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Oil–water two-phase flow pattern analysis with ERT based measurement and multivariate maximum Lyapunov exponent 被引量:9
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作者 谭超 王娜娜 董峰 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第1期240-248,共9页
Oil–water two-phase flow patterns in a horizontal pipe are analyzed with a 16-electrode electrical resistance tomography(ERT) system. The measurement data of the ERT are treated as a multivariate time-series, thus th... Oil–water two-phase flow patterns in a horizontal pipe are analyzed with a 16-electrode electrical resistance tomography(ERT) system. The measurement data of the ERT are treated as a multivariate time-series, thus the information extracted from each electrode represents the local phase distribution and fraction change at that location. The multivariate maximum Lyapunov exponent(MMLE) is extracted from the 16-dimension time-series to demonstrate the change of flow pattern versus the superficial velocity ratio of oil to water. The correlation dimension of the multivariate time-series is further introduced to jointly characterize and finally separate the flow patterns with MMLE. The change of flow patterns with superficial oil velocity at different water superficial velocities is studied with MMLE and correlation dimension, respectively, and the flow pattern transition can also be characterized with these two features. The proposed MMLE and correlation dimension map could effectively separate the flow patterns, thus is an effective tool for flow pattern identification and transition analysis. 展开更多
关键词 oil-water two-phase flow flow patterns electrical resistance tomography (ERT) multivariate time-series multivariate maximum Lyapunov exponent correlation dimension
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Quality evaluation of layerlike backfilling and flow pattern of backfill slurry in stope 被引量:11
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作者 彭欣 李夕兵 +1 位作者 张钦礼 王新民 《Journal of Central South University of Technology》 EI 2007年第4期580-583,共4页
Stability condition and quality evaluation formula of layerlike backfilling roof,Q≥C,where Q denotes is quality index depending on allowable compressive or tensile strength and integrity of backfilling,and C is the t... Stability condition and quality evaluation formula of layerlike backfilling roof,Q≥C,where Q denotes is quality index depending on allowable compressive or tensile strength and integrity of backfilling,and C is the technical index depending on mining method and backfilling technology,were inferred according to simply supported beam theorem.Technical treatment measures for instable backfilling roof,including optimum of appropriate filling materials and dosage for excellent flow property and reduction of backfill cost.It is proved that slope equation of backfill slurry in a stope to be filled is y=hexp[x2/(2σ)2)],where h is height of cone and σ2 is mean square,and that optimum drainage point of backfill slurry can be determined by the equation and sizes of stope.Case study indicates that the results can give a theoretical support for quality evaluation and control of layerlike backfilling. 展开更多
关键词 layerlike backfilling quality evaluation flow pattern simply supported beam
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Flow pattern and pressure drop of gas-liquid two-phase swirl flow in a horizontal pipe 被引量:6
