乘用车DCT车型的动力性提升分析与实施

为满足公司的发展战略要求,需要打造一款高性能、运动操控性车型,为提升该款乘用车DCT车型的动力性和操控型,分别从车辆的起步、加速过程的扭矩发挥和换挡结束的扭矩恢复、换挡过程的扭矩交替时间和转速同步时间、换挡线加速度和动力升挡换挡线及硬件五个方面进行优化。论文对该车型的起步加速过程以及换挡过程的扭矩控制进行详细分析,并将五个优化方向分解为13个子项,分别对各子项优化效果进行分析,通过INCA软件对车辆的控制系统进行优化,经过实际道路测试满足了目标开发要求。     

基于连续-离散混合模型的船舶推进轴系纵向振动动力吸振分析

以直接传动形式的船舶推进轴系为研究对象,基于连续-离散混合模型,开展推进轴系纵向振动动力吸振设计分析。采用直接法和模态叠加法计算比较推进轴系在螺旋桨脉动推力下的频率响应,识别出第1阶模态是优势模态。结合Lagrange方程和模态展开定理推导出推进轴系连续-动力吸振器离散混合模型的动力学方程,采用动力调谐优化方法对动力吸振器进行优化设计,在优化状态下讨论动力吸振器的控制效果和参数影响规律。分析结果表明:动力吸振器安装位置应尽可能接近螺旋桨端,以减小动力吸振器动力参数值;第1阶共振线谱的减振效果与动力吸振器安装位置无关,仅取决于其质量比。     

A signal decomposition method based on repeated extraction of maximum energy component for offshore structures

Contrary to most signal decomposition methods that usually decompose an original signal into a series of components simultaneously, a novel approach based on repeated extraction of Maximum Energy Component (MEC) is proposed. The approach starts from determination of the MEC referring to the estimated Power Spectral Density (PSD) function, and then represents the MEC by employing an exponential function to fit the original signal. By defining a stopping criterion based on two adjacent estimated PSDs, each MEC can be accurately extracted with an improved performance throughout the entire signal decomposition. To verify the proposed method, a single degree-of-freedom system subject to harmonic loads has been examined. Numerical results show that the analytical response can not only be decomposed into four MECs corresponding to the excitation and the system, respectively, but also provide an accurate estimation of natural frequency and damping ratio of the system. Meanwhile, by observing results from the Ensemble Empirical Mode Decomposition (EEMD), Variational Mode Decomposition (VMD) and Prony based on state-space model (Prony-SS), an improved decomposition accuracy has been achieved from the proposed approach. Furthermore, experimental data from the Norwegian Deepwater Programme and two sets of field-test data from one fixed offshore platform and an offshore wind turbine have been used to demonstrate the correctness of the developed signal decomposition method. It is noted that divergence in results by Prony-SS can be observed when a very large model order is used, while the proposed method provides the better decomposition and reconstruction of signals.     

PHEV能量管理策略研究

针对一款串联型插电式混合动力公交车,文章基于MTLALB建立整车和各部件数值模型。在中国典型城市公交工况下,建立基于全局优化的DP策略,并与CD-CS策略和PMP策略进行能耗对比分析。结果表明:(1)基于CD-CS策略的后期SOC在一定范围内波动,DP策略与PMP策略的SOC轨迹近似呈线性变化。(2)CD-CS策略较DP策略的能耗成本高22.68%,PMP策略比DP策略的能耗成本高0.30%。DP策略与PMP策略可以合理分配能量源,实现全局最优,但DP策略相比PMP策略计算量大。     

深海工程船锚泊仿真系统研究

为了实现工程船定位和控位快速模拟仿真,本文以45000DWT海洋工程船为例,采用均匀设计试验方法,确定深海船舶工作不同的工况组合,基于Ansys-Aqwa软件对工程船深海锚泊动态响应进行仿真分析,对仿真结果进行回归处理,得到船舶位移和锚索张力与锚索长度、风浪流环境载荷变化的数学响应模型,再对位移数学响应模型进行求反函数处理,获取船舶控位调整锚索长度的方法,为深海锚泊软件仿真系统提供模型支撑。     

Validation and application of nonlinear hydrodynamics from CFD in an engineering model of a semi-submersible floating wind turbine

Nonlinear hydrodynamics play a significant role in accurate prediction of the dynamic responses of floating wind turbines (FWTs), especially near the resonance frequencies. This study investigates the use of computational fluid dynamics (CFD) simulations to improve an engineering model (based on potential flow theory with Morison-type drag) by modifying the second-order difference-frequency quadratic transfer functions (QTFs) and frequency-dependent added mass and damping for a semi-submersible FWT. The results from the original and modified engineering models are compared to experimental data from decay tests and irregular wave tests. In general, the CFD results based on forced oscillation tests suggest increasing the frequency-depending added mass and damping at low frequencies compared to first order potential flow theory. The modified engineering model predicts natural periods close to the experimental results in decay tests (within 5%), and the underprediction of the damping is reduced compared to the original engineering model. The motions, mooring line tensions and tower-base loads in the low-frequency response to an irregular wave are underestimated using the original engineering model. The additional linear damping increases this underestimation, while the modified QTFs based on CFD simulations of a fixed floater in bichromatic waves result in larger difference-frequency wave loads. The combined modifications give improved agreement with experimental data in terms of damage equivalent loads for the mooring lines and tower base.     

