水流橫向力 的英文怎麼說

中文拼音 [shuǐliúhéngxiàng]
水流橫向力 英文
cross-flow force
  • : 名詞1 (由兩個氫原子和一個氧原子結合而成的液體) water 2 (河流) river 3 (指江、河、湖、海、洋...
  • : Ⅰ動1 (液體移動; 流動) flow 2 (移動不定) drift; move; wander 3 (流傳; 傳播) spread 4 (向壞...
  • : 橫形容詞1. (蠻橫; 兇暴) harsh and unreasonable; perverse 2. (不吉利的; 意外的) unexpected
  • : Ⅰ名1 (力量; 能力) power; strength; ability; capacity 2 [物理學] (改變物體運動狀態的作用) forc...
  • 水流 : 1. (江河) rivers; streams; waters2. (流動的水) current; water flow; fluent; flow; [水文] stream current
  • 橫向 : broadwise; infeed; crossrange; abeam;transverse; transverse direction; cross; crosswise; lateral;...
  1. Cross - flow force

    水流橫向力
  2. Treating the soil as a two - phase mixture and considering the interactive influence of seepage and solid deformation, this paper analyzes the dynamic impedance of group piles in layered saturated porous media by indirect boundary element method and investigates the effects of pore fluid in saturated soils on dynamic impedance of piles

    摘要將飽軟土地基視為兩相介質,考慮的滲和土骨架變形的耦合作用,用間接邊界元法分析層狀飽軟土地基中受荷群樁動阻抗,探討飽和土中孔隙體對飽和土中受荷群樁動阻抗的影響。
  3. The computations are shown to agree well with available experimental and numerical data and the physics of 3d large - scale flow separations and vortex shedding are confirmed. the simulation of the flow around a maneuvering wigley hull is a demonstration of capability for calculations of sway forces and yaw moments acting on a hull moving obliquely at a large range of yaw angles. the focus of study is large - scale cross - section separation flows, bilge - vortex development along the hull in the longitudinal direction and their effects on hydrodynamic forces

    應用所開發的求解器,以wigley船型為算例計算了大角度斜航船體粘性場和,分析了漂角的變化對船體所受到的粘性的影響,相當精確地預報了以分離和般渦生成與泄出為特徵的操縱運動船體特有動形態及和轉脂矩,經與現有試驗和計算數據比較,檢驗和驗證了該求解器精確模擬繞斜航運動船體的大尺度分離動和計算非線性的能
  4. By use of grid - shaping skill and multi - grid solver, the flow - induced vibration of the fluid - conveying pipe in water is studied. the vibration mechanism of the fluid - conveying pipe in water is analyzed, the lift and drag acting on pipe in water are calculated. the results obtained are analyzed and compared to the experimental data referred to

    首先對下輸液管道繞渦激振動的機理進行了分析,然後,利用網格生成技術及多重網格法求得了輸液管道在不同來條件(雷諾數)下的系數及縱系數,最後對計算結果進行了分析,並將其與已有的間接實驗結果進行了對比。
  5. Although the canal conduit capacity does not change very much than design discharge, the canal erosion due to many years scour already damaged the canal stability. therefore, taking efficient measures should protect the canal

    然而對于北部引嫩渠道來說,盡管大部分渠道在設計量下輸並沒有什麼明顯的損失,但渠道的坍塌拓寬已危及堤岸的安全,應及時採取防治措施加以治理。
  6. With the development of productivity and the improvement of science and technology, the constant elevation of consume standard, the more and more fierce competition between enterprises and the huge change of economy politics and society environments largely enhanced the incertitude of market, hence enterprises transformed their managements mode from vertical integration to horizontal integration in succession, supply chain management ( scm ) is typical representation of horizontal integration management idea. scm has been introduced to our country last years, but concerned departments of government and some enterprises seriously paid attention to it. as the important part of scm, logistics is the essential key for success or failure of scm

    隨著科學技術的進步和生產的發展,顧客消費平不斷提高,企業之間的競爭日益激烈,加上經濟、政治和社會環境的巨大變化,使整個市場的不確定性大大增加,於是企業紛紛將「縱一體化」管理模式轉變為「一體化」 ,供應鏈管理就是「一體化」管理思想的一個典型代表。供應鏈管理引入我國是最近幾年的事,但是受到了政府有關單位和企業的高度重視。而物作為供應鏈管理的重要組成部分,對供應鏈管理的成敗起到至關重要的作用。
  7. The mechanisms of flow - induced vibrations of the fluid - conveying pipes on offshore platform and in water are analyzed, the physical models and mathematical models of flows in pipes on offshore platform and in water are established, with the programs of numerical simulation, the flow of vibrating pipe, the force of flow - induced vibration in pipe on offshore platform and the lift and the drag of flow acting on the fluid - conveying pipe in water are solved, and the linear solution for equation of vibrating fluid - conveying pipe in water with the fixed supports in two ends is derived

    分析了海洋平臺及下輸液管道的體激振機理,建立了相應條件下的物理模型及數學模型,應用matlab軟體編制了計算程序,對海洋平臺輸液管道內場、管道所受體激振下輸液管道繞及縱)分別進行了求解,並推得了兩端固支條件下下輸液管道強迫振動方程的線性解。
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