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Brittleness evaluation of gas-bearing coal based on statistical damage constitution model and energy evolution mechanism
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作者 XUE Yi WANG Lin-chao +5 位作者 LIU Yong RANJITH P G CAO Zheng-zheng SHI Xu-yang GAO Feng KONG Hai-ling 《Journal of Central South University》 2025年第2期566-581,共16页
Accurate assessment of coal brittleness is crucial in the design of coal seam drilling and underground coal mining operations.This study proposes a method for evaluating the brittleness of gas-bearing coal based on a ... Accurate assessment of coal brittleness is crucial in the design of coal seam drilling and underground coal mining operations.This study proposes a method for evaluating the brittleness of gas-bearing coal based on a statistical damage constitutive model and energy evolution mechanisms.Initially,integrating the principle of effective stress and the Hoek-Brown criterion,a statistical damage constitutive model for gas-bearing coal is established and validated through triaxial compression tests under different gas pressures to verify its accuracy and applicability.Subsequently,employing energy evolution mechanism,two energy characteristic parameters(elastic energy proportion and dissipated energy proportion)are analyzed.Based on the damage stress thresholds,the damage evolution characteristics of gas bearing coal were explored.Finally,by integrating energy characteristic parameters with damage parameters,a novel brittleness index is proposed.The results demonstrate that the theoretical curves derived from the statistical damage constitutive model closely align with the test curves,accurately reflecting the stress−strain characteristics of gas-bearing coal and revealing the stress drop and softening characteristics of coal in the post-peak stage.The shape parameter and scale parameter represent the brittleness and macroscopic strength of the coal,respectively.As gas pressure increases from 1 to 5 MPa,the shape parameter and the scale parameter decrease by 22.18%and 60.45%,respectively,indicating a reduction in both brittleness and strength of the coal.Parameters such as maximum damage rate and peak elastic energy storage limit positively correlate with coal brittleness.The brittleness index effectively captures the brittleness characteristics and reveals a decrease in brittleness and an increase in sensitivity to plastic deformation under higher gas pressure conditions. 展开更多
关键词 gas pressure statistical damage constitutive model energy evolution mechanism brittleness evaluation gas bearing coal
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Simulation and experimental study of high pressure switching expansion reduction considering real gas effect 被引量:2
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作者 罗语溪 张彦军 +2 位作者 高玉宝 王宣银 徐志鹏 《Journal of Central South University》 SCIE EI CAS 2014年第6期2253-2261,共9页
