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Coupling of methanol and long chain alkanes on molecular sieves with CHA structures
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作者 YANG Chuang WANG Kangjun +1 位作者 LI Jinzhe LIU Zhongmin 《燃料化学学报(中英文)》 北大核心 2026年第2期64-75,共12页
The coupling reactions of methanol and long-chain alkanes(n-dodecane,n-tetradecane and n-hexadecane)over CHA-type molecular sieves were studied in a fixed bed reactor.Over SAPO-34 and SSZ-13,it was found that the indu... The coupling reactions of methanol and long-chain alkanes(n-dodecane,n-tetradecane and n-hexadecane)over CHA-type molecular sieves were studied in a fixed bed reactor.Over SAPO-34 and SSZ-13,it was found that the induction period of methanol conversion was shortened by the introduction of long-chain alkanes.However,the addition of long-chain alkanes had little influence on the product distribution.Polymethylbenzenes and the derivatives were the main retained species on spent SSZ-13 catalyst,while adamantanes were the main retained species on SAPO-34.This indicates that coking species formation was mainly related to the further transformation of long-chain alkane/methanol coupling products at acid sites of the molecular sieve.These findings provide valuable information of long chain alkanes conversion and methanol reaction behavior of induction period over small pore CHA molecular sieves. 展开更多
关键词 METHANOL long-chain alkane coupling transformation induction period molecular sieves
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Robust microwave catalytic oxidative coupling of methane over Mn_(2)O_(3)-TiO_(2)-Na_(2)WO_(4)/SiO_(2)+SiC
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作者 SUN Ruize LI Ran +1 位作者 ZHOU Jicheng XU Wentao 《燃料化学学报(中英文)》 北大核心 2026年第5期138-152,共15页
Oxidative coupling of methane(OCM)is an important way for the high-value utilization of methane(CH_(4)),but there are still some problems such as insufficient conversion and selectivity under traditional thermal catal... Oxidative coupling of methane(OCM)is an important way for the high-value utilization of methane(CH_(4)),but there are still some problems such as insufficient conversion and selectivity under traditional thermal catalysis.Herein,a new Mn_(2)O_(3)-TiO_(2)-Na_(2)WO_(4)/SiO_(2)+SiC microwave catalyst was developed for the oxidative coupling of methane under microwave irradiation.The results indicate that the calcined Mn_(2)O_(3)-TiO_(2)-Na_(2)WO_(4)/SiO_(2)+SiC catalyst is superior to the uncalcined counterpart in performance and the microwave catalytic reaction mode(MCRM)is significantly advantageous to the conventional reaction mode(CRM)for the OCM.For OCM at 700℃in MCRM,the conversion of CH_(4),the selectivity to C_(2)-C_(3)hydrocarbons,and the yield of C_(2)-C_(3)are 26.6%,76.5%and 20.4%,respectively,much superior to the values of 12.3%,61.9%and 7.5%in CRM under identical reaction conditions.That is,microwave irradiation can significantly enhance the yield of C_(2)-C_(3)for OCM at a lower reaction temperature.The Mn_(2)O_(3)-TiO_(2)-Na_(2)WO_(4)/SiO_(2)+SiC catalyst shows favorable stability at 700℃ during the OCM reaction in MCRM for 20 h,with a methane conversion of above 25%and a selectivity of above 76%to C_(2)-C_(3)hydrocarbons.Further study illustrates that the microwave irradiation can significantly reduce the apparent activation energy to 27.5 kJ/mol,compared with the value of 173 kJ/mol in the conventional mode,promote the free radical coupling and inhibit deep oxidation of OCM products.These results provide a new idea for the efficient conversion of CH_(4) at a low temperature and for the sustainable development of green chemical industry. 展开更多
关键词 microwave catalysis low temperature and high efficiency Mn_(2)O_(3)-Na_(2)WO_(4)/SiO_(2)+SiC oxidative coupling of methane
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Dynamic instability and catastrophe mechanisms of surrounding rock with rigid-flexible coupling supporting structure under bidirectional impact loading
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作者 YANG Rong-zhou XU Ying +2 位作者 ZHANG Quan HE Man-chao YU Mei-lu 《Journal of Central South University》 2026年第1期224-256,共33页