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作者 RAO Yong-chao DING Bo-yang +2 位作者 WANG Shu-li WANG Zi-wen ZHOU Shi-dong 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第9期2528-2542,共15页
The gas-liquid two-phase swirl flow can increase the gas-liquid two-phase contact area and enhance the heat and mass transfer efficiency between gas and liquid.The swirl flow has important practical application value ... The gas-liquid two-phase swirl flow can increase the gas-liquid two-phase contact area and enhance the heat and mass transfer efficiency between gas and liquid.The swirl flow has important practical application value for promoting gas hydrate formation and ensuring the flow safe of natural gas hydrate slurry.The experimental section was made of plexiglass pipe and the experimental medium was air and water.The flow pattern of the gas-liquid two-phase swirl flow in the horizontal pipe was divided,according to a high-definition camera and the overall characteristics of the gas-liquid interface.The flow pattern map of the gas-liquid two-phase swirl flow in a horizontal pipe was studied.The influence of the flow velocity and vane parameters on pressure drop was investigated.Two types of gas-liquid two-phase swirl flow pressure drop models was established.The homogeneous-phase and split-phase pressure drop models have good prediction on swirl bubble flow,swirl dispersed flow,swirl annular flow and swirl stratified flow,and the predictive error band is not more than 20%. 展开更多
关键词 swirl flow two-phase flow flow pattern swirl number pressure drop
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Application of time–frequency entropy from wake oscillation to gas–liquid flow pattern identification 被引量:6
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作者 HUANG Si-shi SUN Zhi-qiang +1 位作者 ZHOU Tian ZHOU Jie-min 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第7期1690-1700,共11页
Gas–liquid two-phase flow abounds in industrial processes and facilities. Identification of its flow pattern plays an essential role in the field of multiphase flow measurement. A bluff body was introduced in this s... Gas–liquid two-phase flow abounds in industrial processes and facilities. Identification of its flow pattern plays an essential role in the field of multiphase flow measurement. A bluff body was introduced in this study to recognize gas–liquid flow patterns by inducing fluid oscillation that enlarged differences between each flow pattern. Experiments with air–water mixtures were carried out in horizontal pipelines at ambient temperature and atmospheric pressure. Differential pressure signals from the bluff-body wake were obtained in bubble, bubble/plug transitional, plug, slug, and annular flows. Utilizing the adaptive ensemble empirical mode decomposition method and the Hilbert transform, the time–frequency entropy S of the differential pressure signals was obtained. By combining S and other flow parameters, such as the volumetric void fraction β, the dryness x, the ratio of density φ and the modified fluid coefficient ψ, a new flow pattern map was constructed which adopted S(1–x)φ and (1–β)ψ as the vertical and horizontal coordinates, respectively. The overall rate of classification of the map was verified to be 92.9% by the experimental data. It provides an effective and simple solution to the gas–liquid flow pattern identification problems. 展开更多
关键词 gas–liquid two-phase flow wake oscillation flow pattern map time–frequency entropy ensemble empirical mode decomposition Hilbert transform
