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The mechanisms of thermal solidification agent promoting steam diversion in heavy oil reservoirs
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作者 Zhan-Xi Pang Qian-Hui Wang +2 位作者 Qiang Meng Bo Wang Dong Liu 《Petroleum Science》 SCIE EI CAS CSCD 2024年第3期1902-1914,共13页
At high cycles of steam huff&puff,oil distribution in reservoirs becomes stronger heterogeneity due to steam channeling.Thermal solidification agent can be used to solve this problem.Its solution is a lowviscosity... At high cycles of steam huff&puff,oil distribution in reservoirs becomes stronger heterogeneity due to steam channeling.Thermal solidification agent can be used to solve this problem.Its solution is a lowviscosity liquid at normal temperature,but it can be solidified above 80℃.The plugging degree is up to 99%at 250℃.The sweep efficiency reaches 59.2%,which is 7.3%higher than pure steam injection.In addition,simultaneous injection of viscosity reducer and/or nitrogen foams can further enhance oil recovery.The mechanism of this technology depends on its strong plugging ability,which changes the flowing pattern of steam to effectively mobilize remaining oil.Viscosity reducer and nitrogen foams further expand the sweep range and extends the effective period.Therefore,thermal solidification agent can plug steam channeling paths and adjust steam flowing direction to significantly enhance oil recovery at high cycles of steam huff&puff. 展开更多
关键词 heavy oil reservoir Steam huff&puff Steam channeling Steam diversion Plugging performance Mechanism analysis
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An Integrated Optimization Method for CO_(2) Pre-Injection during Hydraulic Fracturing in Heavy Oil Reservoirs
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作者 Hong Dong Xiding Gao +6 位作者 Xinqi Zhang Qian Wang Haipeng Xu Binrui Wang Chengguo Gao Kaiwen Luo Hengyi Jiang 《Fluid Dynamics & Materials Processing》 EI 2024年第9期1971-1991,共21页
CO_(2) pre-injection during hydraulic fracturing is an important method for the development of medium to deep heavy oil reservoirs.It reduces the interfacial tension and viscosity of crude oil,enhances its flowability... CO_(2) pre-injection during hydraulic fracturing is an important method for the development of medium to deep heavy oil reservoirs.It reduces the interfacial tension and viscosity of crude oil,enhances its flowability,maintains reservoir pressure,and increases reservoir drainage capacity.Taking the Badaowan Formation as an example,in this study a detailed three-dimensional geomechanical model based on static data from well logging interpretations is elaborated,which can take into account both vertical and horizontal geological variations and mechanical characteristics.A comprehensive analysis of the impact of key construction parameters on Pre-CO_(2) based fracturing(such as cluster spacing and injection volume),is therefore conducted.Thereafter,using optimized construction parameters,a non-structured grid for dynamic development prediction is introduced,and the capacity variations of different production scenarios are assessed.On the basis of the simulation results,reasonable fracturing parameters are finally determined,including cluster spacing,fracturing fluid volume,proppant concentration,and well spacing. 展开更多
关键词 heavy oil reservoir pre-storage CO_(2)energy fracturing horizontal well fracturing parameters numerical simulation
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Petrophysical parameters inversion for heavy oil reservoir based on a laboratory-calibrated frequency-variant rock-physics model 被引量:1
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作者 Xu Han Shang-Xu Wang +3 位作者 Zheng-Yu-Cheng Zhang Hao-Jie Liu Guo-Hua Wei Gen-Yang Tang 《Petroleum Science》 SCIE EI CAS CSCD 2023年第6期3400-3410,共11页
