Physical simulation experiments on pore evolution in high-temperature and overpressure reservoirs

Based on metal cutting theory and the key technology of finite element simulation, this paper uses finite element software Deform to establish three-dimensional finite element simulation model and simulate cutting process. This paper uses the work piece material is IN718 high temperature alloys packaged in Deform, and analyzes the processing characteristics of high temperature, choosing the right tools and cutting dosages to simulate. Through the simulation we can get scraps forming process, the surface stress, strain, temperature and cutting force distribution of the workpiece and the tool. We can also get the change rule of cutting force and cutting temperature under the different cutting parameters. The simulation results provide the theoretical basis for the optimization of cutting parameter selection in production practice.

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Accumulation Models of the Natural Gas in the Foreland Basins of China and their Physical Simulation Experiment

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.233-235.2812 ◽

2011 ◽

Vol 233-235 ◽

pp. 2812-2815

Author(s):

Hong Zhang

Keyword(s):

Oil And Gas ◽

Physical Simulation ◽

Phase 1 ◽

Foreland Basin ◽

Thrust Belt ◽

Foreland Basins ◽

Simulation Experiments ◽

Phase 3 ◽

Evolution Phase ◽

The Common

The paper chooses foreland basin as its research object. after summarizing the accumulation characteristics of the different phases and different parts of them, the common models of the whole foreland basin are given and the physical simulation experiments are carried out. It shows that the foreland basins experience three phases of evolution. Phase 1 is the period that the source rock and structure oil and gas traps form. Phase 2 is the period that multi-cycle reservoir and lithologic oil and gas pool form. phase 3 is the period that foreland uplift belt and fault anticline pool form. Then a foreland basins has three different belts including of thrust belt, foredeep and foreland slope belt, foreland uplift belt, and the belts have different accumulation models. With regard to the hydrocarbon accumulation period of the foreland basin, the thrust belt have precedence to other belt. foredeep and foreland slope belt forms the secondary pools. Foreland uplift belt accumulates hydrocarbon very quickly.

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Research on Characteristics of Combination Flooding System and Oil Displacement Efficiency

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.391-392.1047 ◽

2011 ◽

Vol 391-392 ◽

pp. 1047-1050 ◽

Cited By ~ 1

Author(s):

Yan Chang Su ◽

Wen Xiang Wu

Keyword(s):

Binary System ◽

Interfacial Tension ◽

Physical Simulation ◽

Displacement Efficiency ◽

Weak Base ◽

Simulation Experiments ◽

Oil Displacement ◽

Oil Displacement Efficiency ◽

Heterogeneous Cores

By physical simulation experiments, the features of alkali-free binary flooding system (polymer and a new surfactant BS) were contrasted with weak base ternary flooding system and alkali ternary flooding system. The experiment results showed that interfacial tension of BS binary system is the lowest. In the absence of alkali, the viscosity and elasticity of binary system were higher than those of other two ternary flooding systems. By physical simulation experiments with artificial heterogeneous cores, the recovery of BS binary flooding system was 2 percent higher than that of weak base ternary flooding system, and 1.4 percent higher than that of alkali ternary flooding system.

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Evaluation and Application of Endogenous Microorganism Activator in Reservoir after Chemical Flooding

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1051.404 ◽

2014 ◽

Vol 1051 ◽

pp. 404-409

Author(s):

Jian Jun Le ◽

Ji Yuan Zhang ◽

Lu Lu Bai ◽

Rui Wang ◽

Zhao Wei Hou ◽

...

Keyword(s):

Electron Microscopy ◽

High Pressure ◽

Oil Recovery ◽

Physical Simulation ◽

Chemical Flooding ◽

Core Flooding ◽

Simulation Experiments ◽

The Core ◽

Enhance Oil Recovery ◽

Growth And Reproduction

To further enhance oil recovery in reservoir after chemical flooding, an efficient activator formulation for promoting metabolism of endogenous microorganism was researched. Changes in community structure, growth and metabolites of endogenous microorganism were analyzed by methods of aerogenic experiments, physical simulation experiments, electron microscopy scanning (SEM), T-RFLP and Pyrophosphate sequencing. To evaluate whether endogenous microorganism activator screened in laboratory could activate endogenous microorganisms and enhance oil recovery in reservoirs after polymer flooding. The flooding effect and mechanism were studied, and this activator was used in a testing well group in Daqing oilfield. The results of the aerogenic experiments showed that the activator could activate the endogenous microorganisms in the injected water and make them produce a lot of biogas. The pressurized gas reached 2MPa after 60d static culture of activator in a high pressure vessel. The results showed that the activator could activate the endogenous microorganisms in the injected sewage and make them have a lot of growth and reproduction in the core and physical simulation of natural core flooding experiment. In the field test,the incremental oil production was 5957 t while the water content declined by 2.2% after injecting the activator, which provides an effective way to further enhance oil recovery in reservoir after chemical flooding.

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Analysis of Reservoir Choke and Broken Down of Tong Liao Uranium Production

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.868.212 ◽

2013 ◽

Vol 868 ◽

pp. 212-216

Author(s):

Feng Yan

Keyword(s):

Water Quality ◽

Physical Simulation ◽

Injection Pressure ◽

Simulation Experiments ◽

Injection Wells ◽

Clay Swelling

This project aims at the phenomenon of increasing injection pressure of injection wells of the Tong Liao Uranium SW-8E test wells group, carries out the research of reservoir choke and broken down. By analysis of the water quality of injected and produced fluid through the test wells, scaling prediction, physical simulation experiments and other research, we find the main cause of clogging injection wells: Bacteria blockage, scale blockage, solids blockage and reservoir clay swelling blockage. Meanwhile according to the main reasons of reservoir pollution we have carried on pointed research of broken down, excogitate a better integrated and targeted reservoir choke Blocking Remover. Through on-site implementation, the injection pressure is reduced by 0.3-0.4MPa (maximum allowable injection pressure is 2.0MPa), well purge period is extended from three days to three months, this project solves the problems and achieves very good results.

