A Dynamic Discrete Fracture Model for Fluid Flow in Fractured Low-Permeability Reservoirs

Lei, Zhengdong; Gong, Bin; Wang, Fang; Wang, Tingting; Li, Qianshan

doi:10.2118/175554-ms

Cited by 8 publications

(3 citation statements)

References 40 publications

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“…The low permeability reservoir will be the major object of development in the future [ 2 ]. A large number of fractures often exist in low permeability reservoirs [ 3 ]. Water channeling, water submerging, and so on are often caused by water flooding in the development process [ 4 ].…”

Section: Introductionmentioning

confidence: 99%

Formulation Development of High Strength Gel System and Evaluation on Profile Control Performance for High Salinity and Low Permeability Fractured Reservoir

Zhang

Song

2017

International Journal of Analytical Chemistry

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For the large pores and cracks of reservoirs with low temperatures, high salinity, and low permeability, a new type of high strength gel ABP system is developed in this paper. The defects of conventional gels such as weak gel strength, no gelling, and easy dehydration are overcome under the conditions of low temperature and high salinity. The temperature and salt resistance, plugging characteristics, and EOR of the gel system are studied. Under the condition of 32°C and 29500 mg/L salinity, the ABP system formulation is for 0.3% crosslinking agent A + 0.09% coagulant B + 3500 mg/L polymer solution P. The results show that when the temperature was increased, the delayed crosslinking time of the system was shortened and the gel strength was increased. The good plugging characteristics of the ABP system were reached, and the plugging rate was greater than 99% in cores with different permeability. A good profile control performance was achieved, and the recovery rate was improved by 19.27% on the basis of water flooding. In the practical application of the gel system, the salinity of formation water and the permeability of fractures are necessary to determine the appropriate formulation.

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Section: Introductionmentioning

confidence: 99%

Formulation Development of High Strength Gel System and Evaluation on Profile Control Performance for High Salinity and Low Permeability Fractured Reservoir

Zhang

Song

2017

International Journal of Analytical Chemistry

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“…Besides, some scholars dealt with fracture propagation problems during the waterflooding process in a similar way, respectively [11][12][13]. In recent years, the discrete fracture model (DFM) was used to realize the dynamic changes of fractures [14,15] but was limited to the complexity of grid division. A dynamic fracture model framework was established in which the opening and closure of fractures were reflected by permeability change of grids [16,17]; however, the model oversimplifies the characterization of fractures.…”

Section: Introductionmentioning

confidence: 99%

An Improved Embedded Discrete Fracture Model with Fracture Growth for Water-Induced Fracture Simulation in Low Permeability Reservoirs

et al. 2022

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Water injection is often used to supply formation energy in low permeability reservoirs. A lot of field data shows that fractures nearby the wellbores may extend hundreds of meters because of the poor injectability which is called water-induced fractures. The presence of these fractures significantly changes the flow of injected water thus affecting the development effects. However, few studies of reservoir numerical simulation methods have been presented to simulate the dynamic changes of fractures in the long-term waterflooding process. This study is based on the embedded discrete fracture model (EDFM) in which the fracture system has less dependence on the grid system. By improving the preprocessing algorithm, fracture growth can be considered in EDFM which is called the dynamic embedded discrete model (dEDFM). This new method provides an innovative idea for fracture propagation simulation by attaching new fracture elements to the original fractures once the failure criterion is satisfied. Meanwhile, there is no need to calculate the stress field once the in situ stress is provided, so the computational efficiency is greatly improved compared with the fluid-solid coupling method. Besides, dEDFM has a flexible way of handling fracture elements, so it is suitable for water-induced fracture simulation. Results show that fracture propagation speed is significantly influenced by matrix permeability, in situ stress, and injection intensity, and if the water-induced fractures propagate faster than the original waterfront movement velocity, changing law of the water content rate rising of production wells in different directions will be different. The contribution of this work lies in that it provides a suitable and efficient way for reservoir engineers to deal with water-induced fractures since the propagation of fractures can be considered when it comes to reservoir numerical simulation, and it is helpful for production data prediction and development adjustment in low permeability reservoirs.

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“…Modern-day streamline simulation can not only solve black oil or first contact miscible problems [1], but also complex reservoir recovery processes such as polymer flooding [7,8], compositional gas injection [9], and thermal recovery [5,6,10]. Recovery in fractured reservoirs could be modeled using the streamline method through a dual porosity/permeability approach [11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Waterflood Management Using Hybrid Approach of Streamline‐Based Interwell Flux Information and Finite Volume Reservoir Simulation

Zhu

Lei

Chen

2018

Advances in Civil Engineering

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In this work, we implement new software for improved waterflood management by combining classical finite volume reservoir simulation together with streamline tracing and corresponding interwell flux evaluations to optimize waterflood performance. We have introduced two basic modules here: a commercial reservoir simulator and our own streamline tracing and waterflood management program. Waterflood simulation is performed for a certain time span until simulation is paused, and the streamline tracing program is called to calculate interwell fluxes and adjust new well rates for better waterflood performance. The simulation continues afterwards until the next tracing and adjustment point is reached. The two modules work iteratively. The streamline tracing program is designed to trace streamlines on a compressible velocity field and a general corner point grid system with nonneighboring connections. The new injection rates are adjusted according to each well's injection efficiency calculated from interwell multi-phase fluxes. Streamline tracing is performed successfully not only on simple geometry corner point grid cases, but also on heavily faulted realistic reservoirs under waterflood. After readjusting injection rates multiple times during the simulation, we typically observe a reduction in field water cut of up to 5% and an increase in oil recovery in our test cases. Interwell flux information serves as effective diagnostic tools to identify injector-producer pairs with large amount of water cycling. All simulations conducted here are rigorously finite volume based, which takes into account the full physics of nonadvective processes such as gravity and capillary effects. In conclusion, we have implemented a streamline‐based waterflood management program which works iteratively and cooperatively with a commercial reservoir simulator, without switching to streamline simulation. It provides an effective solution for improving oil recovery in brown fields by combining the rigorous mathematical nature of finite volume simulation and the power of streamline-based flood management.

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A Dynamic Discrete Fracture Model for Fluid Flow in Fractured Low-Permeability Reservoirs

Cited by 8 publications

References 40 publications

Formulation Development of High Strength Gel System and Evaluation on Profile Control Performance for High Salinity and Low Permeability Fractured Reservoir

Formulation Development of High Strength Gel System and Evaluation on Profile Control Performance for High Salinity and Low Permeability Fractured Reservoir

An Improved Embedded Discrete Fracture Model with Fracture Growth for Water-Induced Fracture Simulation in Low Permeability Reservoirs

Waterflood Management Using Hybrid Approach of Streamline‐Based Interwell Flux Information and Finite Volume Reservoir Simulation

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