Heavy oil has high density and viscosity, and exhibits viscoelasticity. Gassmann's theory is not suitable for materials saturated with viscoelastic fluids. Directly applying such model leads to unreliable results ... Heavy oil has high density and viscosity, and exhibits viscoelasticity. Gassmann's theory is not suitable for materials saturated with viscoelastic fluids. Directly applying such model leads to unreliable results for seismic inversion of heavy oil reservoir. To describe the viscoelastic behavior of heavy oil, we modeled the elastic properties of heavy oil with varying viscosity and frequency using the Cole-Cole-Maxwell (CCM) model. Then, we used a CCoherent Potential Approximation (CPA) instead of the Gassmann equations to account for the fluid effect, by extending the single-phase fluid condition to two-phase fluid (heavy oil and water) condition, so that partial saturation of heavy oil can be considered. This rock physics model establishes the relationship between the elastic modulus of reservoir rock and viscosity, frequency and saturation. The viscosity of the heavy oil and the elastic moduli and porosity of typical reservoir rock samples were measured in laboratory, which were used for calibration of the rock physics model. The well-calibrated frequency-variant CPA model was applied to the prediction of the P- and S-wave velocities in the seismic frequency range (1–100 Hz) and the inversion of petrophysical parameters for a heavy oil reservoir. The pre-stack inversion results of elastic parameters are improved compared with those results using the CPA model in the sonic logging frequency (∼10 kHz), or conventional rock physics model such as the Xu-Payne model. In addition, the inversion of the porosity of the reservoir was conducted with the simulated annealing method, and the result fits reasonably well with the logging curve and depicts the location of the heavy oil reservoir on the time slice. The application of the laboratory-calibrated CPA model provides better results with the velocity dispersion correction, suggesting the important role of accurate frequency dependent rock physics models in the seismic prediction of heavy oil reservoirs. 展开更多
关键词 heavy oil Rock physics Velocity dispersion Pre-stack inversion reservoir prediction
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Necessity and feasibility of improving the residual resistance factor of polymer flooding in heavy oil reservoirs 被引量:16
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作者 Shi Leiting Ye Zhongbin Zhang Zhuo Zhou Changjiang Zhu Shanshan Guo Zhidong 《Petroleum Science》 SCIE CAS CSCD 2010年第2期251-256,共6页
The efficiency of water flooding in heavy oil reservoirs would be improved by increasing the viscosity of the displacing phase, but the sweep efficiency is not of significance due to the low mobility of the vicious oi... The efficiency of water flooding in heavy oil reservoirs would be improved by increasing the viscosity of the displacing phase, but the sweep efficiency is not of significance due to the low mobility of the vicious oil. On the basis of mobility control theory, increasing the residual resistance factor not only reduces the water-oil mobility ratio but also decreases the requirement for viscosity enhancement of the polymer solution. The residual resistance factor caused by hydrophobic associating polymer solution is higher than that caused by polyacrylamide solution in brine containing high concentrations of calcium and magnesium ions. The results of numerical simulations show that the polymer flooding efficiency improved by increasing the residual resistance factor is far better than that by only increasing solution viscosity. The recovery factor of heavy oil reservoirs (70 mPa·s) can be enhanced by hydrophobic associating polymer solution of high residual resistance factor (more than 3) and high effective viscosity (24 mPa·s). Therefore, increasing the residual resistance factor of the polymer solution not only decreases the requirement for the viscosity of polymer solution injected into heavy oil reservoirs but also is favorable to enhanced oil recovery during polymer flooding. 展开更多