Aiming at the problem of dynamic instability of hard-brittle jointed rock surrounding in deep tunnel/roadway engineering,combining with the support concepts of"coupling rigidity with flexibility"and"ove... Aiming at the problem of dynamic instability of hard-brittle jointed rock surrounding in deep tunnel/roadway engineering,combining with the support concepts of"coupling rigidity with flexibility"and"overcoming rigidity by flexibility",the prevention and control method with"rigid-flexible coupling(R-F-C)"was put forward.Through numerical simulation calculation,the impact damage process,acoustic emission(AE)evolution characteristics,and element stress/displacement evolution characteristics of unsupported surrounding rock structure model,rigid supporting surrounding rock structure model,and"R-F-C"supporting surrounding rock structure model under horizontal bidirectional impact loading were compared and analyzed.Based on the theory of stress wave propagation,the dynamic instability catastrophe mechanism of three kinds of supporting structure models induced by horizontal bidirectional impact loading was revealed.Based on the Mohr-Coulomb strength theory,the stress discrimination methods of dynamic catastrophe of surrounding rock induced by horizontal bidirectional impact loading under three kinds of supporting structures were proposed.Combined with the above numerical simulation study,the explosion impact physical and mechanical test of"R-F-C"surrounding rock supporting plate structure was further designed and carried out.Finally,combined with the"conceptual model of ball-cliff potential energy instability",the energy driving theory and energy transformation mechanism of impact-induced rockburst under three kinds of supporting structures were discussed deeply.The research results provided a scientific basis for further promoting the effective application of"R-F-C"supporting structure in the prevention and control of dynamic instability of deep tunnel/roadway surrounding rock. 展开更多
关键词 jointed surrounding rock rigid-flexible coupling(R-F-C)supporting structure stress wave propagation acoustic emission(AE) damage evolution impact instability catastrophe mechanism
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基于EDEM-Fluent耦合的泵内含不同形状颗粒的固液两相流磨损 被引量:1
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作者 程文洁 邵春雷 《南京工业大学学报(自然科学版)》 北大核心 2025年第2期186-193,共8页
离心泵是输送固液两相混合物的关键设备,固体颗粒的存在容易导致泵磨损。为了研究固相性质对泵内部流动特性的影响,特别是揭示固体颗粒在壁面上的磨损机制,采用EDEM-Fluent耦合方法研究泵内的固液两相流,并采用欧拉拉格朗日模型进行数... 离心泵是输送固液两相混合物的关键设备,固体颗粒的存在容易导致泵磨损。为了研究固相性质对泵内部流动特性的影响,特别是揭示固体颗粒在壁面上的磨损机制,采用EDEM-Fluent耦合方法研究泵内的固液两相流,并采用欧拉拉格朗日模型进行数值模拟。计算结果清晰地显示了粒子的动态分布及其碰撞情况。结果表明:颗粒尺寸对磨损影响较大,无论在何种流量工况下,大尺寸颗粒对蜗壳的磨损更为严重;在相同工况下,非球体颗粒对泵部件的磨损相对严重一些;在不同流量工况下,泵入口及出口段的颗粒分布差别较大,低流量工况下的叶轮入口位置颗粒分布非常不均匀,前盖板的磨损较严重;对大尺寸球体颗粒和非球体颗粒进行对比,在小流量工况下,无论是球体颗粒还是非球体颗粒,泵的磨损情况都非常严重,磨损曲线斜率很高,且呈现阶段性的陡增。研究结果可以获得准确的磨损位置,为改进离心泵的水力设计提供参考。 展开更多
关键词 固液两相流 edem-fluent耦合 球体颗粒 非球体颗粒 磨损
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基于EDEM-FLUENT的气送式虾塘投饵车抛料机构优化设计
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作者 张丽珍 姜赛 +2 位作者 朱梦祥 徐冲 吴迪 《农业工程学报》 北大核心 2025年第20期54-62,共9页
为解决现有投饵装备如固定式岸基投饲机和投饵船,存在的投饲范围有限、转塘不便等问题,该研究对气送式投饵车的抛料机构进行了优化设计。气送式投饵车可实现转塘及绕塘一周均匀投饵,通过设计的可调式抛料机构将饲料抛撒至规定区域。为... 为解决现有投饵装备如固定式岸基投饲机和投饵船,存在的投饲范围有限、转塘不便等问题,该研究对气送式投饵车的抛料机构进行了优化设计。气送式投饵车可实现转塘及绕塘一周均匀投饵,通过设计的可调式抛料机构将饲料抛撒至规定区域。为确定影响抛料机构抛料范围及饲料分布均匀性的最佳组合参数,基于EDEM-FLUENT耦合仿真,选取风机风速、抛料管倾斜角度、长度以及直径4个关键设计参数进行单因素试验,并根据单因素试验结果进行正交试验,对试验结果进行响应面分析和参数优化。研究结果表明,当风机风速为16.1 m/s,抛料管倾斜角度为8.117°、长度为424.16 mm、直径为41.57 mm时,3~5 m目标范围内饲料颗粒的覆盖率及分布均匀性均达到最佳状态。样机试验表明,气送式投饵车抛撒饲料至3~5 m范围内的覆盖率和均匀性与仿真结果的相对误差分别为5.4%、6.5%,符合定范围且均匀抛撒的预期要求。气送式投饵车可绕塘移动,将饲料较均匀地抛撒至规定距离范围,且满足一车多塘使用的功能性要求,弥补了现有户外虾塘投饲装备的不足,为虾塘投饲提供了更加均匀高效的解决方案。 展开更多
关键词 水产养殖 edem-fluent 仿真 单因素 投饵车 气送式
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Failure microscopic mechanism and damage constitutive model of dolomite under water-rock coupling interaction 被引量:3
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作者 SUN Xiao-ming ZHANG Jing +6 位作者 SHI Fu-kun HE Lin-sen ZHANG Yong MIAO Cheng-yu DING Jia-xu MA Li-sha ZHAO Hao-ze 《Journal of Central South University》 2025年第4期1431-1446,共16页