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Structure and production fluid flow pattern of post-fracturing high-rank coal reservoir in Southern Qinshui Basin 被引量:4
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作者 刘世奇 桑树勋 +2 位作者 朱启朋 刘会虎 高贺凤 《Journal of Central South University》 SCIE EI CAS 2014年第10期3970-3982,共13页
Field geological work, field engineering monitoring, laboratory experiments and numerical simulation were used to study the development characteristics of pore-fracture system and hydraulic fracture of No.3 coal reser... Field geological work, field engineering monitoring, laboratory experiments and numerical simulation were used to study the development characteristics of pore-fracture system and hydraulic fracture of No.3 coal reservoir in Southern Qinshui Basin. Flow patterns of methane and water in pore-fracture system and hydraulic fracture were discussed by using limit method and average method. Based on the structure model and flow pattern of post-fracturing high-rank coal reservoir, flow patterns of methane and water were established. Results show that seepage pattern of methane in pore-fracture system is linked with pore diameter, fracture width, coal bed pressure and flow velocity. While in hydraulic fracture, it is controlled by fracture height, pressure and flow velocity. Seepage pattern of water in pore-fracture system is linked with pore diameter, fracture width and flow velocity. While in hydraulic fracture, it is controlled by fracture height and flow velocity. Pores and fractures in different sizes are linked up by ultramicroscopic fissures, micro-fissures and hydraulic fracture. In post-fracturing high-rank coal reservoir, methane has level-three flow and gets through triple medium to the wellbore; and water passes mainly through double medium to the wellbore which is level-two flow. 展开更多
关键词 flow pattern structure model high-rank coal reservoir hydraulic fracture Southern Qinshui Basin
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Numerical investigation of flow pattern and components of three-dimensional velocity around a submerged T-shaped spur dike in a 90° bend 被引量:4
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作者 Mohammad Vaghefi Yaser Safarpoor Maryam Akbari 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第11期2984-2998,共15页
Spur dike is one of the river training structures. This work presented a numerical simulation of flow field and three-dimensional velocity around a T-shaped spur dike located in bend using SSIIM model. The main object... Spur dike is one of the river training structures. This work presented a numerical simulation of flow field and three-dimensional velocity around a T-shaped spur dike located in bend using SSIIM model. The main objective of this work is to investigate the three-dimensional velocities and streamlines at transverse and longitudinal sections and plan views around the T-shaped spur dike in different submergence ratios(0, 5%, 15%, 25% and 50%). It is concluded that by increasing the submergence ratio from 5% to 50%, the maximum of scour is reduced; the maximum of longitudinal velocity increases by 7.7% and occurs at the water surface in spur dike axis. Near the bed, the maximum of vertical velocity occurs at the end of spur wing. By analyzing the streamlines at transverse sections, the followings were deduced for different submergence ratios: different dimensions and different positions of vortices around the spur dike. 展开更多