关键词 heavy oil reservoir polymer flooding mobility control residual resistance factor VISCOSITY
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Research into polymer injection timing for Bohai heavy oil reservoirs 被引量:4
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作者 Lei-Ting Shi Shi-Jie Zhu +4 位作者 Jian Zhang Song-Xia Wang Xin-Sheng Xue Wei Zhou Zhong-Bin Ye 《Petroleum Science》 SCIE CAS CSCD 2015年第1期129-134,共6页
Polymer flooding has been proven to effectively improve oil recovery in the Bohai Oil Field. However, due to high oil viscosity and significant formation heterogeneity, it is necessary to further improve the displacem... Polymer flooding has been proven to effectively improve oil recovery in the Bohai Oil Field. However, due to high oil viscosity and significant formation heterogeneity, it is necessary to further improve the displacement effectiveness of polymer flooding in heavy oil reservoirs in the service life of offshore platforms. In this paper, the effects of the water/oil mobility ratio in heavy oil reservoirs and the dimensionless oil productivity index on polymer flooding effectiveness were studied utilizing rel- ative permeability curves. The results showed that when the water saturation was less than the value, where the water/oil mobility ratio was equal to 1, polymer flooding could effectively control the increase of fractional water flow, which meant that the upper limit of water/oil ratio suitable for polymer flooding should be the value when the water/oil mobility ratio was equal to 1. Mean while, by injecting a certain volume of water to create water channels in the reservoir, the polymer flooding would be the most effective in improving sweep efficiency, and lower the fractional flow of water to the value corresponding to △Jmax. Considering the service life of the platform and the polymer mobility control capacity, the best polymer injection timing for heavy oil reservoirs was optimized. It has been tested for reservoirs with crude oil viscosity of 123 and 70 mPa s, the optimum polymer flooding effec- tiveness could be obtained when the polymer floods were initiated at the time when the fractional flow of water were 10 % and 25 %, respectively. The injection timing range for polymer flooding was also theoretically analyzed for the Bohai Oil Field utilizing which provided methods for effectiveness. relative permeability curves, improving polymer flooding 展开更多
关键词 heavy oil reservoir Mobility ratio Polymer injection timing Injection timing range Timing optimization
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Study on Remaining Oil at High Water Cut Stage of the Offshore Strong Bottom Water Reservoir
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作者 Jie Tan Zhang Zhang +2 位作者 Tingli Li Jingmin Guo Mo Zhang 《Journal of Geoscience and Environment Protection》 2023年第6期76-82,共7页
C oilfield is a heavy oil field developed by horizontal wells and single sand body in Bohai oilfield. The edge and bottom water of the reservoir is active and the natural energy development mode is adopted. The compre... C oilfield is a heavy oil field developed by horizontal wells and single sand body in Bohai oilfield. The edge and bottom water of the reservoir is active and the natural energy development mode is adopted. The comprehensive water cut of the oilfield was 95.3%, which had entered the stage of high water cut oil production. Some reservoirs were limited by crude oil viscosity and oil column height. Under the condition of existing development well pattern, some reserves were not produced or the degree of production was low, and the degree of well control was not high, so there is room for tapping the potential of remaining oil. This paper studied the rising law of water ridge of horizontal wells in bottom water reservoir by reservoir engineering method, and guided the infilling limit of horizontal wells in bottom water reservoir. At the same time, combined with the research results of fine reservoir description, the geological model was established, the numerical simulation was carried out, and the distribution law of remaining oil was analyzed. Through this study, we could understand the law of water flooding and remaining oil in the high water cut period of bottom water heavy oil reservoir, so as to provide guidance for the development strategy of this type of reservoir in the high water cut period. 展开更多