To investigate the effects of water and cyclic loading on dolomite’s mechanical properties during deep mining,mechanical experiments on non-pressure water absorption and cyclic loading were conducted.The findings rev... To investigate the effects of water and cyclic loading on dolomite’s mechanical properties during deep mining,mechanical experiments on non-pressure water absorption and cyclic loading were conducted.The findings reveal that the elastic modulus and Poisson ratio of dolomite fluctuate with increasing water content.The mass of water absorption is positively correlated with time and the water absorption stage can be divided into three stages:accelerated,decelerated,and stabilized stages.During this process,the number of pores in dolomite increases,while the pore diameter initially decreases and then fluctuates.Microscopic analysis shows that the proportion of mesopores first increases and then decreases,while micropores exhibit the opposite trend,and the proportion of macropores fluctuates around 0%.A model diagram of structural evolution during water absorption has been developed.Additionally,the softening process of dolomite’s water absorption strength is categorized into three stages:a relatively stable stage,an accelerated softening stage dominated by mesopore water absorption,and a decelerated softening stage characterized by micropore water absorption.A uniaxial damage constitutive model for dolomite under water influence was established based on the Weibull distribution and Mohr-Coulomb strength criterion,and experimental validation indicates its strong applicability. 展开更多
关键词 water-rock coupling DOLOMITE constitutive model MICROSTRUCTURE loading-unloading cycle
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Analysis of multi-factor influences of tilt-to-length coupling noise in a test mass interferometer
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作者 ZHAO Meng-yuan SHEN Jia +5 位作者 PENG Xiao-dong MA Xiao-shan YANG Zhen LIU He-shan MENG Xin ZHANG Jia-feng 《中国光学(中英文)》 北大核心 2025年第3期704-714,共11页
For space-borne gravitational wave detection missions based on the heterodyne interferometry principle,tilt-to-length(TTL)coupling noise is an important optical noise source,significantly influencing the accuracy of t... For space-borne gravitational wave detection missions based on the heterodyne interferometry principle,tilt-to-length(TTL)coupling noise is an important optical noise source,significantly influencing the accuracy of the measurement system.We present a method for analyzing TTL coupling noise under the joint influence of multiple factors.An equivalent simulated optical bench for the test mass interferometer was designed,and Gaussian beam tracing was adopted to simulate beam propagation.By simulating the interference signal,it can analyze the impact of various factors on the TTL coupling noise,including positional,beam parameters,detector parameters,and signal definition factors.On this basis,a random parameter space composed of multiple influential factors was constructed within a range satisfying the analysis requirement,and the corresponding simulation results from random sampling were evaluated via variance-based global sensitivity analysis.The calculated results of the main and total effect indexes show that the test mass rotation angle and the piston effect(lateral)significantly influence the TTL coupling noise in the test mass interferometer.The analysis provides a qualitative reference for designing and optimizing space-borne laser interferometry systems. 展开更多
关键词 space interferometry optical simulation tilt-to-length coupling noise
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Accidental zero modes in a multiorbital superconductor with spin-orbital coupling
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作者 XIANG Ke WANG Da WANG Qianghua 《物理学进展》 北大核心 2025年第5期250-259,共10页
