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COMPUTATIONAL AND EXPERI-MENTAL STUDY ON TIP LEAKAGE VORTEX OF CIRCUMFERENTIAL SKEWED BLADES 被引量:4
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作者 LI Yang OUYANG Hua DU Zhaohui 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2007年第2期82-87,共6页
In the steady operation condition, the experiments and the numerical simulations are used to investigate the tip leakage flow fields in three low pressure axial flow fans with three kinds of circumferential skewed rot... In the steady operation condition, the experiments and the numerical simulations are used to investigate the tip leakage flow fields in three low pressure axial flow fans with three kinds of circumferential skewed rotors, including the radial rotor, the forward-skewed rotor and the back- ward-skewed rotor. The three-dimensional viscous flow fields of the fans are computed. In the experiments, the two-dimensional plane particle image velocimetry (PIV) system is used to measure the flow fields in the tip region of three different pitchwise positions of each fan. The results show that the computational results agree well with the experimental data in the flow field of the tip region of each fan. The tip leakage vortex core segments based on method of the eigenmode analysis can display clearly some characteristics of the tip leakage vortex, such as the origination position of tip leak- age vortex, the development of vortex strength, and so on. Compared with the radial rotor, the other two skewed rotors can increase the stability of the tip leakage vortex and the increment in the forward-skewed rotor is more than that in the backward-skewed one. Among the tip leakage vortices of the three rotors, the velocity of the vortex in the forward-skewed rotor is th6 highest in the circumferential direction and the lowest in the axial direction. 展开更多
关键词 Low pressure axial flow fan tip leakage vortex Particle image velocimetry (PIV) Eigenmode analysis
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Modal Analysis and Vortex Trajectory Description for Tip Leakage Flow of a Transonic Turbine Cascade
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作者 YANG Yi MA Hongwei +1 位作者 ZHONG Yafei ZHANG Qingdian 《Journal of Thermal Science》 SCIE EI CAS CSCD 2023年第3期1105-1123,共19页
Tip leakage vortex(TLV),which develops from the clearance between the turbine blade and casing,has been studied for decades.Nevertheless,some associated phenomena,such as its unsteady behaviors,are still not well unde... Tip leakage vortex(TLV),which develops from the clearance between the turbine blade and casing,has been studied for decades.Nevertheless,some associated phenomena,such as its unsteady behaviors,are still not well understood.In the present work,an unsteady simulation of a transonic turbine cascade was conducted by using a validated unsteady Reynolds averaged Navier-Stokes(URANS)technique with the k-ωshear stress transport(SST)turbulence model.Typical three-dimensional vortical topology in the tip region of this transonic turbine blade was depicted based on the vortex and shock wave identification.Afterwards,quantitative descriptions of TLV transient parameters,including core position,radius,intensity,wandering motion amplitude and their statistical analysis were also provided via an ellipse fitting method.Combined with the turbulent parameters in the tip region,it is recognized that the breakdown of TLV does not occur upstream