关键词 Bohai oilfield heavy oil reservoir Flooding Law Remaining oil
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The Research and Applications of Remaining Oil Potential Tapping in High Watered Stage for Heavy Oil Reservoir in Bohai 被引量:1
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作者 Junting Zhang Zongbin Liu +2 位作者 Lilei Wang Zhou Fang Jingfu Deng 《Journal of Geoscience and Environment Protection》 2018年第9期10-21,共12页
S oil field is a typical of water injection development of heavy oil reservoir in Bohai, and the formation of crude oil viscosity is 42 - 284 mPa?s. Due to the formation of crude oil viscosity, the oil field developme... S oil field is a typical of water injection development of heavy oil reservoir in Bohai, and the formation of crude oil viscosity is 42 - 284 mPa?s. Due to the formation of crude oil viscosity, the oil field development gradually faces a series of problems as rapid rise of water cut, rapid decline of output, high water cut of oil wells and others. In order to improve the effect of oilfield development, it is necessary to increase the output of the oilfield by adjusting wells for the potential in the oilfield. However, due to the high cost of drilling, operation and testing of offshore oilfields, offshore oilfields require more elaborate description of residual oil and adjustment wells. With the continuous downturn in international oil prices and the lack of new testing data in old oilfields, it is urgent to re-use the existing data in oilfields through innovative methods to achieve a detailed description of the remaining oil in the oilfields and improve the precision research of indexing wells and ensure the reliable implementation of adjustment wells. Based on the existing dynamic data of S oilfield, this paper proposes a new method to quantitatively evaluate water flooding coefficient by using tracer theory to establish tracer data, and quantitatively evaluates the vicinity of the fault by means of image reflection and potential superposition and find the residual oil in the imperfect area of the well network, combined with the numerical simulation method to realize the fine description of remaining oil and improve the research precision of the adjustment well. Through the research in this paper, S oilfield has proposed to location of six adjustment wells which has implemented two. The production confirmed that the method of this paper has some reliability, while the method of heavy oil in the high water cut stage of residual oil fine description. The research of enhanced oil recovery in the stage has certain guiding significance for heavy oil reservoirs. 展开更多
关键词 heavy oil reservoir TRACER Material SWEEP Efficiency Bohai REMAINING oil Description
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Discussion on the sweep efficiency of hybrid steam-chemical process in heavy oil reservoirs: An experimental study 被引量:1
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作者 Xiao-Hu Dong Xiu-Chao Jiang +5 位作者 Wei Zheng Hui-Qing Liu Ren-Jie Liu Wu-Chao Wang De-Shang Zeng Tai-Chao Wang 《Petroleum Science》 SCIE CAS CSCD 2022年第6期2905-2921,共17页
