| 1. | Then the numerical simulation of the flow around a real full - scale swath ship is conducted
随后对一真实swath的粘性流场进行数值模拟。 |
| 2. | Numerical simulation of full three - dimensional viscous flow field in a multi - stage transonic gas turbine
某双级跨音速燃气透平全三元粘性流场的数值分析 |
| 3. | In this paper the viscous flows around swath are simulated based on the commercial software fluent
本文即利用商业软件fluent对swath的粘性流场进行了数值模拟。 |
| 4. | Numerical investigation on three - dimensional viscous flow of a variable - geometry power turbine for marine gas turbine
舰船燃气轮机变几何动力涡轮三维粘性流场的数值分析 |
| 5. | In conclusion , the validity and practicability of the software fluent to predict the three - dimensional viscous flow field of swath are proved by these examples
通过对这些例子的计算,进一步验证了利用fluent计算swath粘性流场的有效性和实用性。 |
| 6. | Complex wave structures of supersonic inlet at critical status are achieved by numerical simulation , and analysis on flow structure characteristic and shock wave structure is made
得到了临界工况下超声速进气道内外粘性流场复杂的波系结构,分析了流场结构特性和激波波系结构。 |
| 7. | A revised fuzzy control algorithm was developed to accelerate iteration convergence in numerical fluid dynamic simulation by adjusting the value of the under - relaxation factor
摘要在原来研究工作的基础上,提出了一种改进的模糊控制方法,用以调整粘性流场迭代计算中亚松驰因子的值。 |
| 8. | The phase - lagged method was adopted to solve the difficulty caused by the different number of vanes in different vane rows , some experiences and some formulas were shown in this paper
本文通过数值求解navier - stokes方程来模拟轴流式叶轮机械内多排叶栅通道二维粘性流场的非定常流动。 |
| 9. | This paper is an attempt to use commercial software in simulating viscous flow field of swath . more satisfying results would be achieved along with further study
本文是将商业软件用于swath粘性流场计算的一个尝试和探讨,随着今武汉理工大学硕士学位论文后工作的深入,将会取得更加令人满意的结果。 |
| 10. | The effect of reynolds number on rudder hydrodynamic performance is also analyzed . up to the stall angle the computed lift and drag agree well with measurements and other author ' s calculations , whereas stall angle , lift and drag beyond the stall angle are slightly under - predicted . the solver is used to investigate laminar and turbulent separated flows around a 6 : 1 prolate spheroid at high incidence angles and their effects on hydrodynamic forces
应用所开发的求解器,以naca0015翼型舵为算例计算了船舵在不同雷诺武汉理三;大学博士学位论文数下大舵角范围内的三维粘性流场及水动力,成功地预报了舵的失速角和最大升力,并初步探讨了雷诺数对舵水动力的影响;计算结果与现有试验和计算数据比较,吻合程度相当好,初步检验和验证了该求解器精确模拟粘性流动和计算水动力的能力。 |