The Majorana zero modes in vortex cores are of extensive interest in the context of topological quantum computing.However,a zero-energy bound state may arise accidentally but is not necessarily a Majorana zero mode.Su... The Majorana zero modes in vortex cores are of extensive interest in the context of topological quantum computing.However,a zero-energy bound state may arise accidentally but is not necessarily a Majorana zero mode.Such accidental zero modes should be carefully ruled out in experiment in order to identify the genuine Majorana zero modes.We show that in a spin-orbital coupled multi-band superconductor,such as the iron-selenide superconductor,accidental zero modes indeed arise in the vortex core if the pairing symmetry is the so-called nodeless d-wave(defined in the absence of spin-orbital coupling).Instead,if the pairing sym-metry is s_(++)or s_(+−)with respect to the Fermi pockets split by the spin-orbital coupling,the accidental zero modes do not appear in the limit of weak spin-orbital coupling.Our results are not only important in the experimental identification of Majorana zero modes,but also provide an avenue to pinpoint the pairing symmetry of the iron-selenide superconductor. 展开更多
关键词 spin-orbital coupling Andreev approximation accidental zero mode
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Engineering plasmon resonance coupling in Cu-MoO_(3-x)/TiO_(2) for enhanced photocatalytic ammonia decomposition
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作者 Linlin Chen Aobo Chen +5 位作者 Junchi Xu Xiaomin Ji Canyu Hu Ning Zhang Ran Long Yujie Xiong 《Journal of University of Science and Technology of China》 北大核心 2025年第12期28-39,I0001,共13页
Photocatalytic ammonia(NH_(3))decomposition is a key strategy for green hydrogen production and renewable energy conversion.Although conventional plasmonic metal/TiO_(2) composites exhibit some activity,their applicat... Photocatalytic ammonia(NH_(3))decomposition is a key strategy for green hydrogen production and renewable energy conversion.Although conventional plasmonic metal/TiO_(2) composites exhibit some activity,their applications are constrained by high carrier recombination rates and narrow light harvesting ranges.To address these challenges,this study innovatively introduces the plasmonic semiconductor MoO_(3-x),which is characterized by broad-spectrum absorption and abundant oxygen vacancies,to construct a Cu-MoO_(3-x)/TiO_(2) plasmon resonance coupling nanostructure.The construction of the Cu-MoO_(3-x) composite stabilizes Cu via MoO_(3-x) coating and facilitates electron transfer from Cu to MoO_(3-x),generating more oxygen vacancies for NH_(3) activation.The visible localized surface plasmon resonance(LSPR)response of Cu,coupled with the visible to near-infrared LSPR resonance of MoO_(3-x),broadens the spectral response and optimizes carrier dynamics,thereby reducing the recombination of photogenerated carriers.The use of hot carriers and plasmonic photothermal effects synergistically accelerate surface reaction kinetics and enhance photocatalytic efficiency.In particular,the optimal Cu-MoO_(3-x)/TiO_(2) catalyst results in an enhanced NH_(3) decomposition rate of 103.2 mmol·g^(-1)·h^(-1) under fullspectrum light irradiation,representing 29-fold and 94-fold enhancements over those of Cu/TiO_(2) and MoO_(3-x)/TiO_(2),respectively.This innovative design strategy transcends traditional plasmonic metal/semiconductor catalyst designs and opens new avenues for developing efficient solar-driven plasmon resonance coupling catalysts. 展开更多
关键词 ammonia decomposition PHOTOCATALYSIS plasmonic MoO_(3-x) plasmon resonance coupling
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Photocatalytic C−C coupling of acetonitrile into succinonitrile over hydrophobic TiO_(2) in a flow reactor
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作者 GONG Kun HUANG Min +4 位作者 LI Ruitao DAI Yuanyuan NIU Qiang LIN Tiejun ZHONG Liangshu 《燃料化学学报(中英文)》 北大核心 2025年第12期1807-1816,共10页
A radical C−C-coupling reaction of acetonitrile into succinonitrile over hydrophobic TiO_(2) photocatalyst with enhanced catalytic activity was developed.In addition,the usage of a flow reactor further improved the ph... A radical C−C-coupling reaction of acetonitrile into succinonitrile over hydrophobic TiO_(2) photocatalyst with enhanced catalytic activity was developed.In addition,the usage of a flow reactor further improved the photon utilization efficiency for succinonitrile synthesis at room temperature.The space time yield of succinonitrile reached 55.59μmol/(g·h)over hydrophobic TiO_(2) catalyst,which was much higher than that of pristine TiO_(2)(4.23μmol/(g·h)).Mechanistic studies revealed that the hydrophobic modification of TiO_(2) promoted the separation and transfer of photogenerated carriers,as well as suppressed their recombination.Hydrophobic TiO_(2) also enhanced the adsorption of−CH3 of acetonitrile,thus facilitating the activation of C−H bond and the utilization efficiency of photocarriers. 展开更多