Non-condensable gas(NCG),foam and surfactant are the three commonly-used additives in hybrid steam-chemical processes for heavy oil reservoirs.Their application can effectively control the steam injection profile and ... Non-condensable gas(NCG),foam and surfactant are the three commonly-used additives in hybrid steam-chemical processes for heavy oil reservoirs.Their application can effectively control the steam injection profile and increase the sweep efficiency.In this paper,the methods of microscale visualized experiment and macroscale 3D experiment are applied to systematically evaluate the areal and vertical sweep efficiencies of different hybrid steam-chemical processes.First,a series of static tests are performed to evaluate the effect of different additives on heavy oil properties.Then,by a series of tests on the microscale visualized model,the areal sweep efficiencies of a baseline steam flooding process and different follow-up hybrid EOR processes are obtained from the collected 2D images.Specifically,they include the hybrid steam-N_(2)process,hybrid steam-N2/foam process,hybrid steam-surfactant process and hybrid steam-N2/foam/surfactant process(N2/foam slug first and steam-surfactant co-injection then).From the results of static tests and visualized micromodels,the pore scale EOR mechanisms and the difference between them can be discussed.For the vertical sweep efficiencies,a macroscale 3D experiment of steam flooding process and a follow-up hybrid EOR process is conducted.Thereafter,combing the macroscale 3D experiment and laboratory-scaled numerical simulation,the vertical and overall sweep efficiencies of different hybrid steam-chemical processes are evaluated.Results indicate that compared with a steam flooding process,the areal sweep efficiency of a hybrid steam-N2process is lower.It is caused by the high mobility ratio in a steam-N2-heavy oil system.By contrast,the enhancement of sweep efficiency by a hybrid steam-N2/foam/surfactant process is the highest.It is because of the high resistance capacity of NCG foam system and the performance of surfactant.Specifically,a surfactant can interact with the oil film in chief zone and reduce the interfacial energy,and thus the oil droplets/films formed during steam injection stage are unlocked.For NCG foam,it can plug the chief steam flow zone and thus the subsequent injected steam is re-directed.Simultaneously,from the collected 2D images,it is also observed that the reservoir microscopic heterogeneity can have an important effect on their sweep efficiencies.From the 3D experiment and laboratory-scaled numerical simulation,it is found that a N2/foam slug can increase the thermal front angle by about 150 and increase the vertical sweep efficiency by about 26%.Among the four processes,a multiple hybrid EOR process(steam-N2/foam/surfactant process) is recommended than the other ones.This paper provides a novel method to systematically evaluate the sweep efficiency of hybrid steam-chemical process and some new insights on the mechanisms of sweep efficiency enhancement are also addressed.It can benefit the expansion of hybrid steam-chemical processes in the post steamed heavy oil reservoirs. 展开更多
关键词 heavy oil reservoirs Visualized model Scaled 3D model Sweep efficiency Hybrid EOR process Multicomponent and multiphase fluids
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CO2 assisted steam flooding in late steam flooding in heavy oil reservoirs 被引量:1
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作者 XI Changfeng QI Zongyao +7 位作者 ZHANG Yunjun LIU Tong SHEN Dehuang MU Hetaer DONG Hong LI Xiuluan JIANG Youwei WANG Hongzhuang 《Petroleum Exploration and Development》 2019年第6期1242-1250,共9页
To improve the oil recovery and economic efficiency in heavy oil reservoirs in late steam flooding,taking J6 Block of Xinjiang Oilfield as the research object,3D physical modeling experiments of steam flooding,CO2-foa... To improve the oil recovery and economic efficiency in heavy oil reservoirs in late steam flooding,taking J6 Block of Xinjiang Oilfield as the research object,3D physical modeling experiments of steam flooding,CO2-foam assisted steam flooding,and CO2 assisted steam flooding under different perforation conditions are conducted,and CO2-assisted steam flooding is proposed for reservoirs in the late stage