Using a finite element method (FEM) program, a Portland cement concrete slab trackbed (So), and a sub- track asphalt roadbed (RAC-S) were modeled under high- speed train loads to analyze their responses to groun...Using a finite element method (FEM) program, a Portland cement concrete slab trackbed (So), and a sub- track asphalt roadbed (RAC-S) were modeled under high- speed train loads to analyze their responses to ground vibration attenuation, by considering 10, 15, 20, 25, and 30 thick sub-track asphalt layer replaced on the top of the upper subgrade. FEM results show that the vibration amplitude of RAC-S is at least three times lower than the vibration for So. The maximum vibration amplitude of RAC-S is linearly increased with train speed. The vertical acceleration is found to be reduced by more than 10 % when the asphalt layer thickness is increased from 10 to 20 cm. However, the reduction in vertical acceleration is only about 1% when the thickness of the asphalt layer changes from 20 to 30 cm. The vibration level is slightly lower if the asphalt layer has higher resilient modulus in the seasons of autumn or winter. This theoretical analysis indicates that a railway substructure that consists of a 10-20 cm thick high modulus asphalt layer located at the top of trackbed shows a good performance in ground vibration control for high-speed rails.展开更多
By an iteration method, the influence of oil film inertia on piston skirt lubrication in a high speed engine is investigated. By alternately solving the Navier-Stocks equations and the Reynolds equation, the new itera...By an iteration method, the influence of oil film inertia on piston skirt lubrication in a high speed engine is investigated. By alternately solving the Navier-Stocks equations and the Reynolds equation, the new iteration method can trace the variations of velocity field and pressure field with time. Based on this, the mixed-lubrication model suitable for the piston skirt of high engines is proposed. By introducing the inertia coefficient, the new lubrication model includes the inertia term in oil film. The model can be also used to solve for the lubrication performances of a piston skirt in low or medium speed engines and for lubrication problem in general excluding the inertia term of oil film , when the inertia coefficient is put equal to zero. The calculation results show that the influence of oil film inertia on the friction force increases with the ratio of the piston skirt's length to its diameter, the inertia coefficient and the eccentricities of the lower and the upper piston skirt, with other conditions kept constant, while the influence of it on the load capacity of oil film is small.展开更多
针对高速移动场景中人机混编通信模式下的安全问题展开研究,提出基于时延多普勒(Delay Doppler, DD)域密钥提取的正交时频空—物理层加密(Orthogonal Time Frequency Space-Physical Layer Encryption, OTFS-PLE)方法。该方法充分利用...针对高速移动场景中人机混编通信模式下的安全问题展开研究,提出基于时延多普勒(Delay Doppler, DD)域密钥提取的正交时频空—物理层加密(Orthogonal Time Frequency Space-Physical Layer Encryption, OTFS-PLE)方法。该方法充分利用快时变信道在DD域中的稀疏性,高效准确地估计信道路径的增益、多普勒频移和时延大小,生成安全可靠的初始密钥,再通过Tent序列将初始密钥扩展成加密密钥,根据密钥对OTFS的星座点进行相位扰乱,实现高效的加解密。该方法解决了高速移动场景人机混编通信中的密钥提取难的问题,能生成可靠的密钥并实现人机混编系统安全高效的加密通信。展开更多
为了探究折叶片旋流泵固液两相输送机理,基于CFD-DEM(Computational fluid dynamics-discrete element method)耦合算法,选用油菜籽和黄豆颗粒等比例混合,在不同流量工况和体积分数下对旋流泵进行固液两相流数值模拟和试验研究。同时也...为了探究折叶片旋流泵固液两相输送机理,基于CFD-DEM(Computational fluid dynamics-discrete element method)耦合算法,选用油菜籽和黄豆颗粒等比例混合,在不同流量工况和体积分数下对旋流泵进行固液两相流数值模拟和试验研究。同时也研究了折叶片旋流泵内部流动规律及颗粒分布特征。小流量工况下,进口管内螺旋回流长度较长,对进口来流扰动较大。随着流量增大,进口管回流长度逐渐缩短。叶轮前端面旋涡随流量增大,数量先增加后减少,且逐渐向折点方向聚拢。泵内颗粒受循环流和贯通流的共同作用,进口管中心部颗粒主要受贯通流影响,直接穿过无叶腔,冲击叶轮进口;靠近管壁的颗粒受循环流影响较大。无叶腔内颗粒分布呈现出:中心部最高,中间部随外径增大浓度逐渐降低,外缘部浓度稍有上升。叶轮前半部颗粒数量明显少于叶轮后半部,颗粒沿叶片第1段折边运动,在折点处开始发生分离,不再跟随第2段折边。不同工况下,泵进口有不同程度的螺旋回流现象,导致进口过流面积减小。循环流的存在,使得无叶腔和进口管的颗粒充分旋起,泵送能力增强,不易发生堵塞。展开更多