关键词 photocatalysis SUCCINONITRILE C−C coupling hydrophobic TiO_(2) flow reactor
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Mechanical properties and permeability evolution of sandstone subjected to the coupling effects of chemical-seepage-stress
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作者 WANG Wei CHEN Chao-wei +3 位作者 CAO Ya-jun JIA Yun LIU Shi-fan SHEN Wan-qing 《Journal of Central South University》 2025年第2期552-565,共14页
In this study,a series of triaxial tests are conducted on sandstone specimens to investigate the evolution of their mechanics and permeability characteristics under the combined action of immersion corrosion and seepa... In this study,a series of triaxial tests are conducted on sandstone specimens to investigate the evolution of their mechanics and permeability characteristics under the combined action of immersion corrosion and seepage of different chemical solutions.It is observed that with the increase of confining pressure,the peak stress,dilatancy stress,dilatancy stress ratio,peak strain,and elastic modulus of the sandstone increase while the Poisson ratio decreases and less secondary cracks are produced when the samples are broken.The pore pressure and confining pressure have opposite influences on the mechanical properties.With the increase of the applied axial stress,three stages are clearly identified in the permeability evolution curves:initial compaction stage,linear elasticity stage and plastic deformation stage.The permeability reaches the maximum value when the highest volumetric dilatancy is obtained.In addition,the hydrochemical action of salt solution with pH=7 and 4 has an obvious deteriorating effect on the mechanical properties and induces the increase of permeability.The obtained results will be useful in engineering to understand the mechanical and seepage properties of sandstone under the coupled chemical-seepage-stress multiple fields. 展开更多
关键词 red sandstone chemical corrosion multi-field coupling mechanical characteristics permeability evolution
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Cascading failure analysis of an interdependent network with power-combat coupling
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作者 WANG Yang TAO Junyong +2 位作者 ZHANG Yun’an BAI Guanghan DUI Hongyan 《Journal of Systems Engineering and Electronics》 2025年第2期405-422,共18页
Cutting off or controlling the enemy’s power supply at critical moments or strategic locations may result in a cascade failure,thus gaining an advantage in a war.However,the exist-ing cascading failure modeling analy... Cutting off or controlling the enemy’s power supply at critical moments or strategic locations may result in a cascade failure,thus gaining an advantage in a war.However,the exist-ing cascading failure modeling analysis of interdependent net-works is insufficient for describing the load characteristics and dependencies of subnetworks,and it is difficult to use for model-ing and failure analysis of power-combat(P-C)coupling net-works.This paper considers the physical characteristics of the two subnetworks and studies the mechanism of fault propaga-tion between subnetworks and across systems.Then the surviv-ability of the coupled network is evaluated.Firstly,an integrated modeling approach for the combat system and power system is predicted based on interdependent network theory.A heteroge-neous one-way interdependent network model based on proba-bility dependence is constructed.Secondly,using the operation loop theory,a load-capacity model based on combat-loop betweenness is proposed,and the cascade failure model of the P-C coupling system is investigated from three perspectives:ini-tial capacity,allocation strategy,and failure mechanism.Thirdly,survivability indexes based on load loss rate and network sur-vival rate are proposed.Finally,the P-C coupling system is con-structed based on the IEEE 118-bus system to demonstrate the proposed method. 展开更多
关键词 cascading failure survivability analysis interdepen-dent network power-combat(P-C)coupling.