of steam flooding.The experimental results show that after adjusting the perforation in late steam flooding,the CO2 assisted steam flooding formed a lateral expansion of the steam chamber in the middle and lower parts of the injection well and a development mode for the production of overriding gravity oil drainage in the top chamber of the production well;high temperature water,oil,and CO2 formed stable low-viscosity quasi-single-phase emulsified fluid;and CO2 acted as a thermal insulation in the steam chamber at the top,reduced the steam partial pressure inside the steam chamber,and effectively improved the heat efficiency of injected steam.Based on the three-dimensional physical experiments and the developed situation of the J6 block in Xinjiang Oilfield,the CO2 assisted steam flooding for the J6 block was designed.The application showed that the CO2 assisted steam flooding made the oil vapor ratio increase from 0.12 to 0.16 by 34.0%,the oil recovery increase from 16.1%to 21.5%,and the final oil recovery goes up to 66.5%compared to steam flooding after perforation adjustment. 展开更多
关键词 heavy oil reservoir three-dimensional physical simulation experiment STEAM FLOODING CO2 ASSISTED STEAM FLOODING STEAM CHAMBER steam(CO2)chamber overriding gravity drainage
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Investigating Improved Oil Recovery in Heavy Oil Reservoirs
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作者 Yogesh Kumar Suman Ezeddin Shirif +1 位作者 Hussameldin Ibrahim Abdulsalam Ala-Ktiwi 《World Journal of Engineering and Technology》 2014年第1期23-31,共9页
Primary production mechanisms do not recover an appreciable fraction of the hydrocarbon initially in place (HIIP). Practical knowledge has shown that, at the point when the natural energy in a heavy oil reservoir is n... Primary production mechanisms do not recover an appreciable fraction of the hydrocarbon initially in place (HIIP). Practical knowledge has shown that, at the point when the natural energy in a heavy oil reservoir is nearly or altogether depleted, the recovery factor does not exceed about 20%. Some heavy oil reservoirs do not produce at all by natural drive mechanisms. This often necessitates adopting a production improvement strategy to augment recovery. Prior to implementing an improved oil recovery method (either secondary or tertiary) in the field, it is very important to investigate its potential for success. Reservoir simulation is a part of a continuous learning process used to gain insight into the feasibility and applicability of improved oil recovery methods. In this project, GEM compositional reservoir simulator has been used to study the efficiencies of different improved oil recovery strategies, ranging from waterflooding to solvent injection. The drainage volume investigated is a hypothetical box-shaped heavy oil reservoir composed of three distinct permeable layers. 展开更多
关键词 heavy oil IOR GEM SIMULATOR reservoir Simulation Drainage VOLUME
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Study on Productivity Model of Herringbone-Like Laterals Wells and Optimization of Morphological Parameters Considering Threshold Pressure Gradient in Heavy Oil Reservoirs
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作者 Enhui Sun Jie Tan +2 位作者 Dong Zhang Wei Wang Songru Mu 《World Journal of Engineering and Technology》 2019年第2期302-313,共12页
Compared with conventional well, herringbone-like laterals wells can increase the area of oil release, and can reduce the number of wellhead slots of platforms,?and?also can greatly improve the development efficiency.... Compared with conventional well, herringbone-like laterals wells can increase the area of oil release, and can reduce the number of wellhead slots of platforms,?and?also can greatly improve the development efficiency. Based on threshold pressure gradient in heavy oil reservoir,?and?the applied principle of mirror reflection and superposition, the pressure distribution equation of herringbone-like laterals wells is obtained in heavy oil reservoir. Productivity model of herringbone-like laterals wells is proposed by reservoir-wellbore steady seepage. The example shows that the productivity model is great accuracy?to?predict the productivity of herringbone-like laterals wells. The model is used to analyze the branching length, branching angle, branching symmetry, branching position and spacing and their effects on productivity of herringbone-like laterals wells. The principle of optimizing the well shape of herringbone-like laterals wells is proposed. 展开更多
