cut

With Lamadian Oilfield entering the late stage of ultra-high water cut, the number of thick layers in water drive is becoming less and less, so it is imperative to study the remaining oil in thin difference reservoir. For the thin difference reservoir, the independent off surface reservoir has naturally become an important research object [1]. It is necessary to study the waterflooding condition of the independent outer surface reservoirs to find out the producing law of the thin difference reservoirs at present. In this paper, we mainly use thewater washing data of independent outer surface reservoir and core data of sidewall of coring well to find the water flooding interpretation law of independent outer surface reservoir.This paper focuses on the analysis of the characteristics of the electric logging curve of the independent off surface reservoir after water flooding, and summarizes a set of qualitative interpretation methods suitable for the independent off surface reservoir of Lamadian oilfield. This method can improve the accuracy of waterflooded layer interpretation and meet the needs of remaining oil potential tapping in the later stage of ultra-high water cut.

Download Full-text

Microscopic Determination of Remaining Oil Distribution in Sandstones With Different Permeability Scales Using Computed Tomography Scanning

Journal of Energy Resources Technology ◽

10.1115/1.4043131 ◽

2019 ◽

Vol 141 (9) ◽

Cited By ~ 36

Author(s):

Yongfei Yang ◽

Haiyuan Yang ◽

Liu Tao ◽

Jun Yao ◽

Wendong Wang ◽

...

Keyword(s):

Distribution Pattern ◽

Oil Recovery ◽

Distribution Patterns ◽

High Water ◽

Water Flooding ◽

Oil Distribution ◽

Computed Tomography Scanning ◽

Remaining Oil ◽

High Water Cut ◽

Water Cut

To investigate the characteristics of oil distribution in porous media systems during a high water cut stage, sandstones with different permeability scales of 53.63 × 10−3 μm2 and 108.11 × 10−3 μm2 were imaged under a resolution of 4.12 μm during a water flooding process using X-ray tomography. Based on the cluster-size distribution of oil segmented from the tomography images and through classification using the shape factor and Euler number, the transformation of the oil distribution pattern in different injection stages was studied for samples with different pore structures. In general, the distribution patterns of an oil cluster continuously change during water injection. Large connected oil clusters break off into smaller segments. The sandstone with a higher permeability (108.11 × 10−3 μm2) shows the larger change in distribution pattern, and the remaining oil is trapped in the pores with a radius of approximately 7–12 μm. Meanwhile, some disconnected clusters merge together and lead to a re-connection during the high water cut period. However, the pore structure becomes compact and complex, the residual nonwetting phase becomes static and is difficult to move; and thus, all distribution patterns coexist during the entire displacement process and mainly distribute in pores with a radius of 8–12 μm. For the pore-scale entrapment characteristics of the oil phase during a high water cut period, different enhance oil recovery (EOR) methods should be considered in sandstones correspondent to each permeability scale.

Download Full-text

Practice and Theory of Restructuring Water Flooding Series in Sabei Oilfield

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.616-618.690 ◽

2012 ◽

Vol 616-618 ◽

pp. 690-695

Author(s):

Ji Cheng Zhang ◽

Hong Mei Li

Keyword(s):

High Water ◽

Water Flooding ◽

Dynamic Regulation ◽

Primary Network ◽

Infill Drilling ◽

Development Area ◽

High Water Cut ◽

Water Cut ◽

Oilfield Development

In Sabei Development Area, with the developments of oilfield infill wells, the production targets of each set of well nets went bad and had interleaved distributions with old well patterns. At the same time, polymer flooding well patterns made the conflict of cohesion and dynamic regulation outstanding. Especially, Beierdong, which was the earliest block using infill drilling modification, got the good development effect at beginning, however, with the progress of oilfield development, there were some troubles in the development period with extra high water, such as long section of perforation, obvious inconsistencies between formations and high water of layers, which brought difficulties to dynamically adjusting. To fully exploit the remaining oil potential, this paper selected 1.30 km2 west blocks in Beierdong, made tests about sediment group restructuring to improve water flooding development effect, redistribute the series of strata and redistribute the flooding network according to the characteristics of development between the layers, combined comprehensive consideration with follow-up adjustment such as primary network, injection production system and type II reservoir the tertiary oil production, optimized the layers combination and well patterns arrangement, finally formed technical ideas of high water cut layers adjustment and well nets evolution.