Switching expansion reduction(SER)uses a switch valve instead of the throttle valve to realize electronically controlled pressure reduction for high pressure pneumatics.A comprehensive and interactive pneumatic simula... Switching expansion reduction(SER)uses a switch valve instead of the throttle valve to realize electronically controlled pressure reduction for high pressure pneumatics.A comprehensive and interactive pneumatic simulation model according to the experimental setup of SER has been built.The mathematical model considers heat exchanges,source air pressure and temperature,environmental temperatures and heat transfer coefficients variations.In addition,the compensation for real gas effect is used in the model building.The comparison between experiments and simulations of SER indicates that,to compensate the real gas effect in high pressure discharging process,the thermal capacity of air supply container in simulation should be less than the actual value.The higher the pressure range,the greater the deviation.Simulated and experimental results are highly consistent within pressure reduction ratios ranging from 1.4 to 20 and output air mass flow rates ranging from 3.5 to 132 g/s,which verifies the high adaptability of SER and the validity of the mathematic model and the compensation method. 展开更多
关键词 high pressure pneumatics pressure reduction dynamic simulation model real gas effect
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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 gasliquid two-phase flow wake oscillation flow pattern map time–frequency entropy ensemble empirical mode decomposition Hilbert transform
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Effect of carrier gas pressure on vapor condensation and mass flow-rate in sonic nozzle 被引量:1
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作者 丁红兵 王超 陈超 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第12期4864-4871,共8页
Non-equilibrium vapor condensation of moist gas through a sonic nozzle is a very complicated phenomenon and is related to the measurement accuracy of sonic nozzle.A gas-liquid two-phase model for the moist gas condens... Non-equilibrium vapor condensation of moist gas through a sonic nozzle is a very complicated phenomenon and is related to the measurement accuracy of sonic nozzle.A gas-liquid two-phase model for the moist gas condensation flow was built and validated by moist nitrogen experiment of homogeneous nucleation through a transonic nozzle.The effects of carrier gas pressure on position and status of condensation onset in sonic nozzle were investigated in detail.The results show that condensation process is not easy to occur at lower carrier pressure and throat diameter.The main factors influencing condensation onset are boundary layer thickness,heat capacity of carrier gas and expansion rate.All of results can be used to further analyze the effect of condensation on mass flow-rate of sonic nozzle. 展开更多