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Research on the Evolution and Damage Mechanism of Normal Fault Based on Physical Simulation Experiments and Particle Image Velocimetry Technique

Energies ◽

10.3390/en14102825 ◽

2021 ◽

Vol 14 (10) ◽

pp. 2825

Author(s):

Xianfeng Peng ◽

Hucheng Deng ◽

Jianhua He ◽

Hongde Chen ◽

Yeyu Zhang

Keyword(s):

Particle Image Velocimetry ◽

Strain Energy ◽

Particle Image ◽

Physical Simulation ◽

Normal Fault ◽

Fault Line ◽

Simulation Experiments ◽

Image Velocimetry ◽

Formation And Evolution ◽

Oil Gas

The formation and evolution of (normal) fault affect the formation and preservation of some reservoirs, such as fault-block reservoirs and faulted reservoirs. Strain energy is one of the parameters describing the strength of tectonic activity. Thus, the formation and evolution of normal fault can be studied by analyzing the variation of strain energy in strata. In this work, we used physical simulation to study the formation and evolution of normal fault from a strain energy perspective. Based on the similarity principle, we designed and conducted three repeated physical simulation experiments according to the normal fault in the Yanchang Formation of Jinhe oilfield, Ordos Basin, China, and obtained dip angle, fault displacement, and strain energy via the velocity profile recorded by high-resolution Particle Image Velocimetry (PIV). As a result, the strain energy is mainly released in the normal fault line zone, and can thus serve as channels for oil/gas migration and escape routes connecting to the earth’s surface, destroying the already formed oil/gas reservoirs. One might need to avoid drilling near the fault line. Besides, a significant amount of strain energy remaining in the hanging wall is the reason why the normal fault continues to evolve after the normal fault formation until the antithetic fault forms. Our findings provide important insights into the formation and evolution of normal fault from a strain energy perspective, which plays an important role in the oil/gas exploration, prediction of the shallow-source earthquake, and post-disaster reconstruction site selection.

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Study on Physical Simulation Experiments of Different Chemical Displacement Systems

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.201-203.2562 ◽

2011 ◽

Vol 201-203 ◽

pp. 2562-2566

Author(s):

Wen Xiang Wu ◽

Deng Hui Mu ◽

Qing Dong Liu

Keyword(s):

Molecular Weight ◽

Enhanced Oil Recovery ◽

Oil Recovery ◽

Physical Simulation ◽

Oil Field ◽

Polymer Molecular Weight ◽

Simulation Experiments ◽

Reservoir Condition ◽

Asp Flooding ◽

Polymer Surfactant

In the reservoir condition of Liaohe oil field, the indoor physical simulation experiments of polymer / surfactant binary combination flooding and polymer / surfactant / alkali (ASP) flooding in the artificial cores have been conducted. The results show that enhanced oil recovery of polymer flooding is about 24.4%, by utilizing experiment project that polymer molecular weight is 19 million, main slug concentration is 1500mg/L. Binary flooding system that molecular weight of polymer is 19 million, main slug concentration is 1500mg/L, 0.3% surfactant YR has improved the oil recovery by 30.1%. The ASP flooding system (19 million 1500mg/L polymer +0.3% surfactant SS+ 1.2%Na2CO3) has improved the oil recovery by 28.4%. It can be seen that the binary flooding system is best.

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Experimental study on the radiation characteristics of downhole acoustic phased combined arc array transmitter

Geophysics ◽

10.1190/geo2012-0114.1 ◽

2013 ◽

Vol 78 (1) ◽

pp. D1-D9 ◽

Cited By ~ 17

Author(s):

Jinping Wu ◽

Wenxiao Qiao ◽

Xiaohua Che ◽

Xiaodong Ju ◽

Junqiang Lu ◽

...

Keyword(s):

Physical Simulation ◽

Radiation Energy ◽

Main Lobe ◽

Water Tank ◽

Acoustic Beam ◽

Radiation Characteristics ◽

Simulation Experiments ◽

Acoustic Image ◽

Directional Radiation ◽

Lobe Width

A new kind of acoustic phased combined arc array transmitter with controllable directivity presented can be used in 3D acoustic image logging. The phased combined arc array is composed of numerous phased arc arrays placed equally along an axis. Each phased arc array contains several array elements arranged around a circumference. The phased combined arc array is considered as the combination of phased arc arrays and linear phased arrays. A directional radiation acoustic beam in the space is generated by simultaneously controlling the phase delay of excitation signals exerted on array elements located in the circumferential and axial directions. To investigate the radiation characteristics, an acoustic transmitter comprising four eight-element phased arc arrays was assembled to conduct physical simulation experiments in a water tank. Experimental results show that the main lobe width of the horizontal radiation energy narrows significantly by exerting phase delayed excitation signals on array elements of phased arc arrays. Adjusting the delay time of excitation signals applied on neighboring-phased arc arrays allows the main lobe direction of the vertical radiation energy to be steered and facilitates the change in the main lobe width of the vertical radiation energy. The phased combined arc array is characterized by controllable horizontal directivity, vertical directivity, and main lobe width of the radiated acoustic beam. More importantly, the acoustic phased combined arc array transmitter is applicable to 3D acoustic image logging, which is helpful in the enhancement of the reliability and accuracy of complex reservoir exploration.

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