关键词 T-shaped spur dike flow pattern submergence ratio SSIIM model
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An adaptive electrical resistance tomography sensor with flow pattern recognition capability 被引量:4
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作者 WANG Pai LI Yang-bo +2 位作者 WANG Mei QIN Xue-bin LIU Lang 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第3期612-622,共11页
The all traditional electrical resistance tomography (ERT) sensors have a static structure, which cannot satisfy the intelligent requirements for adaptive optimization to ERT sensors that is subject to flow pattern ch... The all traditional electrical resistance tomography (ERT) sensors have a static structure, which cannot satisfy the intelligent requirements for adaptive optimization to ERT sensors that is subject to flow pattern changes during the real-time detection of two-phase flow. In view of this problem, an adaptive ERT sensor with a dynamic structure is proposed. The electrodes of the ERT sensor are arranged in an array structure, the flow pattern recognition technique is introduced into the ERT sensor design and accordingly an ERT flow pattern recognition method based on signal sparsity is proposed. This method uses the sparse representation of the signal to express the sampling voltage of the ERT system as a sparse combination and find its sparse solution to achieve the classification of different flow patterns. With the introduction of flow identification information, the sensor has an intelligent function of adaptively and dynamically adapting the sensor structure according to the real-time flow pattern change. The experimental results show that the sensor can automatically identify four typical flow patterns: core flow, bubble flow, laminar flow and circulation flow with recognition rates of 91%, 93%, 90% and 88% respectively. For different flow patterns, the dynamically optimized sensor can significantly improve the quality of ERT image reconstruction. 展开更多
关键词 electrical resistance tomography adaptive sensor sparse representation flow pattern identification
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Field synergy analysis of different flow patterns in falling-film dehumidification system with horizontal pipes 被引量:1
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作者 NIU Run-ping KUANG Da-qing +1 位作者 WANG Shi-zheng CHEN Xiao-yi 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第8期2353-2366,共14页
Effects of the flow pattern of intertubular liquid film on mass and heat transfer synergies in a falling-film dehumidification system with horizontal pipes are studied.A flow model of the dehumidifying solution betwee... Effects of the flow pattern of intertubular liquid film on mass and heat transfer synergies in a falling-film dehumidification system with horizontal pipes are studied.A flow model of the dehumidifying solution between horizontal pipes is established using Fluent software,the rule of transitions of the flow pattern between pipes is studied,critical Reynolds numbers of flow pattern transitions are obtained,and the accuracy of the model is verified by experiments.The mass transfer synergy angle and heat transfer synergy angle are respectively used as evaluation criteria for the mass transfer synergy and heat transfer synergy,and distribution laws of the synergy angles for droplet,droplet columnar