排序方式: 共有12条查询结果,搜索用时 359 毫秒
1.
2.
3.
为降低散热器空气侧流动阻力和芯部体积以达到节约冷却风扇功率和车辆动力舱空间的目的,建立了散热器空气侧计算流体力学(CFD)模型和基于CFD分析的散热器芯部外形优化模型。在满足散热需求和动力舱安装空间要求的前提下,以空气侧流动阻力和芯部体积为目标函数,基于遗传算法对一板翅式散热器芯部外形进行了优化,对优化后散热器的散热性能进行了校核。结果表明,所建优化模型是可行的。采用正交试验设计法确定了各变量对优化目标影响的主次顺序:在空气流量一定时,散热器芯部高度对散热器空气侧流动阻力和芯部体积的影响最为显著。 相似文献
4.
5.
电传动装甲车动カ舱内空气波场数值模拟及结构改进分析 总被引:1,自引:0,他引:1
将装甲车由机械传动改为电传动后,电机类设备的增加对动力舱内的冷却系统提出新的要求,利用计算流体动力学(CFD)技术对虚拟动力舱内空气流场进行数值模拟,可以对动力舱冷却系统的合理性进行预测分析并提出建议。以某虚拟电传动装甲车动力舱为研究对象,建立了电传动装甲车动力舱内空气流动与传热计算的物理模型和数学模型,采用标准尾K-ε方程湍流模型对舱内的流动进行了描述,对不同风扇流量下动力舱内空气流场进行了三维数值模拟与分析,为风扇流量的确定提供了理论依据;对动力舱排气窗位置进行了分析讨论,指出排气窗位置的不同会对舱内部件带来不同的冷却效果。 相似文献
6.
7.
8.
9.
10.
When the mechanical drive is changed into the electric transmission,the cooling system of the engine compartment should be altered to meet the new requirement for the increasing in equipment such as electric apparatus.In order to predict and analyze the rationality of cooling system in the virtual engine compartment,the numerical simulation of airflow fields in the engine compartment by using computational fluid dynamics(CFD) technique is necessary.An armored vehicle with electric transmission in the research is taken as the research object.The physical model and mathematical model for the computation of 3D air flow and heat transfer in the engine compartment of an armored vehicle with electric transmission is established.Turbulent flow in the compartment is described by using the standard k-ε two-equation turbulence model.The temperature and velocity fields of 3D air flow in the engine compartment are numerically simulated and analyzed based on different fan's flux.A theoretical basis for determination of the fan's flux is given by the simulation results.The positions of the air-vent shutter are analyzed.The simulation results show that the different positions of the air-vent shutter can lead to different cooling efficiencies. 相似文献