of the trailing edge,and the TLV wandering,especially the spanwise motion is a dominant unsteady feature as migrating downstream.To mathematically extract underlying flow features of tip leakage flow(TLF),two data-driven modal analysis techniques,namely proper orthogonal decomposition(POD)and dynamic mode decomposition(DMD),are presented to complement one another to reveal underlying flow feature.Observation of modes distribution allowed qualitative identification of shockwaves,vortical cluster and corresponding transient interaction.Results of POD show that the dominant unsteady structures in the tip region exhibit various morphology with moving downstream.In the front part near the leading edge,the oscillation of separation bubble and bifurcation of passage vortex paly a dominant role;while in the middle part of the tip region,the corresponding factors are the wandering of TLV and unsteady interaction between shock waves and TLF/TLV.In the vicinity of the trailing edge,the instability induced by the mixing of large-scale vortices serves as the main factor in the context of flow unsteadiness.Both the POD and DMD methods can decompose the dominant frequency of TLV evolution and its harmonic frequencies;however,the DMD method presents a superiority in segregating the high-frequency components and their corresponding unsteady structures. 展开更多
关键词 transonic turbine cascade tip leakage vortex unsteady behavior modal analysis
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半开式离心叶轮叶顶泄漏诱发流道流动堵塞特性研究 被引量:1
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作者 朱俊桦 金永鑫 +2 位作者 吕世杰 成涛 宋文武 《中国农村水利水电》 北大核心 2024年第1期79-85,93,共8页
为探究半开式离心叶轮叶顶泄漏量诱发的流道中流动堵塞作用,采用大涡模拟对流场进行精确计算,基于流动堵塞预估模型对叶顶间隙0.5、1.0和1.5 mm的3种半开式离心叶轮在不同流量工况下的流动堵塞特性进行研究,发现在叶轮流道内存在流动堵... 为探究半开式离心叶轮叶顶泄漏量诱发的流道中流动堵塞作用,采用大涡模拟对流场进行精确计算,基于流动堵塞预估模型对叶顶间隙0.5、1.0和1.5 mm的3种半开式离心叶轮在不同流量工况下的流动堵塞特性进行研究,发现在叶轮流道内存在流动堵塞峰值,且在3种叶顶间隙下均在截面2处,在经过截面2之后流动堵塞发生大幅度的减小,并在后面4个截面发生小幅度的波动;通过对不同叶顶间隙、不同流量工况下在叶轮尾缘处相对流动堵塞作用的分析,发现尾缘处的流动堵塞在不同叶顶间隙下,随流量的变化具有相同的趋势,相对流动堵塞均在1.0Q_(d)时达到最小值,在0.6Q_(d)时出现峰值;然而流动堵塞在相同流量下与叶顶间隙的关系不是单一的线性关系,且存在一个最优叶顶间隙在设计工况点达到最小的流动堵塞情况;同时通过对泄漏涡发展情况的观察,发现泄漏涡的破碎和位移会增大叶片尾缘处的流动堵塞;通过对叶片静压差的分析,发现运行流量对叶片载荷的影响不大,然而叶顶间隙的改变会大大影响叶片载荷,同时对叶片尾缘处的流动堵塞造成影响。 展开更多
关键词 半开式离心叶轮 大涡模拟 流动堵塞预估模型 叶顶间隙 叶片载荷 泄漏涡
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基于Omega涡识别理论的自适应空化流动模型 被引量:1
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作者 屈念冲 许开富 +2 位作者 项乐 林荣浩 党枭睿 《推进技术》 EI CAS CSCD 北大核心 2024年第2期73-85,共13页
液体火箭发动机涡轮泵内存在多种空化类型,其发生机理有所不同,现有数值计算方法通常采用同一套模型预测所有类型空化,导致预测精度不足。为提高复杂空化流动的计算精度,提出了自适应空化流动模型。基于先进的Omega涡识别理论和ZGB空化... 液体火箭发动机涡轮泵内存在多种空化类型,其发生机理有所不同,现有数值计算方法通常采用同一套模型预测所有类型空化,导致预测精度不足。为提高复杂空化流动的计算精度,提出了自适应空化流动模型。基于先进的Omega涡识别理论和ZGB空化模型建立了相变系数自适应调整方法,以涡轮泵内两种典型空化(附着空化和泄漏涡空化)为对象,利用翼型实验对模型进行了验证。首先对比了几种涡识别方法的差异,发现Omega方法对阈值不敏感且物理意义明确,适合作为相变系数的取值依据;分析了相变系数对附着空化和泄漏涡空化的影响规律及两种典型空化的形成机理。结果表明:自适应模型相比ZGB模型,对泄漏涡空化的预测精度在大间隙下提升了约181%,小间隙提升了约27%,对附着空化的预测更接近实验结果;附着空化是吸力面脱落涡形成的原因,间隙泄漏流场的涡带和剪切层空化是由间隙泄漏涡和分离涡共同作用形成的。 展开更多
关键词 空化模型 Omega涡识别 相变系数 附着空化 叶顶间隙泄漏涡空化
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离心叶轮失速涡结构演化与耦合特征研究
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作者 钟云红 刘正先 +1 位作者 李孝检 赵明 《推进技术》 EI CAS CSCD 北大核心 2024年第4期91-99,共9页
为深入解析离心压气机旋转失速的涡流耦合演化机理,基于Eckardt离心叶轮全通道非定常数值模拟数据,利用涡系识别法和傅里叶频谱分析等方法研究了失速工况下叶轮中关键涡流结构的空间分布特征及非定常演化规律,发现失速流场同时存在两类... 为深入解析离心压气机旋转失速的涡流耦合演化机理,基于Eckardt离心叶轮全通道非定常数值模拟数据,利用涡系识别法和傅里叶频谱分析等方法研究了失速工况下叶轮中关键涡流结构的空间分布特征及非定常演化规律,发现失速流场同时存在两类涡流结构:叶片前缘龙卷风涡和叶顶泄漏涡,两类流动结构交替演化、相互作用,形成了以63%叶轮转速周向传播的失速团,促使离心叶轮失速。具体体现为:叶顶泄漏涡形成并发展,裹挟、牵引叶片前缘分离涡从叶顶开始剥离,直至完全从叶片吸力面脱落。脱落后的分离涡沿周向运动,受到叶片阻挡产生溢流,该溢流流体在叶片压力面与吸力面横向压差的作用下演变为龙卷风涡,该龙卷风涡在周向运动过程中被叶片“截断”为两段而后向下游扩散并逐渐耗散消失。之后新的叶顶泄漏涡又逐渐兴起,形成下一个涡流演化周期。两种涡结构此消彼长、周而复始,共同构成了失速演化特征。 展开更多