高速铁路线路参数与线路方案动力分析研究

线路线形条件对高速铁路行车安全性及乘坐舒适性的影响显著增强。我国在制定高速铁路规范时,总结吸收国内外建设及运营管理经验,提出了较高的线形标准。采用动力仿真分析方法对高速铁路参数进行探讨,对高速铁路线路关键参数进行分析,提出线路平、纵断面关键参数合理取值。针对京沈高铁试验段开展更高速度综合实验,对线路线形方案开展动力学分析及评估。提出线路圆曲线、反向曲线夹直线最小长度、竖曲线最小半径关键参数合理取值,可有效减少工程建设投入;通过对京沈高铁试验段开展更高速度综合实验,对线路线形方案开展动力学分析及评估,提出通过增加8 000 m曲线半径超高的方法,提高速度400 km/h列车舒适度。     

Numerical study on the dynamic response of a truncated ship-hull structure under asymmetrical slamming

Dynamic response of ship-hull structure under slamming has tracked widespread attention in the marine structural design. However, our understanding on the dynamic characteristics largely relies on the symmetrical slamming cases. This paper presented a preliminary numerical investigation on the dynamic response of a truncated ship-hull structure under asymmetrical slamming based on the uncoupled CFD-FE method. Asymmetrical slamming loads were predicted through combining the seakeeping analysis and CFD method. In there, three kinds of motions (vertical, horizontal and roll motions) of 2D ship sections were obtained through the seakeeping analysis and then the slamming pressure was predicted through simulating the water entry with various motions based on CFD method. The dynamic response was analyzed through finite element method. Numerical predictions including ship motions, slamming loads and dynamic analysis were validated against published experimental data and numerical calculations. The characteristics of asymmetrical slamming loads were analyzed showing obvious asymmetry in space, and the dynamic characteristic of the ship bow structure was further clarified through discussing the deformation and stress distribution. These results are useful for readers for better understanding the dynamic characteristics of the bow structure under slamming.     

Dynamic behavior of scaled tubular K-joints subjected to impact loads

This paper examines the dynamic behavior of the tubular K-joints in offshore platforms by means of experimental and numerical studies. The structural response is studied through Falling Weight Impact Tester(FWIT) with three different falling heights. A non-direct similitude method is developed and applied to the scaled K-joint models. The experimental results, including final deformed shapes and impact force responses, are reported to be useful for further benchmark studies. The finite element models are then developed by commercial software LS-DYNA, where nonlinear material properties are considered based on the corresponding tensile tests. Good correspondence between the numerical and experimental results is achieved, and relevant sensitivity analyses of numerical results are carried out to verify the reliability of the numerical models. Finally, the influence of the strain-rate definition and the reliability of the similarity are discussed. In general, the impact response in the present study is significantly dependent on the definition of dynamic material characteristics. The results obtained from Cowper-Symonds model with constants derived from the dynamic tensile test yield a good estimation when compared with the experimental results. Besides, scaled models tend to obtain un-conservative prediction results, and the developed non-direct similitude method is appropriate for the application.     

某磁浮大跨斜拉桥竖向刚度限值研究

以某磁浮轨道交通(40+80+228+228+80+40)m大跨钢箱梁斜拉桥为研究对象,采用有限元软件ANSYS和多体动力学软件UM分别建立桥梁和磁浮列车模型。基于车桥耦合振动方法,针对2列磁浮列车相向行驶并在主跨跨中交会的最不利情形,进行列车以不同速度通过桥梁时不同梁高下车桥系统的动力响应及磁浮大跨桥梁的竖向刚度限值研究。结果表明:磁浮列车的竖向动力响应随车速的增大而显著增大,时速从40 km增大到140 km时,列车竖向动力响应增幅达到120%以上;车体竖向加速度和Sperling指标不是桥梁结构刚度限值的控制因素;磁浮列车的悬浮间隙对梁体刚度变化较为敏感,随着梁体刚度逐步增大,悬浮间隙的波动变小,梁体挠跨比减小约25%,悬浮间隙波动减小幅度达35%,悬浮间隙可作为中低速磁浮大跨桥梁结构刚度限值的控制指标;梁体挠跨比1/3015可作为磁浮大跨桥梁的竖向刚度限值。