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掠效应对高负荷跨音转子性能的影响 被引量:3
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作者 崔伟伟 项效镕 +1 位作者 杜建一 徐建中 《工程热物理学报》 EI CAS CSCD 北大核心 2012年第5期753-756,共4页
本文对一高负荷跨音转子采用掠技术进行了改型设计,并通过数值模拟对原型以及前、后掠转子分别进行了流场分析。结果发现掠叶片效率和压比与原型叶片相差不大,但是前掠叶型的失速裕度得到了大幅提高。同时前掠叶型的堵塞流量比原始叶型... 本文对一高负荷跨音转子采用掠技术进行了改型设计,并通过数值模拟对原型以及前、后掠转子分别进行了流场分析。结果发现掠叶片效率和压比与原型叶片相差不大,但是前掠叶型的失速裕度得到了大幅提高。同时前掠叶型的堵塞流量比原始叶型增大,而后掠叶型却明显减小。叶片采用掠之后一方面前缘位置变化所引起的径向压力输运改变了入口来流条件,另一方面气动掠还直接影响到了叶片吸力面附面层内低能流体的径向输运以及在叶尖区域的集聚,从而使流场内部的激波强度及相对位置明显变化,并最终导致叶片不同叶高载荷分布规律的改变。 展开更多
关键词 跨音转子 失速裕度 低能流体
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某跨音转子设计中叶型中线分布特征研究 被引量:3
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作者 崔伟伟 赵庆军 +1 位作者 杜建一 徐建中 《工程热物理学报》 EI CAS CSCD 北大核心 2011年第11期1838-1842,共5页
本文通过调整叶型中线分布设计了几种不同的跨音转子,并采用数值模拟的方法研究了其对跨音转子流场性能的影响。研究结果表明,高来流马赫数下跨音转子流场对叶型中线分布比较敏感,中线分布应尽可能保证负荷的平稳加载和预期的气流折转;... 本文通过调整叶型中线分布设计了几种不同的跨音转子,并采用数值模拟的方法研究了其对跨音转子流场性能的影响。研究结果表明,高来流马赫数下跨音转子流场对叶型中线分布比较敏感,中线分布应尽可能保证负荷的平稳加载和预期的气流折转;跨音转子叶根区域仅在前缘附近存在局部超音区,较大的叶型折转对流场影响不大;其叶尖区域主要依靠激波增压且易诱发边界层分离,在设计中该区域的叶型折转应尽可能小,且应将叶型的折转主要集中在通道激波后的扩张段;跨音转子设计中,其最大厚度点之后的中线折转比重采用由叶根沿展向逐渐增大的分布规律可有效地降低流动分离损失;通道激波后出现的局部加速区有助于压制激波诱导的边界层分离。 展开更多
关键词 跨音转子 叶型中线 叶片安装角 极限流线
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跨音风扇转子弯掠结合的数值优化设计 被引量:2
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作者 王祥锋 韩万金 《热能动力工程》 EI CAS CSCD 北大核心 2008年第6期586-590,共5页
为了研究弯掠结合对风扇气动性能的影响,采用基于雷诺平均N-S方程的全三维流场模拟程序和基于遗传算法的数值优化程序,对跨音风扇转子NASA Rotor67进行了优化设计。首先对所开发的三维N-S方程求解程序进行了实验验证,完善了遗传算法和... 为了研究弯掠结合对风扇气动性能的影响,采用基于雷诺平均N-S方程的全三维流场模拟程序和基于遗传算法的数值优化程序,对跨音风扇转子NASA Rotor67进行了优化设计。首先对所开发的三维N-S方程求解程序进行了实验验证,完善了遗传算法和响应面方法相结合的具有全局寻优能力的优化程序,以总压比最大为设计目标,应用该优化方法对NASA Rotor67进行弯掠两个自由度的气动优化设计。结果表明,弯掠联合的采用可以有效地改善流场内的流动状况,在质量流量和绝热效率严格满足约束条件的情况下,总压比提高了1个百分点;该优化方法是可行的。 展开更多
关键词 风扇转子 优化设计 遗传算法 响应面
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跨音压气机转子多目标气动优化设计 被引量:4
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作者 王祥锋 韩万金 《吉林大学学报(工学版)》 EI CAS CSCD 北大核心 2010年第1期299-304,共6页
采用基于雷诺平均N-S方程的全三维流场模拟程序和基于多目标遗传算法的数值优化程序,对跨音压气机转子NASA Rotor37进行了优化设计。对所开发的三维N-S方程求解程序进行了实验验证,完善了多目标遗传算法与响应面方法相结合的具有全局寻... 采用基于雷诺平均N-S方程的全三维流场模拟程序和基于多目标遗传算法的数值优化程序,对跨音压气机转子NASA Rotor37进行了优化设计。对所开发的三维N-S方程求解程序进行了实验验证,完善了多目标遗传算法与响应面方法相结合的具有全局寻优能力的优化程序,以总压比和绝热效率最大为设计目标,应用该优化方法对NASA Rotor37进行考虑中弧线和厚度分布的多目标气动优化设计。结果表明:在满足流量约束的条件下,绝热效率提高了0.7%,总压比提高了0.66%,并且优化设计时间大幅减小。 展开更多
关键词 航空 航天推进系统 压气机转子 多目标优化设计 中弧线 厚度分布 响应面
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跨音速压气机轮毂型线优化设计 被引量:5
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作者 张恒铭 黄秀全 《航空计算技术》 2013年第1期25-27,31,共4页
针对跨音速转子Rotor37,采用Numeca软件中的Design3D模块对其叶片区域的轮毂型线进行了优化设计计算。模块结合了CFD、人工神经网络和遗传算法,优化效果显著。轮毂型线优化后的Rotor37相比原始设计,在整个设计转速范围内的等熵效率得到... 针对跨音速转子Rotor37,采用Numeca软件中的Design3D模块对其叶片区域的轮毂型线进行了优化设计计算。模块结合了CFD、人工神经网络和遗传算法,优化效果显著。轮毂型线优化后的Rotor37相比原始设计,在整个设计转速范围内的等熵效率得到了明显提高,而裕度与优化前相比略微提高。通过流场分析,其性能的改善主要源于叶片根部区域的激波前移和尾缘处附面层分离的减弱。 展开更多
关键词 气动优化 轮毂型线 CFD 激波 跨音转子
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间断Galerkin方法求解跨音压气机转子流场 被引量:1
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作者 奉凡 郝增荣 顾春伟 《工程热物理学报》 EI CAS CSCD 北大核心 2012年第1期39-42,共4页
本文采用间断Galerkin方法求解雷诺平均N-S方程和SA湍流模型方程,采用Roe格式计算无黏通量,混合格式求解黏性通量中的梯度。为防止跨音速流场计算中的数值振荡,采用了TVD限制器和正性修正。计算了跨音速转子NASA Rotor37在设计转速下的... 本文采用间断Galerkin方法求解雷诺平均N-S方程和SA湍流模型方程,采用Roe格式计算无黏通量,混合格式求解黏性通量中的梯度。为防止跨音速流场计算中的数值振荡,采用了TVD限制器和正性修正。计算了跨音速转子NASA Rotor37在设计转速下的变工况流场,得到了与实验吻合良好的结果,表明DG方法在叶轮机械内部流动计算中具有广阔的应用前景。 展开更多
关键词 间断GALERKIN方法 湍流模拟 SA模型 跨音转子
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Wet Compression Performance of a Transonic Compressor Rotor at its Near Stall Point 被引量:3
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作者 杨怀丰 郑群 +2 位作者 罗铭聪 孙兰昕 Rakesh Bhargava 《Journal of Marine Science and Application》 2011年第1期49-62,共14页