关键词 离心叶轮 旋转失速 龙卷风涡结构 叶顶泄漏涡 耦合演化
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泵喷推进器梢涡空化计算方法
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作者 杨万里 叶金铭 《舰船科学技术》 北大核心 2024年第14期15-20,共6页
在泵喷推进器梢涡流动数值计算中,转子梢部涡系对转子梢部附近网格质量要求极高,为了准确计算转子梢涡空化,本文首先完成梢涡空化观测试验,并根据空化试验条件布置数值计算,分析常用多通道周期性结构网格在计算准确性上的不足,进而在其... 在泵喷推进器梢涡流动数值计算中,转子梢部涡系对转子梢部附近网格质量要求极高,为了准确计算转子梢涡空化,本文首先完成梢涡空化观测试验,并根据空化试验条件布置数值计算,分析常用多通道周期性结构网格在计算准确性上的不足,进而在其基础上,结合梢涡流动特点,提出一种在转子域中进行局部网格重构的方法。通过数值计算结果与空泡观测试验结果对比显示,本文所提出的计算方法既能够满足梢涡空化计算对局部网格质量的超高要求,又能以较少的网格量准确预测梢涡空化。 展开更多
关键词 泵喷推进器 空化观测试验 梢泄涡空化 大涡模拟
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某氦气涡轮弯叶片设计方法研究
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作者 季杰 苏凯 刘慎 《燃气轮机技术》 2024年第1期16-20,共5页
氦气涡轮高负荷、低展弦比的特点,导致端区损失占总损失的比例较高,尤其是动叶端区损失径向发展尺度较大,甚至会堵塞主流流动。为优化某氦气涡轮气动性能和主流流动,采用数值模拟方法对动叶进行弯曲设计研究,分别对比了正弯、反弯、反J... 氦气涡轮高负荷、低展弦比的特点,导致端区损失占总损失的比例较高,尤其是动叶端区损失径向发展尺度较大,甚至会堵塞主流流动。为优化某氦气涡轮气动性能和主流流动,采用数值模拟方法对动叶进行弯曲设计研究,分别对比了正弯、反弯、反J型设计方法,研究结果表明:此氦气涡轮采用反J型设计效果最佳,反弯其次,正弯最差。50%弯高、20°弯角的反J型设计为最佳设计点,不仅提高了涡轮级效率,优化了主流流动,增强了做功能力,而且有着更好的变工况特性,尤其在流量为1.5 kg/s的低工况点,效率较原设计提高2.3个百分点。 展开更多
关键词 氦气涡轮 弯叶片 通道涡 叶顶泄漏涡
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悬臂方向对TLV空化抑制效果的影响及其机理 被引量:1
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作者 程怀玉 季斌 +1 位作者 龙新平 槐文信 《工程力学》 EI CSCD 北大核心 2022年第5期224-232,共9页
该文综合利用实验及数值模拟方法细致研究了悬臂式沟槽叶顶间隙泄漏涡(tip-leakage vortex, TLV)空化抑制器的悬臂凸出方向对抑制TLV空化效果的影响,并对其原因进行了深入讨论。研究表明:相比于原始水翼叶顶处的TLV空化,无论悬臂凸出方... 该文综合利用实验及数值模拟方法细致研究了悬臂式沟槽叶顶间隙泄漏涡(tip-leakage vortex, TLV)空化抑制器的悬臂凸出方向对抑制TLV空化效果的影响,并对其原因进行了深入讨论。研究表明:相比于原始水翼叶顶处的TLV空化,无论悬臂凸出方向指向水翼的吸力面还是压力面,悬臂式沟槽TLV空化抑制器在各个间隙大小下均能产生显著的抑制效果。相对而言,当所采用的悬臂凸出方向为压力面时,该装置对TLV空化的抑制效果更为显著,且可更有效地抑制TLV空化体积脉动。测量结果表明:悬臂凸出方向对水翼升、阻力系数影响均很小。数值结果则进一步表明:当采用悬臂凸出方向为指向压力面时,悬臂式沟槽TLV空化抑制器能更好地抑制流体从压力面流向吸力面,干扰TLV的生长,进而可以更加有效地抑制TLV空化的发展。 展开更多
关键词 空化 水翼 叶顶间隙泄漏涡 流动控制 泄漏流
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Effect of blade tip geometry on tip leakage vortex dynamics and cavitation pattern in axial-flow pump 被引量:10
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作者 SHI Lei ZHANG DeSheng +2 位作者 ZHAO RuiJie SHI WeiDong JIN YongXin 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2017年第10期1480-1493,共14页
A series of blade tip geometries, including original plain tip, rounded tip on the pressure side and diverging tip towards the suction side, were adopted to investigate the effect of blade geometry on tip leakage vort... A series of blade tip geometries, including original plain tip, rounded tip on the pressure side and diverging tip towards the suction side, were adopted to investigate the effect of blade geometry on tip leakage vortex dynamics and cavitation pattern in an axial-flow pump. On the basis of the computation, it clearly shows the flow structure in the clearance for different tip configurations by the detailed data of axial velocity and turbulent kinetic energy. The in-plain trajectory, in aspects of the angle between the blade suction side and vortex core and the initial point of tip leakage vortex, was presented using the maximum swirling strength method. The most striking feature is that the inception location of tip leakage vortex is delayed for chamfered tip due to the change of blade loading on suction side. Some significant non-dimensional