基于风洞试验的变截面圆灯柱涡激振动与影响因素研究

为了研究某实桥变截面圆灯柱发生的风致二阶振动现象,采用多段薄壁空心铝管焊接并覆盖泡沫管和柔性PVC薄膜的方法,设计制作了满足相似比要求的变截面灯柱气弹模型,解决了低质量比、低阻尼比变截面细长结构风洞试验不便模拟的问题.通过风洞试验,采用非接触式视频测量位移系统和眼镜蛇探针测试了不同风速下灯柱位移响应和尾流风速,重现了灯...     

客运专线抗台风措施研究

客运专线高速车辆轻量化,使其抗强风能力减弱。为保证客运专线安全运输,从线路、路基、桥梁、隧道、站场及电气化设施等方面提出抗台风的设计原则,可采用的运输安全监控预警及运营安全措施。以上研究成果可确保沿海铁路的运营安全,进一步提高沿海铁路建设质量。     

汽车风洞双车试验来流湍流特征研究

基于自主研发的真实道路来流参数测量系统,对多地区、多场景真实道路行驶来流湍流强度进行了测试,发现车辆道路行驶时来流湍流强度远高于风洞水平,道路平均湍流强度为4%,沿海地区湍流强度最高可达20%,在跟车或超车时湍流强度可达 28%。在汽车风洞内模拟了道路行驶跟车、超车等试验场景,对测试车辆气流环境进行了采集分析。结果表明,跟车和超车时,后车来流湍流强度较高且伴随有速度损失,湍流强度及速度损失大小与前车尺寸和跟车距离有关,湍流强度分布范围为2%～33%,与道路实测相当,且速度损失最大为19%。进一步探究了前车放置角度、风洞风速对后车来流湍流强度的影响规律,建立对后车来流湍流强度定量调节的方法。完成了双车风噪测试,结果表明,风洞内高湍流强度环境车内风噪测试调制频谱结果与道路行驶测试结果相符,车内风噪频谱曲线差异主要集中在小于70 Hz的低频段。     

静风效应和架设方法对悬索桥施工过程颤振稳定性的影响研究

悬索桥在施工过程的结构刚度比较小,空气静力作用产生的非线性效应以及桥面主梁架设方法都将对悬索桥施工过程的颤振稳定性产生重要的影响。运用大跨度桥梁颤振分析的三维非线性方法,分析宜昌长江大桥采用不同主梁架设方法时的颤振稳定性变化趋势,并探讨静风效应和主梁架设方法对悬索桥施工过程颤振稳定性影响的程度、机理和规律。     

公路隧道中控制火灾烟流的计算模型

本模型揭示公路隧道火灾期间发生逆流时火源区域烟流流动规律,得出公式可用于估算阻止火灾期间发生逆流时所需的“临界风速”。从本模型得知临界风速取决于隧道高度和火源热释放率的大小。通过与原型试验隧道火灾试验数据进行比较,本模型可以为防灾通风设计提供依据。     

基于圆形断面的隧道温度场有限差分计算模型

除了少数圆形隧道外,大部分山岭交通隧道断面采用马蹄形或端墙式等形状。在隧道温度场的预测中,圆形断面模型能否代替马蹄形等实际隧道模型,其适应性值得研究。应用基于空气－衬砌－围岩的对流－导热耦合作用控制方程的有限差分方法,建立圆形断面模型对东北寒区马蹄形隧道温度场进行计算,并与现场实测温度场进行对比。结果表明： 1) 圆形断面隧道模型有限差分计算方法克服了通用有限元软件建模复杂、对硬件要求高的弊端,考虑了隧道内风流速度和入口风流温度的影响,在隧道温度场的预测计算中能够满足工程使用要求。2）隧道内风流速度和入口风流温度对隧道温度场影响较大。本文算例中,入口风流温度每升高10 ℃,二次衬砌表面温度升高约7.2 ℃,增幅均匀;从1～5 m/s,洞内风流速度每增大1 m/s,二次衬砌表面温度降低的幅度为6.6、2.7、1.5、0.9 ℃,降幅越来越小。     

Ultimate load analysis of a 10 MW offshore monopile wind turbine incorporating fully nonlinear irregular wave kinematics

Loads from storm waves can in some cases be dimensioning for offshore wind turbine substructures. Accurate determination of nonlinear wave loads is therefore important for a safe, yet economic design. In this paper, the fully nonlinear waves, realized by a fully nonlinear potential wave solver OceanWave3D, are incorporated into coupled aero-servo-hydro-elastic simulations for a reduced set of wave-sensitive design load cases, in comparison with the widely used linear and constrained waves. The coupled aero-elastic simulations are performed for the DTU 10 MW reference wind turbine on a large monopile at 33 m water depth using the aero-elastic code HAWC2. Effect of the wave nonlinearity is investigated in terms of the ultimate sectional moments at tower bottom and monopile mudline. Higher ultimate moments, 5% at tower bottom and 13% at monopile mudline as maximum, are predicated when the nonlinear waves are used. It could be explained by the fact that the extreme nonlinear waves, that are close to the breaking limit, can induce resonant ringing-type responses, and hereby dominate the ultimate load responses. However, the constrained wave approach shows marginal difference compared to the standard linear wave approach. It can be concluded at least for the present configuration that the industry standard approaches (linear and constrained wave approach) underestimate the ultimate load responses on offshore wind turbines in severe sea states.     

Semi-submersible wind turbine hull shape design for a favorable system response behavior

Floating offshore wind turbines are a novel technology, which has reached, with the first wind farm in operation, an advanced state of development. The question of how floating wind systems can be optimized to operate smoothly in harsh wind and wave conditions is the subject of the present work. An integrated optimization was conducted, where the hull shape of a semi-submersible, as well as the wind turbine controller were varied with the goal of finding a cost-efficient design, which does not respond to wind and wave excitations, resulting in small structural fatigue and extreme loads.The optimum design was found to have a remarkably low tower-base fatigue load response and small rotor fore-aft amplitudes. Further investigations showed that the reason for the good dynamic behavior is a particularly favorable response to first-order wave loads: The floating wind turbine rotates in pitch-direction about a point close to the rotor hub and the rotor fore-aft motion is almost unaffected by the wave excitation. As a result, the power production and the blade loads are not influenced by the waves. A comparable effect was so far known for Tension Leg Platforms but not for semi-submersible wind turbines. The methodology builds on a low-order simulation model, coupled to a parametric panel code model, a detailed viscous drag model and an individually tuned blade pitch controller. The results are confirmed by the higher-fidelity model FAST. A new indicator to express the optimal behavior through a single design criterion has been developed.     

风暴中船舶安全池破损问题

选用实际在航货船船型,运用理论和模型试验相结合的方法确定非线性横摇运动方程各系数,研究了随机波浪和随机风中船舶安全池的破损问题.引入定量分析方法,考虑扰动波谱(例如ITTC谱)对安全池破损的影响以及脉动风速谱的作用,进一步揭示了安全池破损的内在机理及影响因素.本文认为,计算安全池时应选择合适的扰动波谱,风速脉动特性的影响是不能忽略的.     

冬季中日航线上中小型船舶的安全航行

冬季的中日航线主要受两类天气系统的影响一类是来自大陆的强冷空气的影响;另一类是温带气旋的影响。本文主要讨论冬季在该航线上的中小型船舶如何避开强风,保证航行安全。