and curtain flow patterns are obtained.Simulation results show that the mass transfer synergy angles corresponding to droplet,droplet columnar and curtain flow patterns all rise to a plateau with time.The mean mass-transfer synergy angle is 98°for the droplet flow pattern,higher than 96.5°for the droplet columnar flow pattern and 95°for the curtain flow pattern.The results show that the mass transfer synergy of the droplet flow pattern is better than that of the droplet columnar flow pattern and that of the curtain flow pattern. 展开更多
关键词 film falling between horizontal pipes fluent software flow pattern of liquid film synergy angle mass and heat transfer
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Cavity Flow Pattern Design for Supercaviting Torpedo
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作者 裴譞 张宇文 +1 位作者 袁绪龙 邓飞 《Defence Technology(防务技术)》 SCIE EI CAS 2010年第4期262-268,共7页
The flow pattern design of supercaviting torpedo,like the shape design of conventional bedewed torpedo,occupies an important position in torpedo system design.In this paper,the flow pattern design issues were studied ... The flow pattern design of supercaviting torpedo,like the shape design of conventional bedewed torpedo,occupies an important position in torpedo system design.In this paper,the flow pattern design issues were studied systematically.A set of design criteria and main design requirements were proposed,and the design method and procedure were established.Moreover,the determination method of necessary parameters of cavitator and ventilated system for desired cavity flow pattern was given.Considered the speed and pressure disturbances in the torpedo navigation,a concept named margin design was proposed to solve the supercavitation deformation and instability caused by the disturbances. 展开更多
关键词 HYDRODYNAMICS supercaviting torpedo flow pattern design criterion design method design margin
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Dynamic enhanced multi-slice spiral CT in evaluation of blood flow patterns of solitary pulmonary nodules with enhancement 被引量:4
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作者 LIShenjiang XIAOXiangsheng +5 位作者 LIUShiyuan LIHuimin LIChengzhou ZHANGChenshi TAOZhiwei YANGChunshan 《中国肺癌杂志》 CAS 2004年第6期520-525,共6页
Objective To investigate the methods of dynamic enhanced multi-slice spiral CT in evaluation of blood flow patterns of solitary pulmonary nodules (SPNs) with enhancement. Methods Seventy-eight patients with SPNs (≤4 ... Objective To investigate the methods of dynamic enhanced multi-slice spiral CT in evaluation of blood flow patterns of solitary pulmonary nodules (SPNs) with enhancement. Methods Seventy-eight patients with SPNs (≤4 cm) with strong enhancement underwent dynamic multi-slice spiral CT (Marconi Mx8000) scan before and after contrast enhancement by injecting contrast material with a rate of 4 mL/s. For the 40 patients in protocol one, one scan was obtained every 2 seconds during 15--45 and 75--105 seconds after injection, while for the 38 patients in protocol two, one scan was obtained every 2 seconds during 11--41 and 71--101 seconds. For all the patients, one scan was obtained every 30 seconds during 2--9 minutes. The section thickness was 2.5 mm for lesions ≤3 cm and 5 mm for lesions >3 cm. Standard algorithm was used in the image reconstruction. Precontrast and postcontrast attenuation on every scan was recorded. The perfusion, peak height, ratio