parameters, such as pressure, swirling strength and turbulent kinetic energy, were used to depict the characteristics of tip vortex core. By the distribution of circumferential vorticity which dominates the vortical flows near the tip region, it is observed that the endwall detachment as the leakage flow meets the mainstream varies considerably for tested cases. The present study also indicates that the shear layer feeds the turbulence into tip leakage vortex core, but the way is different. For the chamfered tip, high turbulence level in vortex core is mainly from the tip clearance where large turbulent kinetic energy emerges, while it is almost from a layer extending from the suction side corner for rounded tip. At last, the visualized observations show that tip clearance cavitation is eliminated dramatically for rounded tip but more intensive for chamfered tip, which can be associated with the vortex structure in the clearance. 展开更多
关键词 blade tip geometry tip leakage vortex CAVITATION numerical simulation high-speed photography
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Relationship between the Flow Blockage of Tip Leakage Vortex and its Evolutionary Procedures inside the Rotor Passage of a Subsonic Axial Compressor 被引量:8
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作者 DU Hui YU Xianjun +1 位作者 ZHANG Zhibo LIU Baojie 《Journal of Thermal Science》 SCIE EI CAS CSCD 2013年第6期522-531,共10页
The near casing flow fields inside the rotor passage of a 1.5 stage axial compressor with different blade-loading levels and tip gap sizes were measured by using stereoscopic particle image velocimetry(SPIV). Based on... The near casing flow fields inside the rotor passage of a 1.5 stage axial compressor with different blade-loading levels and tip gap sizes were measured by using stereoscopic particle image velocimetry(SPIV). Based on a carefully defined blockage extracting method, the variations of blockage parameter inside the blade passage were analyzed. It was found that the variation of blockage parameter appeared as a non-monotonic behavior inside the blade passage in most cases. This non-monotonic behavior became much more remarkable as the blade loading increases or mass flow rate decreases.The variations of the blockage parameter inside the blade passage had close relation to the evolutionary procedures of the tip leakage vortex(TLV). The destabilization of the TLV caused a rapid increasing of the blockage parameter. After the TLV lost the features of a concentrated streamwise vortex,the blockage parameter usually got a peak value. And then, because of the intense turbulent mixing between the TLV low momentum flow and its surrounding flows, the flow deficit inside the TLV recovered. 展开更多
关键词 tip leakage vortex flow blockage unsteady flow axial compressor TURBOMACHINERY
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EXPERIMENTAL INVESTIGATION OF TIP CLEARANCE FLOW FOR AN AXIAL FLOW FAN ROTOR 被引量:5
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作者 GUO Qiang ZHU Xiaocheng DU Zhaohui 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2006年第3期376-382,共7页