Download Full-text

Mechanisms of water flooding characteristic curve upwarping at high water-cut stage and influencing factors

Chinese Science Bulletin (Chinese Version) ◽

10.1360/tb-2019-0132 ◽

2019 ◽

Vol 64 (26) ◽

pp. 2751-2760 ◽

Cited By ~ 1

Author(s):

Jun Yao ◽

Lei Zhang ◽

Hai Sun ◽

Tao Huang ◽

Yongfei Yang ◽

...

Keyword(s):

Influencing Factors ◽

Characteristic Curve ◽

High Water ◽

Water Flooding ◽

High Water Cut Stage ◽

High Water Cut ◽

Water Cut

Download Full-text

Techniques for improving the water-flooding of oil fields during the high water-cut stage

Oil & Gas Science and Technology – Revue d’IFP Energies nouvelles ◽

10.2516/ogst/2019042 ◽

2019 ◽

Vol 74 ◽

pp. 69 ◽

Cited By ~ 1

Author(s):

Kuiqian Ma ◽

Ao Li ◽

Shuhao Guo ◽

Jieqiong Pang ◽

Yongchao Xue ◽

...

Keyword(s):

Oil Recovery ◽

Water Injection ◽

Reduction Rate ◽

High Water ◽

Water Flooding ◽

Variable Intensity ◽

Remaining Oil ◽

High Water Cut Stage ◽

High Water Cut ◽

Water Cut

The multi-layer co-exploitation method is often used in offshore oilfields because of the large spacing between the injection and production wells. As oilfields gradually enter the high water-cut stage, the contradiction between the horizontal and vertical directions becomes more prominent, and the distribution of the remaining oil is more complex. Oilfields are facing unprecedented challenges in further enhancing oil recovery. Using oilfield A, which is in the high water-cut stage, as the research object, we compiled a detailed description of the remaining oil during the high water-cut stage using the information collected during the comprehensive adjustment and infilling of the oilfield. In addition various techniques for tapping the potential reservoir, stabilizing the oil, and controlling the water were investigated. A set of key techniques for the continuous improvement of the efficiency of water injection after comprehensive adjustment of high water-cut fields was generated. Based on the determined configuration of the offshore deltaic reservoir, a set of detailed descriptive methods and tapping technology for extracting the remaining oil in the offshore high water-cut oilfield after comprehensive adjustment was established. By considering the equilibrium displacement and using a new quantitative characterization method that includes displacement, a new technique for determining the quantity of water that needs to be injected into a stratified injection well during the high water-cut stage was established. Based on the principle of flow field intensity reconfiguration, a linear, variable-intensity, alternating injection and withdrawal technique was proposed. With the application of this series of techniques, the increase in the water content was controlled to within 1%, the natural reduction rate was controlled to within 9%, and the production increased by 1.060 × 107 m3.

Download Full-text

The Research of Remaining Oil Distribution in High Water Cut Oilfield

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.591-593.2555 ◽

2012 ◽

Vol 591-593 ◽

pp. 2555-2558

Author(s):

Cheng Fu ◽

Bin Huang

Keyword(s):

High Water ◽

Water Flooding ◽

Production Plant ◽

3D Geological Modeling ◽

Oil Distribution ◽

High Efficient ◽

High Water Cut Stage ◽

High Water Cut ◽

Water Cut ◽

Oilfield Development

The western South-eight block which is located in the comprehensive tap demonstration area of NO.2 oil production plant, has already gone through three years’ fine development. The production has been stable, the rising amplitude of comprehensive water cut has been small, and the natural decline rate has been controlled effectively. But with the deep development, this block has gone into the late ultra-high water cut stage. To maintain high efficient water flooding development is more and more difficult, therefore fine 3D geological modeling and reservoir numerical simulation work have been carried out. And some practical residual oil saturation diagrams have been put forward finally towards this block, which has provided a reliable basis for the next oilfield development.