of peak height of the SPN to that of the aorta and mean transit time were calculated. Results The peak height, perfusion, ratio of peak height of the SPN to that of the aorta and mean transit time in malignant SPNs were 34.85 Hu±10.87 Hu, 30.37 ml/(min·100 g)±11.14 ml/(min·100 g), 13.78%± 3.96% , 14.19 s±6.19 s respectively in protocol one, while those in protocol two were 36.62 Hu±10.75 Hu, 30.01 ml/(min·100 g)±8.10 ml/(min·100 g), 14.70 %±4.71%, 13.91 s±4.82 s respectively. No statistically significant differences were found between the peak height (t= 0.673, P=0.503), perfusion (t= 0.152 , P=0.880), ratio of peak height of the SPN to that of the aorta (t= 0.861, P=0.393) and mean transit time (t= 0.199, P=0.843) in malignant SPNs measured in protocol one and those measured in protocol two. All mean transit time in protocol two (36/36) were obtained, but only part of them (25/32) were obtained in protocol one. Conclusion Dynamic enhanced multi-slice spiral CT is a non-invasive method for quantitative evaluation of blood flow patterns of SPNs with enhancement and scans beginning at 11 seconds after injection of contrast material is suggested. 展开更多
关键词 显微镜 血流动力学 螺旋CT 肺部结节
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济阳页岩油开发关键科学问题与研究进展 被引量:1
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作者 杨勇 曹小朋 +6 位作者 张世明 吕琦 刘祖鹏 孙红霞 李伟 路广 陈李杨 《石油勘探与开发》 北大核心 2026年第1期143-154,共12页
围绕胜利油田济阳页岩油开发中的关键技术瓶颈,提出页岩油储集空间与赋存状态、多尺度流动空间形成机制、孔缝内原油动用机理及弹性开发后期提高采收率机制等方面的关键科学与工程技术问题,重点论述实验技术、孔缝结构及流体赋存特征、... 围绕胜利油田济阳页岩油开发中的关键技术瓶颈,提出页岩油储集空间与赋存状态、多尺度流动空间形成机制、孔缝内原油动用机理及弹性开发后期提高采收率机制等方面的关键科学与工程技术问题,重点论述实验技术、孔缝结构及流体赋存特征、裂缝演化机制、页岩油渗流机制及提高采收率方法等方面的研究进展与机理认识。通过改进实验方法、优化测试条件、研发新技术深化对页岩油赋存状态、储集空间、渗流规律的认识,揭示济阳页岩“全孔径含油、大孔富油”分布规律及纳米孔限域效应下流体相态差异;刻画压裂裂缝“纵向扩展受限、发育复杂缝网”的特征及“压-焖-采”过程缝网动态演化规律;建立“易流-缓流-滞流”三区渗流模式和弹性驱-渗吸驱能量协同机制;高压注入进一步增强页岩孔缝系统内CO_(2)传质扩散能力,竞争解吸烷烃提高页岩油动用程度。研究成果对陆相页岩油开发理论的形成和技术体系的构建具有重要支撑作用,下一步重点研究方向聚焦于矿场级多场耦合物理模拟设备、微观—宏观跨尺度实验方法、孔缝精细表征和压后取心裂缝描述技术、多介质流固耦合数值模拟算法、低成本提高采收率和低品质页岩油原位改质技术,以推动济阳页岩油规模效益开发。 展开更多
关键词 济阳坳陷 陆相页岩油 济阳页岩油 科学问题 实验技术 赋存状态 渗流规律 研究进展 攻关方向
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关于陆相断陷盆地济阳页岩油基本渗流问题的思考
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作者 杨勇 张世明 +8 位作者 曹小朋 王森 蒋龙 孙红霞 李伟 刘祖鹏 邢祥东 路广 孙强 《油气地质与采收率》 北大核心 2026年第1期14-25,共12页
针对陆相断陷盆地济阳页岩油渗流机理认识不清的难题,从广义达西方程角度出发,阐明了孔隙度场、渗透率场、饱和度场、压力场和应力场“五场”动态演化规律,济阳页岩油藏核心五场的动态耦合作用主导储层孔缝发育、流体赋存与渗流规律,决... 针对陆相断陷盆地济阳页岩油渗流机理认识不清的难题,从广义达西方程角度出发,阐明了孔隙度场、渗透率场、饱和度场、压力场和应力场“五场”动态演化规律,济阳页岩油藏核心五场的动态耦合作用主导储层孔缝发育、流体赋存与渗流规律,决定储层改造效果及产能潜力,明晰其耦合机理是实现页岩油高效开发的核心前提。考虑“五场”时空演化机制,深化易流区-缓流区-滞流区三区渗流模式,阐明单井各区“五场”分布特征、主导渗流机理及产油量差异贡献;聚焦井间三区空间配置,提出孤立型、竞争型与有利干扰型井组渗流模式,明确了井网人工缝网适配+均衡压裂改造形成有利干扰型三区渗流模式的技术发展趋势。在此基础上,提出了三区性质精细刻画和三区渗流规律精确表征两大重点攻关方向,为济阳页岩油规模效益开发提供理论与技术支撑。 展开更多
关键词 济阳页岩油 “五场”耦合 三区模式 渗流模式 陆相断陷盆地
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基于信号特征提取和GWO-SVM的气液两相流流型识别方法
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作者 刘升虎 王颖梅 +2 位作者 魏海梦 邢亚敏 党瑞荣 《中国测试》 北大核心 2026年第1期165-171,共7页
为研究气液两相流的动态特性,并提高气液流型识别的准确性,提出一种基于信号特征提取与GWO-SVM的水平管道气液两相流流型识别方法。该方法利用环形电导传感器采集测量数据,在完成数据预处理的基础上,对信号时域特征参数进行提取。同时,... 为研究气液两相流的动态特性,并提高气液流型识别的准确性,提出一种基于信号特征提取与GWO-SVM的水平管道气液两相流流型识别方法。该方法利用环形电导传感器采集测量数据,在完成数据预处理的基础上,对信号时域特征参数进行提取。同时,采用变分模态分解对电导波动信号进行分析,通过计算各分量与原始信号的Spearman相关系数,筛选出与原始信号相关性较高的本征模态函数,计算能量比作为频域特征参数。最终,将时频域特征参数输入GWO-SVM进行流型识别。实验结果显示,该方法对三种流型的识别准确率达95.7%,与传统SVM和PSO-SVM方法相比,GWO-SVM在流型识别方面展现出更高的准确率和鲁棒性。 展开更多
关键词 流型识别 特征提取 灰狼优化算法 支持向量机 变分模态分解
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基于多元多尺度模糊熵的气液两相流流型辨识