The flow field in the tip region of an axial ventilation fan is investigated with a particle image velocimeter (PIV) system at the design condition. Flow fields with three different tip clearances are surveyed on th... The flow field in the tip region of an axial ventilation fan is investigated with a particle image velocimeter (PIV) system at the design condition. Flow fields with three different tip clearances are surveyed on three different circumferential planes, respectively. The phase-locked average method is used to investigate the generation and the development of a tip leakage vortex. The result from PIV system is compared with that from a particle dynamics anemometer(PDA) system. Both data are in good agreement and the structure of the tip leakage vortex for the rotor is illustrated. The characteristic of a leakage vortex is described in both velocity vectors and vortical contours. The unsteadiness of the leakage vortex and the position of the vortex are surveyed in detail, which interprets the discrepancy between the numerical simulation and PDA experimental results to a certain extent. The center loci of tip leakage vortex at different times and the mean center loci of the leakage vortex are displayed particularly. Finally, the trajectories of the tip leakage vortex by the experimental measurement are compared with predictions from the existing models for high speed and high-pressure compressors and turbines when appropriately interpreted. A good agreement is obtained. 展开更多
关键词 Axial ventilation fan tip leakage vortex Particle image velocimetry (PIV) vortex center trajectory
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Flow Fields with Tip Leakage Vortex in a Small Axial Cooling Fan 被引量:2
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作者 Norimasa Shiomi Ying zi Jin +2 位作者 Kenji Kaneko Yoichi Kinoue T. Setoguchi 《Journal of Thermal Science》 SCIE EI CAS CSCD 2008年第2期156-162,共7页
In order to improve the fan characteristics, especially efficiency and noise level of a small axial cooling fan with a large tip clearance, the internal flow measurements with tip leakage vortex were carried out at fa... In order to improve the fan characteristics, especially efficiency and noise level of a small axial cooling fan with a large tip clearance, the internal flow measurements with tip leakage vortex were carried out at fan rotor outlet us- ing an I-type hot-wire probe. The probe was set toward two directions, parallel and normal to the meridional plane of test fan, and the two directional velocity components were measured. From the result of fan test it was found that the test fan didn't have the unstable characteristic with a positive gradient on its pressure - flow-rate curve. From the results of velocity measurement it was observed that the tip leakage vortex exited at maximum efficiency flow-rate and large flow-rate conditions. However, at small flow-rate conditions the tip leakage vortex was not observed and it was found that the flow field were enlarged toward radial outwards 展开更多
关键词 Axial fan cooling fan internal flow and tip leakage vortex
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Numerical Simulation of Tip Leakage Vortex Effect on Hydrogen-Combustion Flow around 3D Turbine Blade 被引量:1
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作者 Naoto Miyama Kazuaki Inaba Makoto Yamamoto 《Journal of Thermal Science》 SCIE EI CAS CSCD 2008年第2期186-192,共7页