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Radiated noise correction model for the dominant scale correlation of aerodynamic sound generation in pantograph cavity coupling system
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作者 TAN Xiao-ming FU Bao-jun +4 位作者 CHEN Zheng-wei LIU Jia-ming WU Yu-cai YANG Zhi-gang HUANG Sha 《Journal of Central South University》 2025年第12期4850-4867,共18页
The pantograph cavity coupling system(PCCS)of high-speed trains,as a representative region for aerodynamic noise generation,merits further investigation into its scale effects.In this paper,the large-eddy simulation(L... The pantograph cavity coupling system(PCCS)of high-speed trains,as a representative region for aerodynamic noise generation,merits further investigation into its scale effects.In this paper,the large-eddy simulation(LES)and the Ffowcs Williams-Hawkings(FW-H)integral equation are used to calculate and analyze the sound energy intensity distribution pattern and spectral characteristics of the PCCS at different scales(1/1,1/2,1/4,1/8,1/16,1/25,1/50).The research shows that as the scaled model decreases,the relative area of the pantograph submerged by the vehicle boundary layer increases,and its inflow velocity decreases,thereby reducing the overall radiated sound pressure level in this area.For the segments 1/1-1/2 and 1/4-1/16,the dominant scale of sound generation is typical pure tone noise,with distinct similar features in the spectral discrete scales.For the segments 1/25-1/50,the turbulent fluctuation characteristics of the vehicle boundary layer mask the peak features,and the spectrum is dominated by broadband characteristics.Combining the PCCS sound source energy scale correction model and the dimensionless spectrum correction function,a scale correction model for the sound power spectrum of the sound source is obtained,so that the noise results of the reduced-scale model can be corresponded to the full-scale model.This work advances the comprehension of high-speed train aerodynamic noise generation mechanisms and offers critical references for developing precision noise control technologies. 展开更多
关键词 pantograph cavity coupling aerodynamic noise scale effect large eddy simulation high-speed trains
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The noise analysis and multi-physical field coupling study of high-precision SERF atomic gyroscopes
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作者 Jiaxin Liu Xusheng Lei +3 位作者 Yu Yuan Yizhe Zhou Haoying Pang Zhihong Wu 《Defence Technology(防务技术)》 2025年第8期213-224,共12页
The spin-exchange relaxation-free atomic gyroscope,with its exceptionally high theoretical precision,demonstrates immense potential to become the next-generation strategic-grade gyroscope.However,due to technological ... The spin-exchange relaxation-free atomic gyroscope,with its exceptionally high theoretical precision,demonstrates immense potential to become the next-generation strategic-grade gyroscope.However,due to technological noise,there is still a significant gap between its actual precision and theoretical precision.This study identifies the key factor limiting the precision of the SERF gyroscope as coupling noise.By optimizing the detection loop structure,a distinction between the dual-axis signals'response to optical and magnetic fields was achieved-where the optical errors responded similarly,while the response to magnetic noise was opposite.Based on the differences in the optical-magnetic response of the dual-axis signals,empirical mode decomposition was used to decompose the dual-axis gyroscope signals into multiple intrinsic mode functions,and Allan deviation analysis was applied to analyze the noise characteristics of the intrinsic mode functions over various periods.This study successfully reveals that optical errors caused by thermal-optical coupling and long-period magnetic noise induced by thermal-magnetic coupling are the dominant factors limiting the long-term stability of the SERF gyroscope.Based on these analyses,the study concludes that to achieve strategic-grade precision for the SERF gyroscope,it is essential to effectively address the noise issues caused by multi-physical field couplings. 展开更多