关键词 Threshold Pressure Gradient Herringbone-Like Laterals WELLS heavy oil reservoirS PRODUCTIVITY Model Optimization of MORPHOLOGICAL Parameters
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Study on the connectivity of heavy oil reservoirs by ultraviolet spectrum technique in the western part of the QHD32-6 oilfield
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作者 XU Yaohui CHEN Dan 《Chinese Journal Of Geochemistry》 EI CAS 2008年第3期306-309,共4页
As a new method,the ultraviolet spectrum technique is applied to studying the connectivity of biodegradable heavy oil reservoirs.The similarity of crude oils can be judged according to the extinction coefficient(E) be... As a new method,the ultraviolet spectrum technique is applied to studying the connectivity of biodegradable heavy oil reservoirs.The similarity of crude oils can be judged according to the extinction coefficient(E) because aromatic hydrocarbons and non-hydrocarbons have conjugated bonds and obvious absorption in the ultraviolet range,and different materials have different characteristics and additives.The relationship diagram is made in terms of the extinction coefficients(E) of the samples by taking E as the Y-axis and wavelength as the X-axis.The connectivity of oil reservoirs is estimated according to the curve positions and characteristic fingerprints of the samples.The connectivity of part of the reservoirs in the western part of the QHD32-6 oilfield was studied with this method.The results showed that the connectivity of samples from wells F7 and F8 in the Nm-2 oil reservoir zone is good,that of samples from wells F17 and F20 in the Nm-1 oil reservoir zone also is good,and that of samples from wells F17,F19,and F20 is poor. 展开更多
关键词 紫外线光谱 石油储量 油田 重油
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The Calculation of Heating Radius and Determination of Parameters in Heavy Oil Steam Stimulation
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作者 Aiping Zheng Xiujuan Bai +2 位作者 Yushu Zhang Haibo Cao Jiaen Lin 《石油天然气学报》 CAS 2017年第3期61-68,共8页
在稠油吞吐过程中,加热半径是热采中的重要指标,对注汽参数和生产制度起到了指导性作用。运用能量守恒原理,从热量注入方面考虑了蒸汽相变释放的气化潜热,从热量损失方面考虑井筒热量损失和顶底盖层热量损失,最终得到了新的加热半径计... 在稠油吞吐过程中,加热半径是热采中的重要指标,对注汽参数和生产制度起到了指导性作用。运用能量守恒原理,从热量注入方面考虑了蒸汽相变释放的气化潜热,从热量损失方面考虑井筒热量损失和顶底盖层热量损失,最终得到了新的加热半径计算公式。计算结果表明,加热半径受注汽参数、焖井时间、储层参数等因素影响,并系统阐述了岩层各物性参数的计算及选择方法。最后通过实例验证了该方法的计算值和试井解释出的值较为相符,为现场实际应用提供了可靠的方法。 展开更多
关键词 学术期刊 石油天然气 中国 期刊评价 学报 研制工作 项目组
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稠油油藏蒸汽-空气复合火驱特征分析及参数优化 被引量:1
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作者 袁士宝 任梓寒 +3 位作者 杨凤祥 孙新革 蒋海岩 宋佳 《特种油气藏》 CAS CSCD 北大核心 2024年第1期66-73,共8页
针对常规火驱存在热利用率低和高黏油启动慢的问题,以新疆红浅1井区稠油油藏为例,利用数值模拟模型对比了常规火驱和蒸汽-空气复合火驱的驱油特性和燃烧特性,通过对复合火驱各区带的温度、含油饱和度等参数进行分析,探究了蒸汽-空气复... 针对常规火驱存在热利用率低和高黏油启动慢的问题,以新疆红浅1井区稠油油藏为例,利用数值模拟模型对比了常规火驱和蒸汽-空气复合火驱的驱油特性和燃烧特性,通过对复合火驱各区带的温度、含油饱和度等参数进行分析,探究了蒸汽-空气复合火驱协同增效作用,并对蒸汽-空气复合火驱的注入参数进行了优化。结果表明:提产增效的主要机理是湿蒸汽吸收已燃区中滞留的热量变为过热蒸汽,并被高速流动的空气携带穿过燃烧前缘,使冷油区原油黏度大幅度降低,在提高驱油效率的同时增大了蒸汽冷凝带的宽度、燃烧波及体积和火线推进速度;注入参数的优化能提高复合火驱的开发效果,水气比越大,产能越高,而采用段塞注入会降低产能,为满足经济效益开发,最佳水气比应为3.0×10^(-3)m^(3)/m^(3)左右,最佳注汽段塞间隔应为90~120 d。该研究成果对火驱油藏提高开发效果具有借鉴意义。 展开更多
关键词 稠油油藏 火驱 湿式燃烧 燃烧特征 驱油机理
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新疆油田浅层超稠油SAGD高效低碳开发技术研究与展望 被引量:2
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作者 孙新革 罗池辉 +2 位作者 张胜飞 张文胜 罗双涵 《特种油气藏》 CAS CSCD 北大核心 2024年第1期1-8,共8页