In these years, a lot of environmental problems such as air pollution and exhaustion of fossil fuels have been discussed intensively. In our laboratory, a hydrogen-fueled propulsion system has been researched as an al... In these years, a lot of environmental problems such as air pollution and exhaustion of fossil fuels have been discussed intensively. In our laboratory, a hydrogen-fueled propulsion system has been researched as an alternative to conventional systems. A hydrogen-fueled propulsion system is expected to have higher power, lighter weight and lower emissions. However, for the practical use, there exist many problems that must be overcome. Considering these backgrounds, jet engines with hydrogen-fueled combustion within a turbine blade passage have been studied. Although some studies have been made on injecting and burning hydrogen fuel from a stator surface, little is known about the interaction between a tip leakage vortex near the suction side of a rotor tip and hydrogen-fueled combustion. The purpose of this study is to clarify the influence of the tip leakage vortex on the characteristics of the 3-dimensional flow field with hydrogen-fueled combustion within a turbine blade passage. Reynolds-averaged compressible Navier-Stokes equations are solved with incorporating a k-ε turbulence and a reduced chemical mechanism models. Using the computational results, the 3-dimensional turbulent flow field with chemical reactions is numerically visualized, and the three-dimensional turbulent flow fields with hydrogen combustion and the structure of the tip leakage vortex are investigated. 展开更多
关键词 numerical simulation CFD gas turbine hydrogen combustion tip leakage vortex
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Large eddy simulation of tip leakage cavitating flow focusing on cavitation-vortex interaction with Cartesian cut-cell mesh method 被引量:2
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作者 白晓蕊 程怀玉 +1 位作者 季斌 龙新平 《Journal of Hydrodynamics》 SCIE EI CSCD 2018年第4期750-753,共4页
In the present paper, flow configurations of cavitating flow around a straight NACA0009 foil with a gap between the foil tip and sidewall are investigated numerically by large eddy simulation(LES) coupled with Zwart... In the present paper, flow configurations of cavitating flow around a straight NACA0009 foil with a gap between the foil tip and sidewall are investigated numerically by large eddy simulation(LES) coupled with Zwart-Gerber-Belamri(ZGB) cavitation model. A Cartesian cut-cell method is used for mesh generation, which is of good orthogonality and high quality. A good agreement is obtained between simulation and experiment. Two influencing factors on vorticity distributions, the interaction between different vortices and the occurrence of cavitation, are discussed in detail based on the numerical results. A series of ?-shaped loops are observed during the development of the induced vortex, which is a result of the instability of vortex pair. This finding may provide a new viewpoint to control the evolution of tip-leakage vortex(TLV) cavitation. Moreover, it is found that the dilatation term plays a much more important role in the evolution of TLV cavitation compared with that in sheet cavitation. 展开更多
关键词 CAVITATION tip-leakage vortex large eddy simulation (LES) Cartesian cut-cell mesh vortex dynamics
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Performance Improvement of a Centrifugal Compressor for the Fuel Cell Vehicle by Tip Leakage Vortex Control
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作者 CHEN Haoxiang ZHUGE Weilin +2 位作者 ZHANG Yangjun MA Xuelong TAO Lin 《Journal of Thermal Science》 SCIE EI CAS CSCD 2021年第6期2099-2111,共13页
