panel method 中文意思是什麼

panel method 解釋
板塊法
  • panel : n 1 面,板;【建築】四分板,門窗材,幅板,板條;嵌板;鑲板;方格;(木工)線板;【繪畫】(代替畫...
  • method : n 1 方法,方式;順序。2 (思想、言談上的)條理,規律,秩序。3 【生物學】分類法。4 〈M 〉【戲劇】...
  1. In the first part, the steady nonlinear vortex lattice method is adopted to calculate the hydrodynamic characteristics of open water ichthyoid rudder, and the induced velocity of ichthyoid rudder is calculated using panel method

    本文理論計算部分,採用定常非線性渦格法計算魚形舵的水動力性能,用面元方法計算舵流場的誘導速度。
  2. Based on the " fangsheng - i " robot fish of harbin engineering university auv lab, at first the analysis of the relations of pectoral fin ' s attack angle and lift in vertical plane is done in this paper, using the robot fish ' s hydrodynamic results by the panel method ' s, then setting up the motion model in vertical plane is done. finally animation the robot fish ' s motion in horizontal plane is finished

    論文以哈爾濱工程大學軍用智能水下機器人國防重點實驗室的「仿生? 」號仿魚機器人為對象,利用面元法計算的仿魚機器人水動力結果,並分析了垂直面內胸鰭的攻角與升力的關系,建立了垂直面內的模型,根據軸變形模擬了仿魚機器人水平面內的直航和偏航。
  3. The lifting - line and lifting - surface design method, the harmonic analysis method based on the panel method, new section design ways, the effective operating curves are integrated into a whole design system of the unsteady propeller, the design system is effective and reliable by the design example, the model test and the application to the full scale ship

    本文把升力線和升力面設計方法、基於面元法預報螺旋槳非定常性能的諧調分析方法,新剖面設計方法、有效運轉曲線計算方法組合為一套完整的非均勻流場中螺旋槳設計計算系統,經實例設計和模型試驗及實船的應用,該設計系統是可靠且有效的。
  4. Comparisons made among the calculated data of above two methods for open - water performance of the hd propeller and the test results shown that surface panel method is in good agreement with test results

    兩種理論預報的滬東型( hd )螺旋槳敞水性能結果與試驗值比較表明:面元法計算結果與試驗值的吻合良好。
  5. Without any hypothesis of the propeller ' s geometry, the surface panel method satisfy the body surface boundary condition on the fact body surface, and make the geometry representation of the propeller more precise, the mathematical model is more perfect

    面元法是在實際物面上滿足物面邊界條件,沒有對螺旋槳的幾何形狀做任何假設,能更精確地描述螺旋槳的復雜幾何形狀,其數學模型更加完善。
  6. Then this model is chose to compute the cavitating problem. the panel method employs sources to solve the problem of partially - cavitation and super - cavitation for axisymmetric body. the sources are distributed on the bodies and cavity surfaces

    通過在回轉體表面和空泡表面分佈源匯的方法,建立了求解回轉體局部空泡與超空泡流場的數值方法。
  7. In order to predict hydrodynamic characteristics a computational system is developed including determination of the pressure distribution on a wing section by use of the conformal mapping method and panel method respectively and of the flow in boundary layer according to the thin shear layer approximation ( tsl ) for navier - stokes equation approach. the wing sections of naca4412 and naca0012 are applied to test the computational system. the numerical inspection shows that the panel method with better precision and the momentum and the displacement thickness of boundary layer can be used to complete this calculation

    本文分別用守屋的保角變換法和基於源匯渦分佈的面元法,建立了計算槳葉表面壓力分佈的數學模型;應用納維-斯托克方程的薄層近似理論模式和有限差分數值方法,建立了計算機翼表面邊界層內部流動的數學模型;應用槳葉表面邊界層內部粘性流動和外部勢流流動在邊界上的匹配演算法,建立了槳葉表面二相流流動的計算方法和相應的計算機程序。
  8. Research on performance of rudder with additional thrust fin by panel method

    面元法計算槳后舵附推力鰭水動力性能
  9. Prediction of hydrodynamic performance of marine propellers by surface panel method

    用面元法預報船舶螺旋槳的水動力性能
  10. The wave problem is predicted by adopting panel method based on kelvin source for a ship traveling in a uniform flow

    摘要採用基於開爾文源的面元法求解航行於均勻流場中的船舶興波問題。
  11. Corresponding numerical results of wave - making calculations for high - speed ships using higher - order panel method are encouraging