In order to study the effects of wet compression on a transonic compressor,a full 3-D steady numerical simulation was carried out under varying conditions.Different injected water flow rates and droplet diameters were... In order to study the effects of wet compression on a transonic compressor,a full 3-D steady numerical simulation was carried out under varying conditions.Different injected water flow rates and droplet diameters were considered.The effect of wet compression on the shock,separated flow,pressure ratio,and efficiency was investigated.Additionally,the effect of wet compression on the tip clearance when the compressor runs in the near-stall and stall situations was emphasized.Analysis of the results shows that the range of stable operation is extended,and that the pressure ratio and inlet air flow rate are also increased at the near-stall point.In addition,it seems that there is an optimum size of the droplet diameter. 展开更多
关键词 wet compression two-phase flow stall boundary transonic compressor
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Blade Parameterization and Aerodynamic Design Optimization for a 3D Transonic Compressor Rotor 被引量:4
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作者 Naixing Chen Hongwu Zhang Yanji Xu Weiguang Huang Institute of Engineering Thermophysics,Chinese Academy of Sciences,P.O.Box 2706,Beijing 100080,CHINA.E-mail:nxc@mail.etp.ac.cn Fax:+8610-62573335 《Journal of Thermal Science》 SCIE EI CAS CSCD 2007年第2期105-114,共10页
The present paper describes an optimization methodology for aerodynamic design of turbomachinery combined with a rapid 3D blade and grid generator (RAPID3DGRID), a N.S. solver, a blade parameterization method (BPM... The present paper describes an optimization methodology for aerodynamic design of turbomachinery combined with a rapid 3D blade and grid generator (RAPID3DGRID), a N.S. solver, a blade parameterization method (BPM), a gradient-based parameterization-analyzing method (GPAM), a response surface method (RSM) with zooming algorithm and a simple gradient method. By the use of blade parameterization method a transonic com- pressor rotor can be expressed by a set of polynomials, and then it enables us to transform coordinate-expressed blade data to parameter-expressed and then to reduce the number of parameters. With changing any one of the parameters and by applying grid generator and N.S. solver, we can obtain several groups of samples. Here only ten parameters were considered to search an optimized compressor rotor. As a result of optimization, the adiabatic efficiency was increased by 1.73%. 展开更多
关键词 Aerodynamic optimization blade optimization compressor bladings
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An Improvement on the Efficiency of a Single Rotor Transonic Compressor by Reducing the Shock Wave Strength on the Blade Suction Surfaces 被引量:4
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作者 S. J. Geng N. X. Chen H. W. Zhang W. G. Huang 《Journal of Thermal Science》 SCIE EI CAS CSCD 2012年第2期127-135,共9页
It is well known that increasing the rotational velocity is an effective way to increase the total pressure ratio. With increasing flow velocity especially under the condition of transonic flow in the supersonic regio... It is well known that increasing the rotational velocity is an effective way to increase the total pressure ratio. With increasing flow velocity especially under the condition of transonic flow in the supersonic region, where exist strong shock waves, the shock wave loss becomes main and important. Simultaneously, there occurs boundary layer separation due to the shock wave / boundary layer interaction. In the present paper the transonic compressor blades were studied and analyzed to find a proper and simple way to reduce the shock wave loss by optimizing the suction surface configuration or controlling the gradient of isentropic Mach number on the suction surface. A Navier-Stokes solver combined with a modified design algorithm was developed and used. The NASA single rotor for transonic flow compressor was served as a numerical example to show the effectiveness of this method. Two cases for both original and modified rotors were analyzed and compared. 展开更多