针对“双碳”目标背景下超稠油开发高能耗与油田高质量发展矛盾日益加剧的问题,新疆油田通过SAGD机理研究与现场实践,在维持蒸汽腔高效扩展,突破储层渗流屏障遮挡,提高浅薄层驱泄复合效率,实现水平井长水平段高效均衡产液等方面持续攻关... 针对“双碳”目标背景下超稠油开发高能耗与油田高质量发展矛盾日益加剧的问题,新疆油田通过SAGD机理研究与现场实践,在维持蒸汽腔高效扩展,突破储层渗流屏障遮挡,提高浅薄层驱泄复合效率,实现水平井长水平段高效均衡产液等方面持续攻关,取得显著效果。采用气体辅助技术,实现蒸汽腔隔热保压增能,油汽比可提高20%;利用立体井网及储层升级扩容技术,改善Ⅲ类超稠油油藏渗流特征,泄油速度可增大20%~40%;采用全密闭生产方式,VHSD产液温度由100℃上升至150℃,采油速度提高50%;深化热采流量控制器(FCD)机理研究,完善油藏-井筒耦合优化设计方法,水平井水平段动用程度可提高20%。“十四五”期间,新疆油田将深化溶剂辅助SAGD、无水SAGD和控温水热裂解等技术研究,逐步完善浅层超稠油低碳高效开发技术系列,该研究可为稠油油藏开发提供借鉴。 展开更多
关键词 浅层超稠油 重力泄油 驱泄复合 气体辅助 储层扩容 低碳开发技术
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胜利油田稠油油藏开发技术进展
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作者 吴光焕 李伟 王一平 《油气地质与采收率》 CAS CSCD 北大核心 2024年第5期113-121,共9页
针对胜利油田不同类型稠油油藏的地质特点及开发矛盾,形成了一套较为完善的稠油油藏开发技术系列,并取得了显著的开发效果。从各项技术的理论基础和矿场应用2个方面,总结了不同类型稠油油藏开发技术进展。对于高轮次吞吐后的稠油油藏,... 针对胜利油田不同类型稠油油藏的地质特点及开发矛盾,形成了一套较为完善的稠油油藏开发技术系列,并取得了显著的开发效果。从各项技术的理论基础和矿场应用2个方面,总结了不同类型稠油油藏开发技术进展。对于高轮次吞吐后的稠油油藏,基于非达西渗流理论,形成了井网加密技术;对于敏感性稠油油藏,形成了近热远防理论,降低了水敏对开发的不利影响;对于特超稠油油藏,通过HDCS技术的协同降黏、膨胀增能作用,解决了“注不进、采不出”的开发难题;对于低效水驱稠油油藏,通过转蒸汽驱,达到加密角井流线、水井流线逆向的目的,从而提高该类油藏的采收率;对于深层稠油油藏,以气热协同保热强热、热剂协同接替助驱、气剂协同均衡热前缘的协同增效作用机理认识为基础,形成了多元热复合驱油理论,实现了深层稠油的有效动用;对于薄层稠油油藏,通过热+水平井复合开发模式,提高了油藏的吸汽能力和动用范围;对于浅薄层超稠油油藏,通过HDNS技术增能降黏扩波及,实现了该类油藏的高效开发。胜利油田稠油油藏开发技术系列的应用,为胜利油田稠油效益开发、绿色开发提供了技术支撑。 展开更多
关键词 深层稠油油藏 薄层稠油油藏 敏感性稠油油藏 低效水驱油藏 井网加密 近热远防 HDCS HDNS 多元热复合驱
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旅大特稠油储层新型完井液体系的构建与评价
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作者 徐涛 李君宝 +2 位作者 李进 贾立新 张帅 《当代化工》 CAS 2024年第4期921-924,共4页
旅大A油田是一个埋藏浅、油质稠、储量大的典型重质特超稠油油藏,热采开发是其有效的开发方式。稠油油藏在储层物性、流体性质及开采工艺方面与常规油藏存在较大差异,现有常规水基完井液体系无法满足需求。针对该油田稠油热采工艺,充分... 旅大A油田是一个埋藏浅、油质稠、储量大的典型重质特超稠油油藏,热采开发是其有效的开发方式。稠油油藏在储层物性、流体性质及开采工艺方面与常规油藏存在较大差异,现有常规水基完井液体系无法满足需求。针对该油田稠油热采工艺,充分考虑稠油油藏储层特性、稠油预防乳化增稠和降黏促排的新需求,开展新型完井液体系的构建。通过抑制性、降黏助排性、配伍性及热采高温环境下储层保护效果的评价,建立起适用于稠油的新型有机胺完井液体系。该体系在提升稠油热采井开发储层保护效果的同时,降低完井液综合成本,为渤海油田稠油开发提质增效提供有力保障。 展开更多
关键词 完井液 稠油油藏 热采 储层保护
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稠油开发技术进展及新分类标准建立与应用实践——以胜利油田稠油开发为例
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作者 束青林 魏超平 +3 位作者 于田田 计秉玉 张仲平 郑万刚 《油气藏评价与开发》 CSCD 北大核心 2024年第4期529-540,F0002,共13页
稠油油藏是一种重要的战略资源,对保障国家能源安全起到重要的作用。国内外稠油开发主要有蒸汽吞吐、蒸汽驱、驱泄复合(SAGD)、火烧驱油4项技术,受技术适应性、成本高及对环境不友好的影响,其推广和运用存在一定局限性。胜利油田根据自... 稠油油藏是一种重要的战略资源,对保障国家能源安全起到重要的作用。国内外稠油开发主要有蒸汽吞吐、蒸汽驱、驱泄复合(SAGD)、火烧驱油4项技术,受技术适应性、成本高及对环境不友好的影响,其推广和运用存在一定局限性。胜利油田根据自身油藏特点,形成了薄层水平井、热化学复合和化学降黏3项新技术,拓展了开发技术界限,使稠油油藏开发的有效厚度界限低至2m、油藏埋深为2000 m、储层渗透率界限低至100×10^(-3)µm^(2)。根据各项技术特点和矿场应用效果,建立了以技术适应性为基础的稠油新分类标准,把稠油油藏分为5大类,指导矿场稠油开发技术方向的选择。结合目前技术发展方向和新的形势要求,指出“多元热复合”“非热力开发”“纳米材料应用”将是稠油开发技术3个趋势。 展开更多
关键词 稠油油藏 技术进展 界限拓展 新分类标准 应用实践 发展方向
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近废型稠油油藏火驱效益开发新思路
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作者 郑懿琼 张涛 +2 位作者 刘海英 阮聪慧 邹帅 《油气藏评价与开发》 CSCD 北大核心 2024年第3期504-509,518,共7页
近废型稠油油藏难以通过常规开发方式有效动用剩余储量,火驱技术为此类油藏进一步提高采收率提供方向。现阶段,火驱技术已趋于成熟,但由于成本投入大、经济性差,火驱技术的推广应用面临困境。通过引入量本利分析法中的盈亏平衡模型和敏... 近废型稠油油藏难以通过常规开发方式有效动用剩余储量,火驱技术为此类油藏进一步提高采收率提供方向。现阶段,火驱技术已趋于成熟,但由于成本投入大、经济性差,火驱技术的推广应用面临困境。通过引入量本利分析法中的盈亏平衡模型和敏感性分析,从多维度的经营视角,揭示不同油价年产油量和成本的平衡关系,明确影响火驱经济性的关键指标,进而推动生产运行优化和决策效能提升。研究结果表明,由于储层前后认识差距大,投入力度大于产出力度,同时管控方向不明确,导致火驱成本有效性低,持续开发经营风险认识不足,影响油藏开发投入决策。研究结果为火驱的经营效益提升指明方向,也为近废型稠油油藏效益开发提供管理新思路。 展开更多
关键词 近废型稠油油藏 火驱技术 效益提升 量本利分析法 决策优化
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基于时移微重力监测技术的SAGD蒸汽腔扩展规律研究
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作者 郑爱萍 刘欢 +4 位作者 黄后传 赵婧含 杨登杰 马建强 李玄 《新疆石油地质》 CAS CSCD 北大核心 2024年第6期680-686,共7页
为揭示稠油油藏蒸汽辅助重力泄油(SAGD)蒸汽腔扩展规律,利用时移微重力监测技术,对新疆重油油田H井区侏罗系齐古组稠油油藏的蒸汽腔扩展规律进行研究。通过时移微重力监测获取了反映油藏剩余密度的剩余重力异常数据,利用该数据进行三维... 为揭示稠油油藏蒸汽辅助重力泄油(SAGD)蒸汽腔扩展规律,利用时移微重力监测技术,对新疆重油油田H井区侏罗系齐古组稠油油藏的蒸汽腔扩展规律进行研究。通过时移微重力监测获取了反映油藏剩余密度的剩余重力异常数据,利用该数据进行三维最小二乘反演,确定了蒸汽腔的纵向分布,并提出了解释蒸汽腔扩展规律与剩余重力异常关系的方法。该方法能够有效解释H井区5个井组蒸汽腔的扩展规律,把蒸汽腔的演变过程划分为上升阶段、横向扩展阶段及向下扩展阶段,并利用井温监测验证了该方法的准确性与可靠性。该方法揭示了SAGD蒸汽腔在油藏中的扩展规律,为稠油油藏的高效开发提供了技术支持,有助于优化稠油油藏的生产调控措施,也为同类型油藏开发提供了理论和实践基础。 展开更多
关键词 稠油油藏 时移微重力 蒸汽辅助重力泄油 蒸汽腔 扩展规律 重力异常 剩余密度
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