关键词 SERF gyroscope Empirical mode decomposition Allan deviation Noise feature recognition Multi physics field coupling
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Design and experimental verification of a large-scale coupled morphing-wing mechanism for hypersonic vehicles
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作者 Yanbing Wang Honghao Yue +5 位作者 Xueting Pan Jun Wu Fei Yang Yong Zhao Xue Bai Jicheng Liu 《Defence Technology(防务技术)》 2026年第2期125-141,共17页
Hypersonic morphing vehicle(HMV)can reconfigure aerodynamic geometries in real time,adapting to diverse needs like multi-mission profiles and wide-speed-range flight,spanwise morphing and sweep angle variation are rep... Hypersonic morphing vehicle(HMV)can reconfigure aerodynamic geometries in real time,adapting to diverse needs like multi-mission profiles and wide-speed-range flight,spanwise morphing and sweep angle variation are representative large-scale wing reconfiguration modes.To meet the HMV's need for an increased lift and a lift to drag ratio during hypersonic maneuverability and cruise or reentry equilibrium glide,this paper proposes an innovative single-DOF coupled morphing-wing system.We then systematically analyze its open-loop kinematics and closed-loop connectivity constraints,and the proposed system integrates three functional modules:the preset locking/release mechanism,the coupled morphing-wing mechanism,and the integrated wing locking with active stiffness control mechanism.Experimental validation confirms stable,continuous morphing under simulated aerodynamic loads.The experimental results indicate:(i)SMA actuators exhibit response times ranging from 18 s to 160 s,providing sufficient force output for wing unlocking;(ii)The integrated wing locking with active stiffness control mechanism effectively secures wing positions while eliminating airframe clearance via SMA actuation,improving the first-order natural frequency by more than 17%;(iii)The distributed aerodynamic loading system enables precise multi-stage follow-up loading during morphing,with the coupled morphing wing maintaining stable,continuous operation under 0-3500 N normal loads and 110-140 N axial force.The proposed single-DOF coupled morphing mechanism not only simplifies and improves structural efficiency but also demonstrates superior performance in locking control,stiffness enhancement,and aerodynamic responsiveness.This establishes a foundational framework for the design of future intelligent morphing configurations and the implementation of flight control systems. 展开更多
关键词 Hypersonic vehicle coupled morphing wing Locking/release Active stiffness control Distributed loading
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Dynamic fracture behavior and coupled impact effect of as-cast W-Zr-Ti energetic structural material
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作者 Yuxuan Qi Liang Mao +3 位作者 Chunlan Jiang Guitao Liu Kongxun Zhao Mengchen Zhang 《Defence Technology(防务技术)》 2026年第1期422-435,共14页
This paper prepared a novel as-cast W-Zr-Ti metallic ESM using high-frequency vacuum induction melting technique.The above ESM performs a typical elastic-brittle material feature and strain rate strengthening behavior... This paper prepared a novel as-cast W-Zr-Ti metallic ESM using high-frequency vacuum induction melting technique.The above ESM performs a typical elastic-brittle material feature and strain rate strengthening behavior.The specimens exhibit violent chemical reaction during the fracture process under the impact loading,and the size distribution of their residual debris follows Rosin-Rammler model.The dynamic fracture toughness is obtained by the fitting of debris length scale,approximately 1.87 MPa·m~(1/2).Microstructure