关键词 condensation gas-liquid flow droplet growth sonic nozzle carrier gas pressure
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Partial transient-liquid-phase bonding of TiC cermet to stainless steel using impulse pressuring with Ti/Cu/Nb interlayer 被引量:1
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作者 黄利 盛光敏 +2 位作者 李佳 黄光杰 袁新建 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第5期1025-1032,共8页
Partial transient liquid phase (PTLP) bonding of TiC cermet to 06Cr19Ni10 stainless steel was carried out. Impulse pressuring was used to reduce the bonding time, and a Ti/Cu/Nb interlayer was employed to alleviate ... Partial transient liquid phase (PTLP) bonding of TiC cermet to 06Cr19Ni10 stainless steel was carried out. Impulse pressuring was used to reduce the bonding time, and a Ti/Cu/Nb interlayer was employed to alleviate the detrimental effect of interfacial reaction products on the bonding strength. Successful bonding was achieved at 885℃ under a pulsed pressure of 2-10 MPa within durations in the range of 2-8 min, which was notably shortened in comparison with conventional PTLP bonding. Microstructure characterization revealed the o- phase with a limit solubility of Nb, a sequence of Ti-Cu intermetallic phases and solid solutions of Ni and Cu in α+β Ti in the reaction zone. The maximum shear strength of 106.7 MPa was obtained when the joint was bonded for 5 rain, indicating that a robust metallurgical bonding was achieved. Upon shear loading, the joints fractured along the Ti-Cu intermetallics interface and spread to the interior of TiC cermet in a brittle cleavage manner. 展开更多
关键词 TiC cermet transient liquid phase impulse pressuring mechanical property fracture
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Effect of nozzle geometry on pressure drop in submerged gas injection 被引量:1
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作者 XIAO Jun-bing YAN Hong-jie LIU Liu 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第8期2068-2076,共9页
Submerged gas injection into liquid leads to complex multiphase flow, in which nozzle geometries are crucial important for the operational expenditure in terms of pressure drop. The influence of the nozzle geometry on... Submerged gas injection into liquid leads to complex multiphase flow, in which nozzle geometries are crucial important for the operational expenditure in terms of pressure drop. The influence of the nozzle geometry on pressure drop between nozzle inlet and outlet has been experimentally studied for different gas flow rates and bath depths. Nozzles with circular, gear-like and four-leaf cross-sectional shape have been studied. The results indicate that, besides the hydraulic diameter of the outlet, the orifice area and the perimeter of the nozzle tip also play significant roles. For the same superficial gas velocity, the average pressure drop from the four-leaf-shaped geometry is the least. The influence of bath depth was found negligible. A correlation for the modified Euler number considering the pressure drop is proposed depending on nozzle geometric parameter and on the modified Froude number with the hydraulic diameter of the nozzle do as characteristic length. 展开更多