    採用高階面元法得到的高速船舶相應的興波計算數值結果令人鼓舞。
  12. This paper has adopted the low - order surface panel method based on velocity potential to predict the unsteady performance of propeller

    本文採用基於速度勢的低階面元法進行螺旋槳非定常性能的預報。
  13. The comparision of the computation result and the experimental data shows that prediction of ka series propeller by surface panel method is feasible

    本文嘗試建立一種面元法預報導管螺旋槳水動力性能的方法,為設計導管螺旋槳和研究泵噴射推進裝置建立基礎。
  14. The surface panel method has been applied to predict the hydrodynamic performance of highly skewed propeller. the surface of propeller and its trailing vortex are discreted by a number of small hyperboloidal quadrilateral panels with constant source and doublet distribution. for highly skewed propeller, the conventional method generating grid oriented along constant radii will result in a high aspect ratio and a high skewness and a twist panel near the propeller tip on blade surface, which result easily in incorrect calculation results of velovity on blade surface, even in iteration divergence and calculation failure. a “ non - conventional grid ” is developed to acoid these problems. this grid can effectively solve the problem of the calculation and convergence for highly skewed propeller. the non - linear kutta condition of equal pressure on upper and lower at the trailing edge is executed by the iterative procedure. by sample calculating, the obtained results are satisfied the experimental data

    採用面元法預報大側斜螺旋槳水動力性能,螺旋槳表面及尾渦面離散為四邊形雙曲面元,每個面元上布置等強度源匯和偶極子分佈.對于大側斜螺旋槳而言,槳葉表面採用常規的等半徑網格劃分方法在近葉梢處將導致大展弦比、大側斜和扭曲面元,這容易使槳葉表面速度的計算結果不正確,甚至會導致迭代過程發散及計算失敗.文中建立了一種「非常規網格」劃分方法,能有效地解決大側斜螺旋槳的計算和收斂問題.槳葉隨邊處通過迭代實現非線性等壓庫塔條件
  15. In lifting - surface theory, the non - liner phenomena of the trailing vortex in the transition wake area and of the tip vortex separation are considered. in surface panel method hyperboloidal quadrilateral panels are employed and the morino ' s analytical formulation is used to determine the influence coefficients. the more reasonable pressure kutta condition is satisfied at the trailing edge of propeller blade

    在計算中,對于升力面理論,本論文考慮了過渡區尾渦收縮和葉梢分離的非線型現象的影響;對于面元法,本論文採用的是計算較為簡便的基於擾動速度勢的基本公式及雙曲面形狀的面元,在槳葉隨邊滿足更趨合理的壓力kutta條件,並用morino導出的解析公式計算面元的影響系數的快速有效的數值預報方法。
  16. I paints and varnishes - determination of resistance to abrasion - part 3 : reciprocating test panel method iso 7784 - 3 : 2000 ; german version en iso 7784 - 3 : 2006

    色漆和清漆.耐磨性的測定.第3部分:往復式試驗樣板法
  17. In this thesis, the steady performance of ducted propeller in uniform flow is predicted by surface panel method

    本文應用基於擾動速度勢的低階面元法,擬計算導管螺旋槳在均勻流場中的定常水動力性能。
  18. This paper has presented the calculation formula and numerical solution methods to determine the range and volume of partially cavity, supercavity by using surface panel method, and has predicted the range and volume of unsteady cavitation of propeller by using surface panel method for the first time inland

    本文敘述了應用面元法確定非定常螺旋槳局部空泡、超空泡的范圍和體積的計算公式和數值求解方法,在國內首次應用面元法預報了螺旋槳非定常空泡的范圍和體積。
  19. Since hess and smith invented panel method in 1962, panel method has been widely used as a tool for potential flow calculations, such as one order panel method, high order panel method, b - spline and non - uniform rational b - spline based panel method ( nurbs )

    自從1962年hess和smith提出面元法以來,面元法已經被廣泛用作為勢流計算的工具,並且已經有了很大的發展。如一階面元法、高階面元法、 b樣條方法及非均勻有理b樣條方法等。
  20. Particularly, the parameterized design technology of three - dimensional configuration, the woodward panel method calculating aerodynamic performance, the pixel method calculating the rcs of target ' s surface, the shooting and bouncing race ( sbr ) method calculating the rcs of cavity, and the phase coupling method calculating the rcs of whole missile are researched in this paper

    主要應用研究了用於巡航導彈的參數化三維幾何造型技術、計算氣動性能的伍德沃德面元法、計算目標體表面rcs的象素法、計算腔體rcs的射線跟蹤法與計算整體rcs的相對相位疊加法。
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