observation on residual debris indicates that the failure process is determined by primary crack propagation under quasi-static compression,while it is affected by multiple cracks propagation in both particle and matrix in the case of dynamic impact.Impact test demonstrates that the novel energetic fragment performs brilliant penetration and combustion effect behind the front target,leading to the effective ignition of fuel tank.For the brittleness of as-cast W-ZrTi ESM,further study conducted bond-based peridynamic(BB-PD)C++computational code to simulate its fracture behavior during penetration.The BB-PD method successfully captured the fracture process and debris cloud formation of the energetic fragment.This paper explores a novel as-cast metallic ESM,and provides an available numerical avenue to the simulation of brittle energetic fragment. 展开更多
关键词 Energetic structural material Dynamic fracture behavior coupled impact effect Mechanical property Peridynamics As-cast W-Zr-Ti alloy
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基于EDEM-Fluent仿真的自旋射流式挖藕机的设计与试验 被引量:28
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作者 吴昊 夏俊芳 +3 位作者 张国忠 王培通 劳山峰 张秀梅 《农业工程学报》 EI CAS CSCD 北大核心 2018年第5期9-14,共6页
为解决藕农人工挖藕劳动强度大,效率低,易损伤莲藕的难题,针对现有挖藕设备成本较高,操作过程繁琐,需要一定经验技术才能掌握的缺陷,设计了一种自旋射流式挖藕机。阐述了该机的结构和工作原理,通过离散元法和流体动力学耦合仿真分析了泥... 为解决藕农人工挖藕劳动强度大,效率低,易损伤莲藕的难题,针对现有挖藕设备成本较高,操作过程繁琐,需要一定经验技术才能掌握的缺陷,设计了一种自旋射流式挖藕机。阐述了该机的结构和工作原理,通过离散元法和流体动力学耦合仿真分析了泥土-射流之间的相互作用机理,明确了关键部件喷头的结构参数对试验指标的影响规律,即挖掘深度随着喷射角度30?至60?范围内的增加而减小,随着射流速度10至20 m/s范围内的增加而增加。通过分析仿真射流过程发现,当喷射角度为30?时,会出现泥土回填的情况。台架试验和田间试验表明:自旋射流式挖藕机喷头直径为17 mm,喷射角度30?时,可以以0.2 s的速度前进,完全挖出埋于泥土深度400 mm内的莲藕,莲藕无损伤,且表面无泥土粘结,挖掘幅宽约为1.2 m。该文提出了EDEM-Fluent耦合仿真的运用将有利于莲藕采挖设备的作用机理研究,为莲藕采挖设备的设计与优化提供理论依据。该耦合仿真方法还能应用于江河湖泊清淤、管道清理等其他水力作业领域的研究。 展开更多
关键词 机械化 设计 优化 莲藕 挖掘 射流 edem-fluent
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基于EDEM-Fluent耦合模拟高含硫气藏地层硫沉积 被引量:6
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作者 李周 罗卫华 +2 位作者 吴昊 刘百川 赵慧言 《断块油气田》 CAS 北大核心 2016年第2期213-215,共3页
溶解在酸性气体中的元素硫会随着地层压力的降低从气体中析出,析出硫微粒的沉积会对地层造成严重伤害。以往对于地层孔隙中硫微粒的沉积与否,主要是通过研究其所受合力情况来判别,忽略了硫微粒的具体形状、碰撞、聚集等因素。因此,针对... 溶解在酸性气体中的元素硫会随着地层压力的降低从气体中析出,析出硫微粒的沉积会对地层造成严重伤害。以往对于地层孔隙中硫微粒的沉积与否,主要是通过研究其所受合力情况来判别,忽略了硫微粒的具体形状、碰撞、聚集等因素。因此,针对井筒附近地层发生硫沉积的高含硫气藏,利用EDEM-Fluent耦合方法模拟研究孔隙中硫的沉积规律。研究结果表明:同样大小的微粒,由于存在碰撞、凝聚等作用力,所受合力不同,产生了不同的运动规律;在流动方向上,硫沉积量呈递增趋势;硫微粒在孔隙中的同一位置沉积量,会随着时间的增加逐渐增大;离孔隙壁面越近的硫微粒,沉积越牢固,越不容易被气流带走;硫微粒浓度在纵向从上到下依次增加;随着气体中硫质量分数的增加,硫沉积速率也增大;孔隙突然扩大或缩小,硫沉积呈现出不同的规律。 展开更多
关键词 edem-fluent 耦合模拟 高含硫气藏 硫沉积
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基于EDEM-Fluent耦合仿真的小麦宽苗带精量电控排种系统设计与试验 被引量:3
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作者 赵晓顺 赵达卫 +3 位作者 池丹丹 霍倩 柏文杰 冉文静 《河北农业大学学报》 CAS CSCD 北大核心 2022年第1期105-114,120,共11页
为匹配小麦宽苗带播种技术,解决地轮打滑导致播种均匀性差的问题,设计了正负压式小麦宽苗带电控精量排种系统。旋转编码器HN3806-AB-400N实时获取作业机具的前进速度,单片机采用PWM控制方式,通过BLD-300B电机驱动器控制驱动80BL02直流... 为匹配小麦宽苗带播种技术,解决地轮打滑导致播种均匀性差的问题,设计了正负压式小麦宽苗带电控精量排种系统。旋转编码器HN3806-AB-400N实时获取作业机具的前进速度,单片机采用PWM控制方式,通过BLD-300B电机驱动器控制驱动80BL02直流无刷电机。借助EDEM-Fluent耦合仿真分析,统计在15、19、23、27、31 r/min 5个水平下的合格指数、重播指数和漏播指数,15~27 r/min时合格指数≥80%,23~31 r/min时漏播指数变化明显,转速对漏播指数影响较大。通过响应面试验得到较优参数组合:吸种负压-3.5 kPa,排种器转速19 r/min,投种高度180 mm。利用试验进行验证,结果为:重播率9.22%,漏播率10.16%,合格率80.62%,满足相关的技术要求与农艺要求。 展开更多
关键词 小麦 精量排种 电控系统 宽苗带 edem-fluent耦合 响应面试验 交互作用
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搅拌罐内基于EDEM-FLUENT耦合的多相流混合数值模拟 被引量:18
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作者 王建明 邱钦宇 何讯超 《郑州大学学报(工学版)》 CAS 北大核心 2018年第5期79-84,共6页
利用EDEM-FLUENT联合仿真,采用VOF(Volume of Fluid)法和欧拉-拉格朗日模型,组成离散固体与连续的液相和气相的混合模型,对搅拌罐内固-液-气三相流动进行数值模拟,探究固体颗粒在搅拌罐内的运动状态和自由液面对其分散的影响.基于FLUEN... 利用EDEM-FLUENT联合仿真,采用VOF(Volume of Fluid)法和欧拉-拉格朗日模型,组成离散固体与连续的液相和气相的混合模型,对搅拌罐内固-液-气三相流动进行数值模拟,探究固体颗粒在搅拌罐内的运动状态和自由液面对其分散的影响.基于FLUENT软件的VOF法对气-液连续相建模,很好地捕捉气液分界面,模型更接近实际工况,直观显示自由液面的变化;基于离散元法使用软件EDEM对固体颗粒进行离散单元建模,通过两软件的联合仿真直观模拟固体颗粒在罐内的位置信息和运动情况,得到的固体颗粒分散情况与利用欧拉法得到的结果一致. 展开更多
关键词 搅拌 多相流 edem-fluent联合仿真 气液分界面
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