关键词 submerged gas injection nozzle geometry hydraulic diameter pressure drop modified Euler number
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Pressure transient analysis of a finite-conductivity multiple fractured horizontal well in linear composite gas reservoirs 被引量:1
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作者 REN Jun-jie GAO Yang-yang +2 位作者 ZHENG Qiao GUO Ping WANG De-long 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第3期780-796,共17页
Faulted gas reservoirs are very common in reality,where some linear leaky faults divide the gas reservoir into several reservoir regions with distinct physical properties.This kind of gas reservoirs is also known as l... Faulted gas reservoirs are very common in reality,where some linear leaky faults divide the gas reservoir into several reservoir regions with distinct physical properties.This kind of gas reservoirs is also known as linear composite(LC)gas reservoirs.Although some analytical/semi-analytical models have been proposed to investigate pressure behaviors of producing wells in LC reservoirs based on the linear composite ideas,almost all of them focus on vertical wells and studies on multiple fractured horizontal wells are rare.After the pressure wave arrives at the leaky fault,pressure behaviors of multiple fractured horizontal wells will be affected by the leaky faults.Understanding the effect of leaky faults on pressure behaviors of multiple fractured horizontal wells is critical to the development design.Therefore,a semi-analytical model of finite-conductivity multiple fractured horizontal(FCMFH)wells in LC gas reservoirs is established based on Laplace-space superposition principle and fracture discrete method.The proposed model is validated against commercial numerical simulator.Type curves are obtained to study pressure characteristics and identify flow regimes.The effects of some parameters on type curves are discussed.The proposed model will have a profound effect on developing analytical/semi-analytical models for other complex well types in LC gas reservoirs. 展开更多
关键词 semi-analytical model linear composite gas reservoir multiple fractured horizontal well finite-conductivity hydraulic fracture pressure behavior
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CFD simulation of effect of anode configuration on gas–liquid flow and alumina transport process in an aluminum reduction cell 被引量:3