Download Full-text

Effect of Emulsification on Enhanced Oil Recovery during Surfactant/Polymer Flooding in the Homogeneous and Heterogeneous Porous Media

Geofluids ◽

10.1155/2021/6674185 ◽

2021 ◽

Vol 2021 ◽

pp. 1-9

Author(s):

Xiaoyan Wang ◽

Jie Zhang ◽

Guangyu Yuan ◽

Wei Wang ◽

Yanbin Liang ◽

...

Keyword(s):

Enhanced Oil Recovery ◽

Oil Recovery ◽

High Water ◽

Heterogeneous Porous Media ◽

Recovery Factor ◽

Water Flooding ◽

Core Flooding ◽

Positive Role ◽

High Water Cut ◽

Water Cut

Surfactant polymer (SP) flooding has become an important enhanced oil recovery (EOR) technique for the high-water cut mature oilfield. Emulsification in the SP flooding process is regarded as a powerful mark for the successful application of SP flooding in the filed scale. People believe emulsification plays a positive role in EOR. This paper uses one-dimensional homogenous core flooding experiments and parallel core flooding experiments to examine the effect of emulsification on the oil recoveries in the SP flooding process. 0.3 pore volume (PV) of emulsions which are prepared using ultralow interface intension (IFT) SP solution and crude oil with stirring method was injected into core models to mimic the emulsification process in SP flooding, followed by 0.35 PV of SP flooding to flood emulsions and remaining oil. The other experiment was preformed 0.65 PV of SP flooding as a contrast. We found SP flooding can obviously enhance oil recovery factor by 25% after water flooding in both homogeneous and heterogeneous cores. Compared to SP flooding, emulsification can contribute an additional recovery factor of 3.8% in parallel core flooding experiments. But there is no difference on recoveries in homogenous core flooding experiments. It indicates that the role of emulsification during SP flooding will be more significant for oil recoveries in a heterogeneous reservoir rather than a homogeneous reservoir.

Download Full-text

Cyclic Injection Scheme Optimization Research in Gaotaizi Reservoirs of Daqing Oilfield

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.803.334 ◽

2013 ◽

Vol 803 ◽

pp. 334-337

Author(s):

Ji Hong Zhang ◽

Zi Jian Zhou ◽

Xi Ling Chen ◽

Ming Jun Liu

Keyword(s):

Effective Means ◽

High Water ◽

Oil Field ◽

Water Flooding ◽

Injection Timing ◽

Scheme Optimization ◽

High Water Cut ◽

Water Cut ◽

Technical Basis ◽

Oilfield Development

With the deepening of the oilfield development, oil field has entered the high water cut period. The rate of water cut increasing and production decline are accelerate. It is needed to adjust the way of exploitation in order to improve oilfield exploitation effect. Cyclic water flooding is one of effective means to improve oilfield development effect with the advantages of small investment, quick effect, reduce inefficient output and improve oilfield overall development benefit. In this paper, we use the means of numerical simulation to study the injection timing and reasonable working systems of different types of Wells. Technical basis is provided for further study and field test.

Download Full-text

Analysis all Kinds of Reservoir Water Degree Condition of East Xing Six District of Daqing Oilfield

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.868.585 ◽

2013 ◽

Vol 868 ◽

pp. 585-588

Author(s):

Yi Kun Liu ◽

Xue Ming Wang ◽

Shi Yuan Shao ◽

Ming Yang ◽

Yong Ping Wang

Keyword(s):

High Water ◽

Oil Field ◽

Water Flooding ◽

Reservoir Water ◽

Thickness Change ◽

Degree Condition ◽

Well Pattern ◽

High Water Cut Stage ◽

High Water Cut ◽

Water Cut

East Xing Six District of Daqing oilfield development has 50 years of history, the block has entered high well density, high water cut stage. The apricot East Xing Six District demonstration zone development belongs to the continental sedimentary system, it has reservoir types and physical properties have large differences, It was long-term effected by injected water, after water flooding, water degree condition becomes very complex and unpredictable, so the washing condition analysis is an important guarantee for Daqing oilfield stable production. Using the oil field sealed coring well data, various types of reservoirs washing degree thickness change and growth are analyzed, We can know that with the further water flooding development and well pattern infilling, all kinds of oil reservoir production status; and then analyzes the potential distribution of the oilfields, and provides a basis for the development of the block and the adjustment of the next step of work, has an important guiding significance.

Download Full-text