基金supported by National Natural Science Foundation of China(No.51308429)the Fundamental Research Funds for the Central University(WUT:2013-IV-067)Opening Funds for Highway Engineering Key Laboratory of Sichuan Province(No.LHTE004201304)
文摘Using a finite element method (FEM) program, a Portland cement concrete slab trackbed (So), and a sub- track asphalt roadbed (RAC-S) were modeled under high- speed train loads to analyze their responses to ground vibration attenuation, by considering 10, 15, 20, 25, and 30 thick sub-track asphalt layer replaced on the top of the upper subgrade. FEM results show that the vibration amplitude of RAC-S is at least three times lower than the vibration for So. The maximum vibration amplitude of RAC-S is linearly increased with train speed. The vertical acceleration is found to be reduced by more than 10 % when the asphalt layer thickness is increased from 10 to 20 cm. However, the reduction in vertical acceleration is only about 1% when the thickness of the asphalt layer changes from 20 to 30 cm. The vibration level is slightly lower if the asphalt layer has higher resilient modulus in the seasons of autumn or winter. This theoretical analysis indicates that a railway substructure that consists of a 10-20 cm thick high modulus asphalt layer located at the top of trackbed shows a good performance in ground vibration control for high-speed rails.
基金National Natural Science Foundation of China (Grant No. 59990472)
文摘By an iteration method, the influence of oil film inertia on piston skirt lubrication in a high speed engine is investigated. By alternately solving the Navier-Stocks equations and the Reynolds equation, the new iteration method can trace the variations of velocity field and pressure field with time. Based on this, the mixed-lubrication model suitable for the piston skirt of high engines is proposed. By introducing the inertia coefficient, the new lubrication model includes the inertia term in oil film. The model can be also used to solve for the lubrication performances of a piston skirt in low or medium speed engines and for lubrication problem in general excluding the inertia term of oil film , when the inertia coefficient is put equal to zero. The calculation results show that the influence of oil film inertia on the friction force increases with the ratio of the piston skirt's length to its diameter, the inertia coefficient and the eccentricities of the lower and the upper piston skirt, with other conditions kept constant, while the influence of it on the load capacity of oil film is small.
文摘针对高速移动场景中人机混编通信模式下的安全问题展开研究,提出基于时延多普勒(Delay Doppler, DD)域密钥提取的正交时频空—物理层加密(Orthogonal Time Frequency Space-Physical Layer Encryption, OTFS-PLE)方法。该方法充分利用快时变信道在DD域中的稀疏性,高效准确地估计信道路径的增益、多普勒频移和时延大小,生成安全可靠的初始密钥,再通过Tent序列将初始密钥扩展成加密密钥,根据密钥对OTFS的星座点进行相位扰乱,实现高效的加解密。该方法解决了高速移动场景人机混编通信中的密钥提取难的问题,能生成可靠的密钥并实现人机混编系统安全高效的加密通信。
文摘为了探究折叶片旋流泵固液两相输送机理,基于CFD-DEM(Computational fluid dynamics-discrete element method)耦合算法,选用油菜籽和黄豆颗粒等比例混合,在不同流量工况和体积分数下对旋流泵进行固液两相流数值模拟和试验研究。同时也研究了折叶片旋流泵内部流动规律及颗粒分布特征。小流量工况下,进口管内螺旋回流长度较长,对进口来流扰动较大。随着流量增大,进口管回流长度逐渐缩短。叶轮前端面旋涡随流量增大,数量先增加后减少,且逐渐向折点方向聚拢。泵内颗粒受循环流和贯通流的共同作用,进口管中心部颗粒主要受贯通流影响,直接穿过无叶腔,冲击叶轮进口;靠近管壁的颗粒受循环流影响较大。无叶腔内颗粒分布呈现出:中心部最高,中间部随外径增大浓度逐渐降低,外缘部浓度稍有上升。叶轮前半部颗粒数量明显少于叶轮后半部,颗粒沿叶片第1段折边运动,在折点处开始发生分离,不再跟随第2段折边。不同工况下,泵进口有不同程度的螺旋回流现象,导致进口过流面积减小。循环流的存在,使得无叶腔和进口管的颗粒充分旋起,泵送能力增强,不易发生堵塞。