对冷藏室内的温度场和速度场进行了数值模拟。
The temperature field and velocity field inside springhouse was numerically simulated.
同时,在本论文中分析了太阳能烟囱的温度场和速度场。
Meanwhile, temperature field and velocity field of solar chimney were analyzed.
实测了采用下送风空调方式的某多功能厅的温度场和速度场。
The temperature field and velocity field in a polyfunctional hall with floor air supply was measured.
利用CFD技术与实验相结合的方式对客房空调气流的温度场和速度场进行了分析。
Analyze temperature field and velocity field of guest room by making use of CFD technique and experiment associative mode.
实践证明,这种空调系统所形成的温度场和速度场都比较均匀,有很好的空调效果。
Practice has proved, temperature field formed of this kind of air conditioning system and velocity field are all more even, there are very good air conditioner effects.
酸液在井筒和裂缝流动时的温度场和速度场模拟是进行酸液就地性能参数计算的前提。
The temperature field of acid flowing in the borehole and the fracture is the basis for calculating the in-situ parameters.
用该模型对在提升管再生器中的再生过程进行了模拟计算,分析了再生器中的温度场和速度场。
With this model, simulations were implemented for a riser regenerator, and the velocity field and temperature field in the regenerator were calculated and analyzed.
本论文应用有限元分析软件ANSYS/FLOTRAN对果蔬冷藏间的温度场和速度场进行了计算机数值模拟。
The temperature field and velocity field inside greenstuffs springhouse was numerically simulated by ANSYS/FLOTRAN software.
本文分析了沿细丝运动的汽泡顶部产生射流的物理机理,并通过对汽泡和加热细丝周围温度场和速度场的数值求解来进行分析。
The flows were analyzed by numerically solving the governing equations for the velocity and temperature distributions around the bubble and the heated wire as the bubble moves along the wire.
基于实验数据,用TECPLOT软件进行了速度场和温度场的可视化处理,并加以分析。
Based on those experimental data, we adopted TECPLOT software to visualize all those temperature profiles and velocity profiles and made further analysis.
这两个指数建立了玻璃熔制质量与玻璃液速度场和温度场的定量关系。
Thus, the quantitative relations between the fusion quality and the fields of velocity and temperature for glass melt were found.
分析已有实验数据表明:在温度场存在的气粒两相流中,两相流场的湍流强度和湍动能将会增加而横向速度将会减小。
The results showed that the turbulence intensity and turbulent energy of the two-phase flow increased while the transverse velocity decreased in the presence of the temperature difference.
本文首次采用数值计算和试验相结合的方法对微型面包车车室内温度场、速度场进行了研究。
In this paper, the microbuss temperature field and velocity field is researched through numerical simulation and experiment for the first time.
得到了合理的速度场分布和温度场分布数值模拟结果,并与试验值进行了对比。
The prediction gives rational velocity and temperature distributions, which have been compared with the measured values of velocity and temperature.
用FIDAP软件模拟了一典型大空间建筑空调采用置换通风送、回风口同侧布置、异侧布置的室内空气流动的速度场和温度场。
Velocity field and temperature field of replacement ventilation of air-conditioning in a typical large space building are studied using FIDAP software.
预测了房间内的速度场、温度场,表明CFD模拟可以为分层空调系统的节能和设计提供依据。
It is predicted the velocity field temperature field. The result showed that CFD simulation can provide a basis for the energy saving and design of delaminated air-conditioning.
通过速度场、浓度场和温度场的数值模拟证明了本文提出的设计原则的合理性。
Through the mathematical simulation of the velocity profile, the concentration profile and temperature profile, the correctness of the design criteria of furnace arch structure is testified.
通过分析认为,送风温度的变化对于整个试验区域速度场和温度场的梯度变化影响较小,而送风速度的变化则影响较大。
It was concluded that change of air supplying temperature has a little influence on the gradient of the velocity and temperature.
数值模拟预测了金属液充型过程的流动速度场和温度场,并对充型过程进行了评价。
Numerical simulation predicts molten metal velocity field and temperature field in the filling progress. Filling of casting thus is be evaluated.
使用有限法求解不可压缩牛顿流体流动控制方程,用体积函数法跟踪金属液自由表面的移动,预测了机体充型过程的流动速度场和温度场。
The incompressible, Newtonian fluid flow equations are solved using finite element method. The free surface motion of molten metal is tracked by the volumetric function approach.
采用零方程模型和3点动量风口模型,应用计算流体力学软件PHOENICS模拟了某候机厅空调气流组织方案的速度场和温度场。
Simulates the air distribution in an air conditioned airport ball by PHOENICS using zero equation turbulent model and three point momentum draught model.
采用零方程模型和3点动量风口模型,应用计算流体力学软件PHOENICS模拟了某候机厅空调气流组织方案的速度场和温度场。
Simulates the air distribution in an air conditioned airport ball by PHOENICS using zero equation turbulent model and three point momentum draught model.
应用推荐