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作者 张立峰 李国智 +2 位作者 刘昱甫 刘均芝 王咏梅 《计量学报》 北大核心 2026年第2期183-191,共9页
提出了一种基于多元多尺度模糊熵(mvMFE)的气液两相流流动特性分析方法。使用电阻层析成像阵列传感器对垂直上升管道的气液两相流进行流型信息采集,并使用主成分分析法对测量数据进行降维处理。然后使用多元多尺度模糊熵来度量不同流型... 提出了一种基于多元多尺度模糊熵(mvMFE)的气液两相流流动特性分析方法。使用电阻层析成像阵列传感器对垂直上升管道的气液两相流进行流型信息采集,并使用主成分分析法对测量数据进行降维处理。然后使用多元多尺度模糊熵来度量不同流型的多元时间序列的复杂度,并与多元多尺度排列熵(mvMPE)、多元多尺度离散熵(mvMDE)和一元时间序列的多尺度模糊熵(MFE)进行对比,进一步计算mvMFE前10个尺度的平均值和增长速率,结果表明相同流型所对应的mvMFE差异性最大,不同流型的mvMFE区别更显著,且mvMFE能够更好地揭示气液两相流的流动行为。 展开更多
关键词 多相流测量 气液两相流 流型辨识 多元多尺度模糊熵 电阻阵列传感器
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不同倾角岩体裂隙溶蚀模式与渗透率演化规律
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作者 李凯 胡冉 +2 位作者 张亚楠 杨志兵 陈益峰 《岩土力学》 北大核心 2026年第3期993-1006,共14页
岩体裂隙中反应性流体渗流诱发的溶蚀过程对岩土工程安全具有重要影响,而由溶液密度差异所诱发的重力效应下,倾斜裂隙介质的溶蚀机制尚不明确。通过孔隙尺度数值模拟与可视化试验相结合的方法,系统探究了不同倾角裂隙溶蚀模式及渗透率... 岩体裂隙中反应性流体渗流诱发的溶蚀过程对岩土工程安全具有重要影响,而由溶液密度差异所诱发的重力效应下,倾斜裂隙介质的溶蚀机制尚不明确。通过孔隙尺度数值模拟与可视化试验相结合的方法,系统探究了不同倾角裂隙溶蚀模式及渗透率演化规律。结果表明:倾斜裂隙溶蚀过程中,溶液密度差异诱发的浮力对流会形成“漩涡”流动结构,其中沿裂隙长度方向的浮力对流主导溶蚀通道发育,而垂直方向影响可忽略。通过引入理查森数建立了溶蚀模式判据:当理查森数R_(iⅡ)>10时属浮力对流主导模式,倾角增大促进虫洞发育并降低突破注液量;当理查森数R_(iⅡ)≤10时属强制对流主导模式,其溶蚀形态由注入流速控制,呈现紧凑溶蚀、虫洞溶蚀和均匀溶蚀3种模式。在此基础上,建立了考虑重力效应的最佳注入流速的理论模型,实现不同倾角下裂隙介质最佳注入流速的准确预测。研究成果为可溶岩区地下工程渗流控制提供了理论依据,对CO_(2)地质封存、地浸采矿等工程的安全评估具有重要指导意义。 展开更多
关键词 浮力对流效应 倾斜裂隙 溶蚀模式 渗透率演化 最佳注入流速
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特高含水后期陆相砂岩油藏深度水驱开发关键技术——以渤海湾盆地东营凹陷胜坨油田为例
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作者 束青林 严科 +2 位作者 崔文富 崔洁 李克利 《断块油气田》 北大核心 2026年第2期274-282,共9页
胜坨油田是中石化陆上最早投入开发的多层砂岩整装油田,目前综合含水率已达96.77%。近些年,通过多轮次油藏描述及层系井网的优化调整,减缓了老油田产量递减速度,但仍然存在剩余油潜力认识精度不高、水驱调整针对性不强、开发调整平衡油... 胜坨油田是中石化陆上最早投入开发的多层砂岩整装油田,目前综合含水率已达96.77%。近些年,通过多轮次油藏描述及层系井网的优化调整,减缓了老油田产量递减速度,但仍然存在剩余油潜力认识精度不高、水驱调整针对性不强、开发调整平衡油价过高等问题,水驱效益稳产难度大。为了提高整装油田特高含水后期水驱开发质量和效益,围绕精准描述剩余油,研究形成了基于人工智能的小层对比及实时更新技术、井-震-剂多维交互成因砂体连通性精细刻画技术、极端耗水层带控制下的剩余油表征技术,明确了特高含水后期剩余油分布规律;围绕有效动用剩余油,研究实践了成因砂体人工柱体防水锥、复杂叠置砂体剩余油人工富集、层内错位水驱变流线等多种剩余油高效动用模式;围绕低成本开发剩余油,迭代升级了套损井管外窜槽识别及治理工艺、井筒质量评价及再造工艺、复杂井况分注及测调工艺,有效支撑了胜坨油田老井资源的高效利用。以剩余油精准描述、有效动用和低成本开发为导向,结合开发调整矿场实践,形成了特高含水后期深度水驱调整技术体系,为整装油田大幅提高水驱采收率提供了关键技术支撑。 展开更多
关键词 成因砂体连通性 剩余油分布规律 极端耗水层带控制 层网新化 深度流场调整 增效工艺
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高岭石纳米限域下页岩油赋存与流动机制的分子动力学研究
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作者 张玉鹏 彭勃 +5 位作者 陈晓倩 王泽滕 王瑞琪 孙宁静 程凯 孙盈盈 《油气藏评价与开发》 北大核心 2026年第2期363-373,共11页
厘清页岩油在黏土矿物纳米孔隙中的微观赋存状态与流动迁移特征,对提升非常规油藏开发效率具有重要意义。针对页岩储层中广泛存在的高岭石矿物及其界面效应,采用分子动力学模拟方法构建晶间纳米缝隙模型,模拟研究烷烃类页岩油组分在高... 厘清页岩油在黏土矿物纳米孔隙中的微观赋存状态与流动迁移特征,对提升非常规油藏开发效率具有重要意义。针对页岩储层中广泛存在的高岭石矿物及其界面效应,采用分子动力学模拟方法构建晶间纳米缝隙模型,模拟研究烷烃类页岩油组分在高岭石纳米孔中的赋存形态与动力学行为。研究设置不同孔径(1~8 nm)、储层温度(335.15~435.15 K)、地层压力(15~50 MPa)和驱替力大小工况,系统分析孔径、温度、压力、驱替作用等多影响因素对页岩油分子密度分布、扩散性能和界面滑移行为的影响,揭示孔隙结构、温度、压力、驱替作用下页岩油在高岭石孔隙内的演化机制。模型结果显示:高岭石纳米孔径增大促使页岩油分子在孔隙中心区域由吸附态向游离态转变,吸附层厚度与单位面积吸附量同步升高,在靠近孔壁区域形成“类固层”结构。温度升高增强分子热运动,减弱分子与孔壁之间的作用能,扩散系数提升超3倍,表明热采可有效提升页岩油的流动性。压力升高强化液-固相互作用与分子聚集趋势,分子运动受限,导致体系整体扩散能力下降约30%。在驱替作用下,页岩油呈现明显的边界滑移特征,滑移长度和平均流速随驱替力增强显著增加,揭示出驱替力可有效突破纳米限域对分子运动的限制,增强宏观流动响应。尽管流动状态变化显著,但孔壁处吸附层结构整体保持稳定,体现出黏土表面对分子层具有较强的稳定吸附能力,揭示了高岭石纳米孔隙中页岩油分子的典型赋存-运移协同机制,明确了不同热力驱动条件下分子结构与输运参数的变化规律,为黏土孔隙中的吸附控制、扩散受限与滑移渗流研究提供了分子尺度理论支撑。研究成果可为页岩油热采、驱替等提高采收率技术方案的优化提供模型基础和关键微观参数依据。 展开更多
关键词 高岭石 纳米孔隙 页岩油 分子动力学模拟 吸附能力 流动规律
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Numerical simulation and disaster prevention for catastrophic fire airflow of main air-intake belt roadway in coal mine—A case study 被引量:9