关键词 Transonic compressor shock wave loss efficiency improvement blade optimization
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Numerical and Performance Analysis of one row Transonic Rotor with Sweep and Lean angle 被引量:4
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作者 Seyed Reza Razavi Masoud Boroom 《Journal of Thermal Science》 SCIE EI CAS CSCD 2014年第5期438-445,共8页
In this study,aerodynamic behaviors of swept and leaned blades were investigated.Axial and tangential blade curvatures impacts on compressor's operating parameters were analyzed separately.A commercial CFD program... In this study,aerodynamic behaviors of swept and leaned blades were investigated.Axial and tangential blade curvatures impacts on compressor's operating parameters were analyzed separately.A commercial CFD program which solves the Reynolds-averaged Navier-Stokes equations was used to find out the mentioned impact and the complicated flow field of transonic compressor-rotors.The CFD method that was used for solving flow field's equation was validated by experimental data of NASA Rotor 67.The results showed that the compressor with curved rotors had higher efficiency,rotor pressure ratio and stable operating range compared to the compressor with un-curved rotors.Using curved rotors mostly had higher impact on the overall stable operating range compared to the other operating parameters.Operating range involves choking point and stall point that were changed separately by using of bended blade.For finding the detailed impact of sweep and lean angle on transonic blades,various forms of lean and sweep angles were exerted to basic rotor.It was found that sweep angles increased overall operating range up to 30%,efficiency up to 2%and pressure ratio up to 1%.Leaning the blades increased the safe operating range,the pressure ratio and efficiency by 14%,4%and 2%respectively. 展开更多
关键词 compressor performance efficiency stable operational range surge improvement swept Rotor leaned rotor
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Numerical Study on the Influence Mechanism of Inlet Distortion on the Stall Margin in a Transonic Axial Rotor 被引量:3
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作者 Scott C.Morris 《Journal of Thermal Science》 SCIE EI CAS CSCD 2012年第3期209-214,共6页
A numerical study is conducted to investigate the influence of inlet flow condition on tip leakage flow (TLF) and stall margin in a transonic axial rotor.A commercial software package FLUENT,is used in the simulation.... A numerical study is conducted to investigate the influence of inlet flow condition on tip leakage flow (TLF) and stall margin in a transonic axial rotor.A commercial software package FLUENT,is used in the simulation.The rotor investigated in this paper is ND_TAC rotor,which is the rotor of one-stage transonic compressor in the University of Notre Dame.Three varied inlet flow conditions are simulated.The inlet boundary condition with hub distortion provides higher axial velocity for the incoming flow near tip region than that for the clean inflow,while the incoming main flow possesses lower axial velocity near the tip region at tip distortion inlet boundary condition.Among the total pressure ratio curves for the three inlet flow conditions,it is found that the hub dis-torted inlet boundary condition improves the stall margin,while the tip distorted inlet boundary condition dete-riorates compressor stability.The axial location of interface between tip leakage flow (TLF) and incoming main flow (MF) in the tip gap and the axial momentum ratio of TLF to MF are further examined.It is demonstrated that the axial momentum balance is the mechanism for interface movement.The hub distorted inflow could de-crease the axial momentum ratio,suppress the movement of the interface between TLF and MF towards blade leading edge plane and thus enhance compressor stability. 展开更多