Heightened interests have been laid at the preliminary design and optimization of the centrifugal compressor for the fuel cell vehicle.The centrifugal compressor for fuel cell vehicle is driven by a high-speed motor;h... Heightened interests have been laid at the preliminary design and optimization of the centrifugal compressor for the fuel cell vehicle.The centrifugal compressor for fuel cell vehicle is driven by a high-speed motor;however,the limit of the motor speed makes the flow passage of the impeller long and narrow,which leads to a serious tip leakage loss.Serious tip leakage loss deteriorates the compressor performance.In this paper,3-D numerical simulations were carried out with the aim of investigating the tip leakage loss in a prototype centrifugal compressor for a 100 kW fuel cell stack.The results revealed that the mixing loss caused by the interaction between the tip leakage vortex and the downstream tip leakage flow contributed to the major part of the tip leakage loss.The path of the tip leakage vortex almost followed the streamwise direction,while the downstream tip leakage flow exhibited strong circumferential momentum,which referred to the fact that they were nearly orthogonal.Therefore,a flow control approach,which was realized by enhancing the blade loading around the leading edge of blade tips in this paper,was proposed to decrease the interaction angle between the tip leakage vortex and the downstream tip leakage flow and then mitigate mixing loss by changing the flow direction of the tip leakage vortex.The results showed a smaller interaction angle was achieved in the optimized impeller compared with the baseline one.Meanwhile,the efficiency was also improved by 1.30%at design condition and the maximum efficiency improvement could be up to 10%at large mass flow condition of 92000 r/min.Being manufactured and tested,the optimized compressor was proved to achieve an isentropic efficiency of 75.84%at design condition. 展开更多
关键词 centrifugal compressor fuel cell vehicle efficiency improvement tip leakage vortex mixing loss
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Effect of Tip-Blade Cutting on the Performance of Large Scale Axial Fan
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作者 尹超 胡骏 +1 位作者 严伟 张晨凯 《Transactions of Nanjing University of Aeronautics and Astronautics》 EI CSCD 2015年第6期623-630,共8页
The effect of tip-blade cutting on the performance of a large scale axial fan was investigated using computational fluid dynamics(CFD)methods.Experiments verified the numerical simulations.The original fan was compare... The effect of tip-blade cutting on the performance of a large scale axial fan was investigated using computational fluid dynamics(CFD)methods.Experiments verified the numerical simulations.The original fan was compared with the one with tip-cutting in terms of dimensionless characteristic and aerodynamic performance in tip region under the conditions of the maximum efficiency point and near-stall point.The results showed that double leakage flow occurred in tip clearance at maximum efficiency point and spillage of leakage flow from leading edge occurred in tip-blade region at near-stall point for the both two fans;and that tip-cutting with 6% of blade height could reduce the intensity of tip-leakage vortex and increase flow capacity in tip blade region,and hold the stall margin almost the same as the original fan.The maximum efficiency of the fan with tip-cutting was improved by1%,and the ability of total pressure rising was obviously greater than the original fan. 展开更多
关键词 large axial fan tip-blade cutting numerical simulation tip-leakage vortex flow capacity