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作者 周刚 程卫民 +4 位作者 张睿 沈宝堂 聂文 张磊 王昊 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第6期2359-2368,共10页
Coal mine belt fire develops very rapidly and is difficult to control. If not suppressed quickly, a belt fire could easily lead to airflow disorder and undermine the ventilation system. However, belt fire can be preve... Coal mine belt fire develops very rapidly and is difficult to control. If not suppressed quickly, a belt fire could easily lead to airflow disorder and undermine the ventilation system. However, belt fire can be prevented effectively by establishing fire airflow control system. In this work, the 5th belt roadway of Kongzhuang coal mine was taken as the object of investigation, where geometrical models of this roadway were established firstly. Then, based on mathematical model of fire smoke flow, the CO volume fraction, smoke density distribution, air temperature and pollutant velocity vector in the roadway before and after taking airflow control measures were simulated by using Fluent software. It can be known from the simulation that with the normal ventilation status in 5th belt roadway, the countercurrent of smoke does not happen when a fire occurs; the roadway's section is almost filled with CO at 10 m downstream from the fire source, and with air velocity getting stable gradually, the CO concentration reaches about 15 %. After taking airflow control measures, the effect range of temperature field which are harmful to the miners decreases from 69 m to 30 m; and the distance of the roadway fully filled with CO is 5 m farther than that before taking measures. Finally, according to the numerical simulation results and the actual condition of the belt roadway, the warning and automatic remote airflow control system with short-circuit method for the 5th belt roadway was designed to guarantee the safety production. 展开更多
关键词 belt roadway fire catastrophic airf ow numerical simulation flow pattern early warning and control
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射流回路反应器内气液两相流研究与应用
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作者 朱阳芳 刘波 +2 位作者 谢宝玲 陈功 姜久闯 《化学工程》 北大核心 2026年第3期63-68,共6页
射流回路反应器在气液混合方面展现出高效、快速的特性,且具有设备成本低、能源利用效率较高等优势,在大规模连续化工业生产场景中具有重要的应用价值。首先,介绍射流回路反应器的构成及所具备的优势。然后,指出其性能与流型存在紧密的... 射流回路反应器在气液混合方面展现出高效、快速的特性,且具有设备成本低、能源利用效率较高等优势,在大规模连续化工业生产场景中具有重要的应用价值。首先,介绍射流回路反应器的构成及所具备的优势。然后,指出其性能与流型存在紧密的内在联系,不同流型会使反应器内的流体力学特性以及气液两相混合机理产生显著差异。其次,阐述PIV(粒子图像测速)技术与CFD(计算流体动力学)数值模拟方法,可以实现流场流态的可视化。进而通过理论分析、实验探究及数值模拟相结合的方式,综述射流回路反应器内气液两相流的研究进展状况。最后,梳理射流回路反应器在化工化学、生物化学以及环境保护等领域的应用情形,并对其未来的研究热点予以展望。 展开更多
关键词 射流回路反应器 气液两相流 流型 工业应用
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离心泵内气液流型演变及其外特性的实验研究
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作者 任芸 杨波 +1 位作者 王玉超 郑水华 《真空科学与技术学报》 北大核心 2026年第4期370-378,共9页
为系统揭示泵入口气液流型随入口含气率(Inlet Gas Volume Fraction,IGVF)变化的演变规律,及其对泵整体性能和叶轮内气体分布特征的影响。文章在不同IGVF、液体流量条件下开展实验,对不同工况下的离心泵性能损失和气液流型进行研究。结... 为系统揭示泵入口气液流型随入口含气率(Inlet Gas Volume Fraction,IGVF)变化的演变规律,及其对泵整体性能和叶轮内气体分布特征的影响。文章在不同IGVF、液体流量条件下开展实验,对不同工况下的离心泵性能损失和气液流型进行研究。结果表明:当泵在接近额定流量工况运行时,其性能随IGVF的增加持续下降。在小流量(Ql=0.6QlBEP, IGVF=8%)工况下,诱导轮区域会出现气液分离现象;在大流量(Ql=1.4QlBEP, IGVF=13.6%)工况下,叶轮流道内也会出现严重的气液分离现象;这两种气液分离现象均导致了泵性能的突降。随着IGVF的增加,入口段的气液流型依次由泡状流Ⅰ演变为泡状流Ⅱ,最终发展为塞状流。当入口段气液流型呈泡状流Ⅱ或塞状流时,大尺寸的气泡团不均匀的冲击诱导轮叶片,导致泵性能随IGVF增大的损失达到最大,而泡状流Ⅰ则相对缓和。增大流量可使得入口管内气液分布更加均匀并推迟泡状流Ⅱ和塞状流的出现,但也会加快气泡在叶轮入口处聚集,诱发通道内气液分离,对泵运行造成不利影响。 展开更多
关键词 入口含气率 流量 离心泵 气液流型 性能损失
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