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作者 詹水清 李茂 +2 位作者 周孑民 杨建红 周益文 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第7期2482-2492,共11页
Numerical simulations of gas–liquid two-phase flow and alumina transport process in an aluminum reduction cell were conducted to investigate the effects of anode configurations on the bath flow, gas volume fraction a... Numerical simulations of gas–liquid two-phase flow and alumina transport process in an aluminum reduction cell were conducted to investigate the effects of anode configurations on the bath flow, gas volume fraction and alumina content distributions. An Euler–Euler two-fluid model was employed coupled with a species transport equation for alumina content. Three different anode configurations such as anode without a slot, anode with a longitudinal slot and anode with a transversal slot were studied in the simulation. The simulation results clearly show that the slots can reduce the bath velocity and promote the releasing of the anode gas, but can not contribute to the uniformity of the alumina content. Comparisons of the effects between the longitudinal and transversal slots indicate that the longitudinal slot is better in terms of gas–liquid flow but is disadvantageous for alumina mixing and transport process due to a decrease of anode gas under the anode bottom surface. It is demonstrated from the simulations that the mixing and transfer characteristics of alumina are controlled to great extent by the anode gas forces while the electromagnetic forces(EMFs) play the second role. 展开更多
关键词 aluminum reduction cell anode configuration gasliquid flow alumina transport process simulation alumina content distribution
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MOLECULAR DYNAMICS SIMULATIONS OF FILLED AND EMPTY CAGE-LIKE WATER CLUSTERS IN LIQUID WATER AND THEIR SIGNIFICANCE TO GAS HYDRATE FORMATION MECHANISMS
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作者 GUO Guangjun,ZHANG Yigang and ZHAO Yajuan Institute of Geology and Geophysics,Chinese Academy of sciences Beijing 100029,Chinese 《化工学报》 EI CAS CSCD 北大核心 2003年第z1期62-66,共5页
Molecular dynamics simulations are performed to observe the evolutions of 512 and 51262 cage-like water clusters filled with or without a methane molecule immersed in bulk liquid water at 250 K and 230 K. The lifetime... Molecular dynamics simulations are performed to observe the evolutions of 512 and 51262 cage-like water clusters filled with or without a methane molecule immersed in bulk liquid water at 250 K and 230 K. The lifetimes of these clusters are calculated according to their Lindemann index δ (t) using the criteria of δ≥0.07. For both the filled and empty clusters, we find the dynamics of bulk water determines the lifetimes of cage-like water clusters, and that the lifetime of 512 62 cage-like cluster is the same as that of 512 cage-like cluster. Although the methane molecule indeed makes the filled cage-like cluster more stable than the empty one, the empty cage-like cluster still has chance to be long-lived compared with the filled clusters. These observations support the labile cluster hypothesis on the formation mechanisms of gas hydrates. 展开更多