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Numerical Simulation of Active Control on Tip Leakage Flow in Axial Turbine 被引量:6
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作者 李伟 乔渭阳 +1 位作者 许开富 罗华铃 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2009年第2期129-137,共9页
In an effort to reduce the blade tip clearance leakage in turbine designs, this article aims to numerically investigate the effects of active jet-flow injected from the blade tip platform upon the blade tip clearance ... In an effort to reduce the blade tip clearance leakage in turbine designs, this article aims to numerically investigate the effects of active jet-flow injected from the blade tip platform upon the blade tip clearance flow. A CFD code integrated with dense-correction-based 3D Reynolds-averaged Navier-Stokes equations together with the well-proven Reynolds stress model (RSM) is adopted. The variation of specific heat is taken into consideration. The effects of jet-flow on the tip clearance flow are simulated ... 展开更多
关键词 tip clearance height INJECTION tip leakage vortex active control numerical simulation
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叶顶喷气对跨音速轴流压气机稳定裕度影响的数值研究 被引量:1
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作者 谢蓉 于常贺 +2 位作者 于文 杨金广 全福祥 《风机技术》 2023年第3期1-7,共7页
为了研究叶顶喷气机匣处理方式对轴流压气机稳定裕度的影响,针对Rotor37开展了叶顶喷气的定常数值研究。相关文献指出,喷嘴出口气流角、喷嘴轴向位置、喷嘴覆盖比率及喷嘴进口总压4个参数对稳定裕度的影响最为显著。因此,本文着重对这... 为了研究叶顶喷气机匣处理方式对轴流压气机稳定裕度的影响,针对Rotor37开展了叶顶喷气的定常数值研究。相关文献指出,喷嘴出口气流角、喷嘴轴向位置、喷嘴覆盖比率及喷嘴进口总压4个参数对稳定裕度的影响最为显著。因此,本文着重对这四个参数构建响应面,同时结合主流的单通道计算模型,详细分析了它们之间的交互关系及相应的参数变化对压气机稳定性的影响,并拟合出回归方程。结果显示,在最佳参数设置下,单通道计算模型中压气机的稳定裕度最大可以增加8%左右。在此基础上,又对四通道压气机计算模型进行了气动计算与分析,发现叶顶喷气射流会按照与压气机旋转相反的方向作用于相邻的叶片流道,抑制该流道泄漏涡的产生,进而改善该流道内的流动。研究表明,采用叶顶喷气方法可以降低叶片前缘载荷,改变压气机的失速类型,从而增加压气机的稳定裕度。 展开更多
关键词 轴流压气机 稳定裕度 叶顶泄漏涡 叶顶喷气 响应面
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轴向间距对FBCDZ-10-No20型对旋风机失速过程的影响
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作者 陈庆光 徐延辉 +1 位作者 郭武 张祯江 《煤炭科学技术》 EI CAS CSCD 北大核心 2023年第6期229-236,共8页
对旋风机在小流量工况运行时容易出现失速甚至喘振等不稳定现象,为研究轴向间距对对旋风机失速起始及其发展与传播过程的影响,采用Shear Stress Transport(剪切应力输运)k-ω湍流模型,对一台FBCDZ-10-No20型对旋风机全通道内的非定常流... 对旋风机在小流量工况运行时容易出现失速甚至喘振等不稳定现象,为研究轴向间距对对旋风机失速起始及其发展与传播过程的影响,采用Shear Stress Transport(剪切应力输运)k-ω湍流模型,对一台FBCDZ-10-No20型对旋风机全通道内的非定常流动进行数值模拟,探究了2种轴向间距下对旋风机的失速发展过程。结果表明:轴向间距对对旋风机失速起始及发展过程具有显著影响。在失速起始阶段,当对旋风机两级叶轮的轴向间距为170 mm时,失速起始扰动首先发生于后级叶根吸力面的尾缘区域,之后扰动沿径向从叶根向叶顶发展,沿周向向某个叶片通道聚集,导致该叶片通道堵塞,从而引起对旋风机失速;当轴向间距为70 mm时,失速起始扰动先后发生于前、后级的叶顶区域,之后扰动逐渐增强,最终发生失速。在完全失速阶段,轴向间距对于失速涡团沿周向、轴向及径向的传播都具有显著影响。轴向间距为170 mm时对旋风机进入单涡团全叶高失速,失速涡团沿轴向传播范围限于后级叶轮区域,沿周向以33.3%的后级转速旋转;轴向间距为70 mm时对旋风机进入多涡团部分叶高失速,失速涡团先后在两级叶轮叶顶区域产生,沿轴向向上、下游传播,沿径向分散于各叶片通道的70%叶高以上区域。由于两级叶轮轴向间距的改变,引起了对旋风机的失速起始扰动类型发生了由“局部喘振型”向“突尖型”的转变。 展开更多
关键词 对旋风机 轴向间距 失速起始 叶顶泄漏流 径向涡流
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叶顶开槽-小翼结构对轴流风机性能和噪声影响的数值研究 被引量:1
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作者 杨天康 叶学民 +1 位作者 刘洋 李春曦 《动力工程学报》 CAS CSCD 北大核心 2023年第9期1123-1131,共9页
以某两级动叶可调轴流风机为对象,提出了在叶顶加装吸力面小翼并开设斜槽的新型叶顶结构,采用Fluent模拟了改型前后风机的气动性能,并引入大涡模拟得到了风机噪声和涡结构的变化,进而分析了不同叶顶结构对风机性能、内流特征、噪声及叶... 以某两级动叶可调轴流风机为对象,提出了在叶顶加装吸力面小翼并开设斜槽的新型叶顶结构,采用Fluent模拟了改型前后风机的气动性能,并引入大涡模拟得到了风机噪声和涡结构的变化,进而分析了不同叶顶结构对风机性能、内流特征、噪声及叶顶涡结构的影响。结果表明:在吸力面加装小翼后风机全压和效率均有提升,在小翼上开设顺流向斜槽后性能更优;泄漏涡和叶顶间隙为主要噪声源,吸力面小翼可有效降低风机噪声,在小翼开槽后总声压级增大;综合考虑风机性能和噪声变化,方案2为最佳改型方案,该方案下叶顶泄漏涡涡量减小,风机噪声较低,涡结构分布较为离散,大尺度涡发生破碎,涡核位置远离主流道,因此叶顶损失较小。 展开更多
关键词 泄漏涡 叶顶改型 气动性能 噪声 涡结构
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