轮式高速两栖车辆水上航行阻力成分占比分析  

作　　者：熊小青[1,2,3] 吴琼 胡帆[1,3] 孟阳 XIONG Xiaoqing;WU Qiong;HU Fan;MENG Yang(Marine Design and Research Institute of China,Shanghai 200011,China;Science and Technology on Water Jet Propulsion Laboratory,Shanghai 200011,China;Shanghai Key Laboratory of Ship Engineering,Shanghai 200011,China)

机构地区：[1]中国船舶及海洋工程设计研究院,上海200011 [2]喷水推进技术重点实验室,上海200011 [3]上海市船舶工程重点实验室,上海200011

出　　处：《舰船科学技术》2024年第17期1-7,共7页Ship Science and Technology

摘　　要：对某轮式高速两栖车辆水上航行工况全航速范围的阻力成分占比开展分析,为其水动力构型的优化设计提供方向性指导。采用CFD软件FINETM/Marine开展带自由面的模型阻力数值计算,通过与模型试验结果对比验证了数值计算方法。通过叠模数值计算确定了对应各航速的水粘压阻力,其中针对高速时的“干方尾”现象,提出以动态吃水平面切割尾波谷自由面形成尾部导流体的叠模计算几何模型构建方法。结合带自由面阻力计算得到的空气阻力和其他水阻力成分,分析了不同阻力成分的占比及其随航速变化的规律。结果表明,该轮式两栖车全速度范围内的水阻力在总阻力中的占比都高于90%;排水航行阶段,水粘压阻力占比最高,约为45%~70%;过渡航行阶段,兴波和飞溅阻力占比最高,约为45%~70%;滑行阶段,水摩擦阻力占比随航速增大迅速提高,设计航速时在总阻力中占比约为36%。Resistance component proportion of a high-speed wheeled amphibious vehicle on water are analyzed in its whole speed range,to provide some well-founded guidance for the design optimization of vehicle style.Numerical simulation of the viscous flow field with free surface around the vehicle model is carried out by CFD software FINETM/Marine,and the obtained resistance and posture are verified to be in consistent with model test results,proving good accuracy of the adopted CFD method.For the dry transom phenomenon at high speed condition,a double model configuration approach of adding an extender body by cutting the stern trough with dynamic draught plane is presented.Then,the viscous pressure resistance is computed using double model method.With the addition of other resistance components attained in the simulation with free surface,the proportion of each resistance component is determined,and their variation rules with different speeds are studied.The results show that,the water resistance component is more than 90%of the total resistance for all the simulated speed conditions.For the hull borne stage,water viscous pressure resistance is the dominant component,with a proportion varying from 45%to 70%.For the transition sailing stage,wave-making resistance and spraying resistance make up 45%to 70%of the total resistance.For the planning stage,the proportion of water frictional resistance component increases rapidly as speed goes up,achieving as high as 36%at the design speed.

关 键 词：两栖车辆 阻力特性 CFD 叠模 

分 类 号：U674.78[交通运输工程—船舶及航道工程]