关键词 Inlet distortion tip leakage flow stall margin axial momentum balance
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A Study of the Unsteady Tip Flow Field of a Transonic Compressor 被引量:3
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作者 JingXuan Zhang Chengqin Li +1 位作者 Hongwu Zhang Weiguang Huang 《Journal of Thermal Science》 SCIE EI CAS CSCD 2011年第1期1-5,共5页
An experimental investigation on the unsteady tip flow field of a transonic compressor rotor has been performed.The casing-mounted high frequency response pressure transducers were arranged along both the blade chord ... An experimental investigation on the unsteady tip flow field of a transonic compressor rotor has been performed.The casing-mounted high frequency response pressure transducers were arranged along both the blade chord and the blade pitch.The chord-wise ones were used to indicate both the ensemble averaged and time varying flow structure of the tip region of the rotor at different operating points under 95% design speed and 60% design speed.The pitch-wise circumferential transducers were mainly used to analyze the unsteadiness frequency of the tip leakage flow in the rotor frame at the near stall condition.The contours of casing wall pressure show that there were two clear low pressure regions in blade passages,one along the chord direction,caused by the leakage flow and the other along the tangential direction,maybe caused by the forward swept leading edge.Both low pressure regions were originated from the leading edge and formed a scissor-like flow pattern.At 95% design speed condition,the shock wave interacted with the low pressure region and made the flow field unsteady.With the mass flow reduced,the two low pressure regions gradually contracted to the leading edge and then a spike disturbance emerged. 展开更多
关键词 TRANSONIC COMPRESSOR unsteady flow
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Aerodynamic Sweeping Study and Design for Transonic Compressor Rotor blades 被引量:2
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作者 N.X.Chen,H.W.Zhang and W.G Huang Institute of Engineering Thermophysics,Chinese Academy of Sciences P.O.Box 2706 Beijing,100080,China 《Journal of Thermal Science》 SCIE EI CAS CSCD 2010年第4期295-299,共5页
The objective of the present paper is to study the sweep effect on the blade design performance of a transonic compressor rotor.The baseline to be modified and swept is a designed well efficient transonic single rotor... The objective of the present paper is to study the sweep effect on the blade design performance of a transonic compressor rotor.The baseline to be modified and swept is a designed well efficient transonic single rotor compressor. The first part of the present study is concerning the sweep effect with straight leading edge.In this case fixing the hub section the swept blade is formed by tilting the leading edge with whole blade forwards and backwards axially.The second part is to use an optimization strategy with simple gradient-based optimum-searching method and multi-section blade parameterization technique to search and generate an optimal swept rotor with curved arbitrary leading edge.Its adiabatic efficiency is a little bit greater than that of the reference un-swept rotor. 展开更多
关键词 Aerodynamic optimization blade sweep transonic compressor rotor
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