关键词 like in time that were MOLECULAR DYNAMICS SIMULATIONS OF FILLED AND EMPTY CAGE-LIKE WATER CLUSTERS IN liquid WATER AND THEIR SIGNIFICANCE TO gas HYDRATE FORMATION MECHANISMS of cage gas
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液压支架大功率供液系统的现状与智能化发展趋势 被引量:2
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作者 赵继云 曹超 +4 位作者 王浩 泮延召 黄笛 韩静 苗运江 《煤炭学报》 北大核心 2025年第1期676-693,共18页
煤矿井下采煤工作面供液系统为液压支架提供高压大流量液压动力,其性能和可靠性是综采成套装备安全智能高效工作的关键。为进一步保障采煤工作面支护安全,保证液压支架跟机速度,总结供液系统发展现状、提炼智能供液关键技术需求和发展... 煤矿井下采煤工作面供液系统为液压支架提供高压大流量液压动力,其性能和可靠性是综采成套装备安全智能高效工作的关键。为进一步保障采煤工作面支护安全,保证液压支架跟机速度,总结供液系统发展现状、提炼智能供液关键技术需求和发展方向是实现大功率供液系统性能跃升的首要环节。以当前液压支架供液系统大功率化、智能化发展为背景,系统地归纳分析了液压支架大功率供液系统的构型和工作原理,论述并比较了多种泵控和阀控构型的稳压控制方法;着眼于大功率供液系统压力和流量连续控制需求,分析对比了相关研究中高压大流量高水基比例卸载阀和比例流量阀的先导驱动、结构原理、工作参数等方面的特点,指出了高压大流量高水基连续控制阀研发的重点难点;针对支撑按需供液精准控制的长管路动力传递环节建模和稳压控制方法,论述了液压支架长管路非恒定流动力学建模方法的现实意义,总结比较了面向液压支架周期复合动作的强时变供液系统稳压控制策略和方法;围绕系统安全可靠性保障需求,综述了包含监测和诊断的供液系统智能运维技术研究现状。聚焦综采工作面可靠高效应用需求和高水基液压系统智能化技术前沿,分析了限制供液系统控制性能突破的理论瓶颈,全面地总结了目前大功率供液系统关键技术研发的不足;论述了从元件和系统层面提升控制性能及其可靠性以支撑大功率液压支架供液系统智能化发展的必要性,并提出了液压支架供液系统的未来技术发展方向。 展开更多
关键词 液压支架 大功率 高水基 供液系统 稳压控制
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考虑相态变化的高含硫气井硫析出预测模型 被引量:2
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作者 李朋 邓虎成 +3 位作者 张楚越 鲁杰 张小菊 黄亮 《特种油气藏》 北大核心 2025年第2期123-130,共8页
为准确预测高含硫气藏气井井筒压力、温度和硫析出规律,考虑井斜角影响以及硫的气液固3种相态特征,基于质量、动量和能量守恒定律,建立高含硫气藏气井井筒压力、温度和硫析出预测模型,并采用有限差分法和迭代法求解模型。利用现场数据,... 为准确预测高含硫气藏气井井筒压力、温度和硫析出规律,考虑井斜角影响以及硫的气液固3种相态特征,基于质量、动量和能量守恒定律,建立高含硫气藏气井井筒压力、温度和硫析出预测模型,并采用有限差分法和迭代法求解模型。利用现场数据,优选压缩因子算法,在验证模型准确性的基础上,预测井筒压力、温度和硫析出变化规律,并进行井筒压力和硫析出规律影响因素研究。研究表明:采用DPR算法计算压缩因子,预测的井筒压力、温度与实测数据相比,平均相对误差最小,分别为0.93%和1.06%。井筒内流体流动为单一气相和气-固两相流,不存在气-液两相流;随产气量、H_(2)S含量、硫颗粒初始溶解度增加以及井斜角减小,井筒压力变化幅度均逐渐增大;产气量越大,硫析出位置越靠近井口,析出硫体积越大;H_(2)S含量越高,硫析出位置距井口越近,析出硫体积越小;硫颗粒初始溶解度和井斜角越大,硫析出位置距井口越远,析出硫体积越大。该研究可为高含硫气藏的高效开发提供技术支撑。 展开更多
关键词 高含硫气井 井筒 气液固三相 井筒压力 井筒温度 硫析出预测模型
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充填射孔枪的射孔液压力脉动及管柱应力分析
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作者 窦益华 饶一伍 +3 位作者 李明飞 张伟 朱松青 梁经纬 《石油机械》 北大核心 2025年第4期56-63,共8页
射孔液充填射孔枪时的负压使射孔段管柱产生很大的下曳力,影响管柱和封隔器中心管的强度安全,但负压的量化一直是难点。建立射孔液压力脉动数值分析模型,分析射孔液充填射孔枪的压力脉动和负压及负压下的管柱安全。研究结果表明:16孔/m... 射孔液充填射孔枪时的负压使射孔段管柱产生很大的下曳力,影响管柱和封隔器中心管的强度安全,但负压的量化一直是难点。建立射孔液压力脉动数值分析模型,分析射孔液充填射孔枪的压力脉动和负压及负压下的管柱安全。研究结果表明:16孔/m、10 mm孔径,射孔液压力在1 ms达到最大值226.70 MPa,5 ms达到最小值24.80 MPa,随后做振幅减小的往复波动;孔密(16孔/m)不变,8、10、12 mm孔径时,最小压力分别为26.25、24.80、22.79 MPa,压差分别为214.23、201.9、189.2 MPa,说明孔径与负压呈负相关,最小降低到22.79 MPa;孔径10 mm不变,孔密为16、20、24孔/m时,最小压力分别为24.80、24.19、23.23 MPa,最大压差分别为201.9、211.81、215.19 MPa,说明孔密与负压呈负相关,最小降低到23.23 MPa。根据负压和鼓胀效应,得到了射孔段管柱和封隔器中心管的安全系数为1.43和1.24,说明射孔负压引起的下曳力可能是引发封隔器中心管损伤的主要因素。研究结果可为射孔段管柱安全强度分析提供新思路。 展开更多
