熱流量測孔 的英文怎麼說

中文拼音 [liúliángkǒng]
熱流量測孔 英文
heat-flow bole
  • : 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...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • : 動詞1. (測量) survey; fathom; measure 2. (測度; 推測) conjecture; infer
  • 熱流 : 1 (激動振奮的感受) warm current 2 [氣象學] thermal current; [熱學] heat transmission; thermal f...
  • 量測 : measuration量測精度 accuracy in measurement
  1. When in experiment, the air was heated by the film heater installed on the above and below surface of channel, adopting various air velocity of flow, test import ' s and export ' s temperature, wall temperature, fluid flux and the drop of pressure, and the other parameter. adopting nu and nu0 to analyze the baffle ' s situation of heat transfer and fluid flow, which baffle was holed various diameters

    實驗時,通過矩形通道上下壁面敷設的電加膜加通道空氣,改變空氣速,試不同工況時的進出口溫度、壁面溫度、和壓力損失等參數,並採用無綱努謝爾特準則數nu 、 nu _ 0等分析了設置不同開板的換動情況。
  2. In this paper, we aim at establish heat and mass coupled transfer model in the building wall, the emphasis of this study lies in creating a coupled and non - linear diferential equation system for the heat air and moisture transfer in the wall, which can be described by means of continuum mechanics and irreversible thermodynamics, the most dominant factor is moisture conten 9la gas pressure pc and temperature t, for the description of heatair and moisture transport, the general mass balance equation can be expressed by the temporal change of moisture conten 9 l, gas pressure pc and temperature t that means, in order to create a closed solvable equation system, the other additional dependencies have to be found, which the other variable depending on the variables of the solution : moisture conten 6 l gas pressure pc and temperature to the model is verified by the numerical simulation software which has been developed about building wall.,

    根據節能設計要求,本文用力學的方法,並根據多介質中多相動描述方面的最新研究成果? ?體積平均方程,建立了墻體、濕和空氣耦合質傳遞模型,並推導出、濕和空氣耦合傳遞等效擴散方程;找到建築墻體、濕及空氣耦合作用下質傳遞過程的主要影響因素濕容_ l 、氣壓p _ c和溫度t 。開發了單體材料墻體質傳遞數值模擬軟體,用實數據對軟體進行調試並對模擬計算結果進行了驗證。模擬出了單材料墻體在、濕和空氣耦合作用下建築墻體內的溫度和濕度分佈規律。
  3. Measured hole mass flows and a constant static pressure mixing analysis, together with the measured losses, allowed the decomposition of the losses into three distinct entropy generation mechanisms : loss generation within the hole, loss generation due to the mixing of the coolant with the mainstream, and change in secondary loss generation in the " blade passage

    論文還進行了葉片冷卻與常靜壓氣混合分析,結合前述氣動力損失和冷卻空氣損耗的結果表明,端壁氣膜冷卻的綜合損失明顯地由三個部分組成:葉片冷卻內產生的損失;由於冷卻空氣與主空氣的混合產生的損失;二次的變化產生的損失。
  4. The distribution of the mass flow rate, the heat transfer coefficients and the film effectiveness of cylindrical holes was measured. the influence of mainstream reynolds number, blowing ratio and the position of holes on flow rate, the heat transfer coefficients and the film effectiveness was studied greatly

    了氣膜系數、氣膜下游換系數和冷卻效率的分佈,重點研究了主雷諾數、二次吹風比以及排位置對氣膜系數、氣膜下游的換系數和冷卻效率的影響。
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