激波捕捉法 的英文怎麼說

中文拼音 [zhuō]
激波捕捉法 英文
shock-capturing method
  • : Ⅰ動詞1 (水因受到阻礙或震蕩而向上涌) swash; surge; dash 2 (冷水突然刺激身體使得病) fall ill fr...
  • : Ⅰ名詞1 (波浪) wave 2 [物理學] (振動傳播的過程) wave 3 (意外變化) an unexpected turn of even...
  • : 捕名詞(姓氏) a surname
  • : 動詞1. (握; 抓) clutch; grasp; hold; seize 2. (使落入手中) catch; capture; arrest
  • : Ⅰ名詞1 (由國家制定或認可的行為規則的總稱) law 2 (方法; 方式) way; method; mode; means 3 (標...
  • 捕捉 : catch; seize
  1. In this paper, high - order accurate weighted essentially non - oscillatory ( weno ) schemes are investigated and their applications in hyperbolic conservation laws are discussed. based on this, a new weno difference scheme which based on dispersion - relation - preserving relation is developed, and representative test cases with this scheme for computational aeroacoustics ( caa ) problems has been implemented and compared in order to test capability of wave capturing ; in addition, weno schemes generally do not converge at high order in the presence of contact discontinuity of euler equations, so a conservative front tracking technique coupling weno schemes and level set method to simulate the translating density profile is presented here, and numerical simulation with this technique for representative test case has been implemented and results show the desired accuracy

    本文研究了高階精度加權基本無振蕩( weno )格式及其在雙曲守恆律方程中的應用,在此基礎上作了兩個方面的工作:一是針對高頻聲問題構造出一種基於保色散關系( drp )的weno有限差分格式,並對計算氣動聲學( caa )問題的代表性算例進行了大量數值實驗,比較了該格式數的能力;另外,針對高階weno格式在處理euler方程的接觸間斷時精度有所降低的問題,研究了利用界面追蹤技術levelset方和高階weno格式相結合的一種守恆追蹤方,並且給出有代表性的密度滑移面問題的算例,得到一致高階精度的數值模擬結果。
  2. The results show that it is the numerical method of high analyzable degree for the hybrid tvd scheme combinated with fvm, and the scheme is not only sufficiently accurate and nonoscillatory, but also capable of treating automatically hydraulic jump

    算例驗證表明:應用組合型tvd ? muscl格式配合有限體積是一種高解析度的數值方,且tvd ? muscl格式對于自動和抑制間斷附近的數值解動十分有效,它對間斷具有高解析度。
  3. And then, in the simulation of three - dimensional, the application of o - type grid and hybrid grid are used in two relatively complicated structures make the total amounts of grids and the time of grid generation reduced greatly. moreover the hexahedron grids are placed in most areas to provide higher precision. through the comparison between the results of two - dimensional and three - dimensional simulation, we knew two - dimensional calculating is not adequate

    本文用簡單、方便的二維模型作為數值計算的起點,使用耦合隱式演算以及先進的v2f湍流模型進行求解,成功地到了,觀察到主氣流從壁面的分離、切換、再附壁等現象,並對計算結果進行了細致的分析,得出一些有意義的結論;在此基礎上,本文在國內外首次對超音速射流雙穩閥的三維流場進行了計算。
  4. Shock - capturing method

    激波捕捉法
  5. An improved finite volume technique and total variation diminish scheme has been presented for solving the numerical problem with complex flow gas and space time processing synchronously, based on analysis of some numerical method for increasing the convergence, precise and strong capture capacity of shock wave

    針對高壓sf _ 6斷路器氣流場求解的復雜性和特殊性,在對常用氣流場數值求解方應用特點分析的基礎上,本文採用改進的有限體積tvd格式進行斷路器氣流場數值求解,提高了解的收斂性、準確性和能力。
  6. From the experiments in hyperbolic conservation laws, we can see that if we only use high resolution shock capturing method in scalar equation, there would have a transition near the interface ; but when coupled with level set method, we can get a sharp interface, the interface is tracked exactly

    通過實驗可以看出,對標量雙曲守恆律方程應甩levelset方后,我們得到了銳利的圖像,界面得到了準確追蹤,而不像高解析度,在界面附近有一個過渡區域。
  7. For scalar equation and system of equations, we build different ghost fields, translate one equation ( system ) into two equations ( system ). we still use high resolution shock capturing method to compute the two equations ( system ) ; level set equation is used to track the interface, and the result of original equation ( system ) is determined by the level set function. thus, we eliminate the numerical dissipation which high resolution shock capturing method cannot avoid near the interface, and the resolution is enhanced

    對標量守恆律方程、守恆律方程組分別構造了一種虛擬區域,將一個方程(組)轉化成兩個方程(組) ,對這兩個方程(組) ,我們仍然使用高解析度格式,而levelset方程用來追蹤間斷的位置,原方程(組)的解最後由levelset函數決定:這樣做彌補了高解析度在間斷附近發生數值耗散的缺陷,提高間斷處的解析度。
  8. In this thesis, we couple high resolution shock capturing method and level set method to compute hyperbolic conservation laws

    本文將高解析度格式與levelset方結合起來計算雙曲守恆律方程(組) 。
  9. High - resolution nnd scheme and fully implicit dual - time stepping method were adopted in the three - dimensional vibrating cascade flow calculation. thus, the correct simulation of the shock in transonic flow and the efficiency of calculation were both taken into consideration

    在三維振動葉柵流動數值模擬中,採用高解析度tvd類型的格式和全隱式雙時間方,保證了對流動的正確模擬,準確地了跨音流動中的,其計算效率非常高。
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