关键词 射孔参数 射孔液 气液耦合 压力脉动 负压 管柱强度安全
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基于两相流理论的水下法兰连接器透镜垫强度及寿命
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作者 秦建国 孙志 +3 位作者 弓海霞 崔朝霞 巩勇智 郭思佳 《机械设计》 北大核心 2025年第S1期55-60,共6页
在水下油气生产系统中,针对水下采油井口的突然开启和关闭、油气输送的非连续性造成管道内油气输送速度剧烈变化,从而在管道中形成压力波动,对水下法兰连接器透镜垫造成压力冲击的问题,通过分层流模型确定气液参数,借助Fluent中的VOF模... 在水下油气生产系统中,针对水下采油井口的突然开启和关闭、油气输送的非连续性造成管道内油气输送速度剧烈变化,从而在管道中形成压力波动,对水下法兰连接器透镜垫造成压力冲击的问题,通过分层流模型确定气液参数,借助Fluent中的VOF模型对水下法兰连接器部分内的气液两相流介质进行模拟,选用RNG k-ε湍流模型对水下法兰连接器部分油气流动参数进行分析计算及模拟求解,分析了不同输送速度连接器部分内油气对外压力的分布。结果显示,最大压力冲击的增量与油气输送速度平方的增量近似成正比关系,在考虑油气输送速度对水下法兰连接器透镜垫内壁最大压力冲击后,透镜垫最大等效应力增大9.36%,疲劳寿命下降51.33%。 展开更多
关键词 水下法兰连接器 气液两相流 VOF模型 流体压力 疲劳寿命
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乙酸甲酯-甲醇-三乙胺-水的分离工艺与经济评价
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作者 杨德明 代志先 张宇 《应用化工》 北大核心 2025年第7期1920-1925,共6页
针对乙酸甲酯-甲醇-三乙胺-水四元共沸物系的分离,鉴于乙酸甲酯-甲醇共沸组成随压力变化较为敏感及三乙胺与水的互溶度随温度变化也较为敏感这些特性,提出了变压热集成精馏耦合分相分离工艺及与带中间再沸器的完全MVR热泵精馏耦合液-液... 针对乙酸甲酯-甲醇-三乙胺-水四元共沸物系的分离,鉴于乙酸甲酯-甲醇共沸组成随压力变化较为敏感及三乙胺与水的互溶度随温度变化也较为敏感这些特性,提出了变压热集成精馏耦合分相分离工艺及与带中间再沸器的完全MVR热泵精馏耦合液-液分相工艺。选用NRTL热力学计算模型,以能耗、年总费用及热力学效率等作为工艺评价指标,利用ASPEN软件对以上提出的分离工艺进行了模拟与优化。结果表明,无论是能耗还是综合经济效益,带中间再沸器的分级MVR热泵精馏耦合分相工艺较变压热集成精馏耦合分相工艺,其能耗降低了31.7%,ATC节省了27.8%,热力学效率提高了4.91%;高温可明显降三乙胺和水的互溶度,于131.6℃时分相可以得到纯度较高的三乙胺。 展开更多
关键词 乙酸甲酯-甲醇-三乙胺-水 变压精馏 MVR热泵精馏 液-液分相 年总费用
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吸入涡演化对立式离心泵水力稳定性的影响
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作者 冯建军 崔文豪 +3 位作者 朱国俊 戈振国 赵天齐 闫思娜 《农业工程学报》 北大核心 2025年第12期70-76,共7页
泵站进水池中形成的吸入涡影响泵站安全稳定运行。为研究不同工况下吸入涡形态及其演化过程对离心泵稳定性的影响,该文通过高速摄影技术捕捉不同流量下吸入涡的发展形态,并结合数值模拟对大流量工况下吸入涡的演化过程和泵内压力脉动特... 泵站进水池中形成的吸入涡影响泵站安全稳定运行。为研究不同工况下吸入涡形态及其演化过程对离心泵稳定性的影响,该文通过高速摄影技术捕捉不同流量下吸入涡的发展形态,并结合数值模拟对大流量工况下吸入涡的演化过程和泵内压力脉动特性展开研究。结果表明:试验过程中,吸入涡稳定存在的时间随着流量的增大而增加,在大流量工况下(流量Q=15.6 m^(3)/h),由于大尺度气泡脱落吸入涡投影面积产生剧烈波动;数值模拟捕捉到的吸入涡发展路径与试验结果基本吻合;在吸入涡由发展阶段向保持阶段演化时,含气率迅速增大致使气泡团聚集在叶轮流道内,从而导致保持阶段的叶片吸力面压力脉动变化范围为发展阶段的2倍,压力脉动主频由转频变为2倍转频,且随气相作用的增强,2倍转频处的压力脉动幅值沿流动方向不断增大,不均匀进气也致使叶轮径向力向正Y侧发生偏移;气泡运动至蜗舌附近时引发局部高湍动能分布;无叶区、导叶和蜗壳在靠近蜗舌方位的压力脉动峰峰值增幅最大,分别增加了59%、57%和58%,影响离心泵的稳定运行。研究结果可为后续开展吸入涡结构抑制研究、提升泵站运行稳定性提供理论参考。 展开更多
关键词 离心泵 吸入涡 气液两相流动 水力稳定性 压力脉动
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收口型离心喷嘴动态雾化特性仿真
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作者 杨亚晶 安渊 魏衍举 《火箭推进》 北大核心 2025年第1期146-155,共10页
为深入研究喷嘴动态工作与燃烧振荡的相互传递耦合关系,采用VOF模型对收口型离心式喷嘴的内部流动特征及喷雾状态进行了三维数值研究。研究了气液界面随时间的变化过程及气核的形成与扩展,获得了喷嘴压降与工作介质物性对气核及液膜的... 为深入研究喷嘴动态工作与燃烧振荡的相互传递耦合关系,采用VOF模型对收口型离心式喷嘴的内部流动特征及喷雾状态进行了三维数值研究。研究了气液界面随时间的变化过程及气核的形成与扩展,获得了喷嘴压降与工作介质物性对气核及液膜的形态特征的影响。进一步研究了介质水基于脉动压力和流量脉动下的喷雾特性规律。结果表明:液膜厚度、喷雾锥角和喷雾长度随进口压力脉动而周期性变化,脉动跟随性好,频率一致,而相位受压力脉动响应距离和气动条件的影响而有延迟;相较而言,喷雾参数对流量脉动的响应灵敏性变差,在高频流量脉动下喷雾参数脉动的周期变长。二者对动态喷雾特性的影响关系可为二次雾化特性及喷雾非定常燃烧特性研究提供基础,并可指导喷嘴工况优化及系统稳定性控制。 展开更多
关键词 离心式喷嘴 两相流模拟 压力脉动 液膜厚度 喷雾锥角
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基于LSTM-WGAN模型的柱塞-泡排复合排采系统预测控制方法
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作者 赖欣 钱中程 +3 位作者 杨肖 刘永辉 叶长青 王强 《电子测量与仪器学报》 北大核心 2025年第2期11-20,共10页
高效的生产过程和智能化管理是天然气井可持续发展的关键,目前实际生产中页岩气开采仍然面临着井底积液造成气井产能下降的问题。为提高天然气井的产能和排水效率,充分利用泡沫排水采气和柱塞气举的优点,设计了一套“双元合一”的柱塞-... 高效的生产过程和智能化管理是天然气井可持续发展的关键,目前实际生产中页岩气开采仍然面临着井底积液造成气井产能下降的问题。为提高天然气井的产能和排水效率,充分利用泡沫排水采气和柱塞气举的优点,设计了一套“双元合一”的柱塞-泡排复合排采装置,提出了一种新颖的基于长短期记忆网络(LSTM)和Wasserstein生成对抗网络(WGAN)的复合排采LSTM-WGAN预测控制方法。利用基于密度的抗噪聚类算法(DBSCAN)对数据进行预处理,避免异常数据对模型预测的影响。通过生成器和判别器相互对抗并更新各自梯度方向的权重,不断优化使油套压差、水气比预测值逼近真值,从而准确预测下一时刻的油套压差和水气比。通过柱塞-泡排复合排采智能管理系统,实施预测的柱塞泡排投放策略。实验结果表明,LSTMWGAN模型的误差最小,与LSTM模型相比,LSTM-WGAN模型的油套压差和水气比预测结果的均方根误差、均方误差、平均绝对误差分别降低了2.64%、5.13%、11.75%和8.81%、8.07%、6.60%。LSTM-WGAN预测模型可以准确地预测油套压差和水气比,指导柱塞-泡排复合排采系统发出正确的投放泡排球和柱塞指令,实现了泡排-柱塞的全智能化投放。 展开更多
关键词 复合排采 预测控制 LSTM-WGAN 油套压差 水气比 井底积液
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晶圆键合用气液增压设备控制系统设计与试验
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作者 安高成 张建宇 +3 位作者 刘宝玉 陈东良 肖让 郭嘉琪 《机床与液压》 北大核心 2025年第8期85-92,共8页
在芯片制造过程中,晶圆键合技术需将晶圆高精度粘合,其连接质量依赖于稳定且精确的压力控制。为了保证压力稳定且绿色环保,一般采用气液增压设备来实现这一过程。然而,气体刚度较低且密封件摩擦力不稳定,会干扰输出力的稳定性。针对晶... 在芯片制造过程中,晶圆键合技术需将晶圆高精度粘合,其连接质量依赖于稳定且精确的压力控制。为了保证压力稳定且绿色环保,一般采用气液增压设备来实现这一过程。然而,气体刚度较低且密封件摩擦力不稳定,会干扰输出力的稳定性。针对晶圆键合所需的宽范围和高精度输出力,研制一款全新的气液增压设备。为了实现高输出力控制精度,搭建气液增压设备的数学模型,得到控制系统的近似传递函数;设计系统自适应模糊PID控制算法,并通过MATLAB/Simulink仿真对比所提算法和传统PID算法的控制效果,通过样机试验对仿真结果及控制算法优化结果进行验证。结果表明:所设计的自适应模糊PID控制器可以有效提高气液增压设备的控制精度,额定工况下其控制误差小于5‰,且具有较好的抗干扰能力。 展开更多
关键词 气液增压设备 输出力精度 自适应模糊PID控制
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考虑耦合效应的页岩油井筒温压分布预测分析
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作者 董康兴 郭书魁 +3 位作者 金中石 赵鑫瑞 陈永峰 郭壮 《石油机械》 北大核心 2025年第5期110-116,共7页
井筒温度和压力是页岩油井产量预测、动态分析及生产设计的重要参数。为此,基于现场监测数据,采用井筒压力模型、井筒传热学理论和漂移模型,提出了多场耦合作用下油气混合井筒的温压预测方法;采用牛顿迭代法对构建的耦合模型求解,结合... 井筒温度和压力是页岩油井产量预测、动态分析及生产设计的重要参数。为此,基于现场监测数据,采用井筒压力模型、井筒传热学理论和漂移模型,提出了多场耦合作用下油气混合井筒的温压预测方法;采用牛顿迭代法对构建的耦合模型求解,结合文献数据和大庆某页岩油井实测数据,开展了耦合性对比分析,验证了其可靠性;并基于该模型进一步分析了产气量、产液量和溶解气油比对温压的敏感性。研究结果表明:产液量和产气量的增大使温度升高,而溶解气油比的增大对温度影响不大;产液量的增大使压力增大,产气量的增大使压力先减小再增大,溶解气油比的增大使压力整体趋势减小。所提出方法的压力和温度预测结果与实测数据误差分别为1.39%和1.44%,可满足工程计算要求。所得结论可为页岩油井的开发提供指导。 展开更多
关键词 页岩油井 漂移模型 温压耦合模型 井筒温压预测 产气量 产液量 溶解气油比
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人口老龄化对商业银行风险承担的影响研究
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作者 杨国辉 张太平 孙霞 《经济问题》 北大核心 2025年第6期86-95,共10页
在我国人口老龄化持续加深的背景下,积极应对人口老龄化带来的冲击,对于商业银行的风险防范至关重要。从商业银行视角出发,选取2007—2022年中国369家商业银行的面板数据,研究了人口老龄化对商业银行风险承担的影响效应及其作用机制。... 在我国人口老龄化持续加深的背景下,积极应对人口老龄化带来的冲击,对于商业银行的风险防范至关重要。从商业银行视角出发,选取2007—2022年中国369家商业银行的面板数据,研究了人口老龄化对商业银行风险承担的影响效应及其作用机制。研究发现:(1)人口老龄化会导致商业银行风险承担加重,该结论在采用人口死亡率和医疗水平作为工具变量检验后仍然成立;(2)异质性分析表明,人口老龄化会导致地方性商业银行风险承担加重,但对全国性商业银行风险承担没有显著影响;(3)机制分析表明,人口老龄化主要通过增加存贷业务盈利压力、增大流动性错配程度、降低贷款质量的渠道加重商业银行风险承担。因此,商业银行应该充分重视人口老龄化对其风险承担的影响,在经营管理中纳入人口老龄化的风险管理分析,以更有效地提升商业银行防范风险的能力。 展开更多
关键词 人口老龄化 银行风险承担 存贷业务盈利压力 流动性错配 贷款质量
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