泵葉片 的英文怎麼說

中文拼音 [bèngpiān]
泵葉片 英文
pumblade
  • : 名詞(吸入和排出流體的機械) pump
  • : 片構詞成分。
  1. Blade angle adjustment of axial flow pump

    談軸流泵葉片角度調整
  2. In chapter four, according to the analysis on the boundary theory and velocity field of main fluid zone of two - phase fluid pumps, the parameter equations of vane ' s modular curve of centrifugal pump are given, which contact the boundary " layer and eular theory of two - phase fluid pump by the fixing angel of vane as variable and leading into the velocity coefficient a. the results show that, in designing process of vane ' s modular curve of centrifugal pump, the determination of the total shape and parameters relates the flow properties of two - phase fluid and output ability of pump, or the design of the modular curve of centrifugal pump is the kernel of hydraulic design

    第四章依據固液兩相流的邊界層理論及對主流區速度場的分析,給出了離心泵葉片型線的參數方程;它是以安裝角為參變數,以引入的速度系數k _ v作為中間因子,將兩相流的邊界層理論和歐拉理論聯系起來? ?它說明了這樣一個事實,在離心泵葉片型線的設計過程中,它的整個形態或參數的確定都關繫到兩相流體的流動特性和的輸出能力,或者說,離心型線的設計是其水力設計的核心。
  3. Inverse problem design of blade for centrifugal pumps

    離心泵葉片反問題設計
  4. Mainly, the type of pump in the large - scale irrigation and drainage pumping station in our country is adjustable - blade propeller pump. we can regulate the pump ' s blade mounting angle following the variation of water level at the inlet and outlet of the station in order to control the discharge of pump, we also determine the number of running machines with machine ' s optimal combination. so we can reduce its energy consumption, and make it optimally and economically run

    我國大部分大型電力排灌站所安裝的都為可調節的軸流,這一有利條件使我們可以根據排灌站進、出口水位的變化來調節水角度,控制水的流量,併合理的確定開機臺數,通過機組間的優化組合,使整個站的能耗最少,達到整體最優、經濟運行的目的。
  5. It is a vane pump with high head, small flow and low specific speed, which is smaller, flight and simpler in structure than positive displacement pump mulfistage centrifugal pump, and may handle liquid of high gas or steam content

    是一種高揚程,低比速的,比容積式和多級離心體積小、重量輕、機構簡單等優點,並可以輸送氣體或蒸氣含量較輕的液體。
  6. The experiment shows that by changing the velocity coefficient, the separation of boundary layer on pump vane can be controlled, and the performance of pump is improved and its hydraulic efficiency

    實驗證明通過改變型線參數方程中的速度系數的取值,可以控制邊界層的分離,進而改善的性能,提高其水力效率。
  7. Involute profile design of vane in submersible sewage pump

    潛水污水泵葉片漸開線型線設計
  8. The main products of the plant are hydraulic values, vane pumps, gear pumps, piston pumps, cylinders, hydraulic systems and installations. the technical level is the leading level in china and being close to the international level

    榆液廠主要產品有液壓閥柱塞液壓缸液壓站系統及液壓裝置等六大類產品。
  9. Developing for more than 30 years, the plant has 1100 sets of machines and processing equipment, including 773 sets main processing equipment and 44 sets of high precision mcmachines. the plant has total assets 425 million yuan, net assets 106 million yuan, regional fixed assets 159 million yuan, net fixed assets 96 million yuan. the main products of the plant are hydraulic valves, vane pumps, gear pumps, piston pumps, cylinders, hydraulic systems and installations

    榆液廠已擁有機器和加工設備1100臺,主要加工設備773臺,榆液廠主要產品有液壓閥柱塞液壓缸液壓站系統及液壓裝置等六大類產品,企業連續多年被評為山西省優秀企業, 「八五」期間被評為經貿技術改造先進單位。
  10. At present, the plant is the largest base for producing hydraulic component is china and also onto the key enterprises in national engineering industry. there are 2, 258 employees, including more than 500technicians, eleven divisions, one technical developing center and two joint ventures ; yuci yuken hydraulics co. ltd. and yuci yinan hydraulic pumps co. ltd. in the period of

    榆液廠主要產品有液壓閥柱塞液壓液壓站系統及液壓裝置等六大類產品,產品技術水平國內屬領先水平,企業液壓產品生產能力達
  11. Fracture analysis on rotor vanes of a turbine pump working as hydraulic power source

    伺服機構渦輪轉子斷裂失效分析
  12. The pump wheels, turbine wheels, and stators generated by the different blade parameter profiles were compared and the fundamental law of the converter performance versus the blade angle profile was derived

    通過對不同參數變化規律生成的輪、渦輪、導輪的型進行對比分析,總結出液力變矩器角變化對液力變矩器性能影響的基本規律。
  13. 2. effect of nacl treatment on the subunits expressions and activities of h + - atpase and h + - ppase from suaeda salsa northern blot analysis indicated that the transcription of v - h + - atpase subunits b, h and c were obviously up - regulated by nacl stress. the transcripts of mrna of b and h subunits in 400 mmol / l nacl - treated plants were significantly higher than those in control during 0 - 120h and the mrna levels of b, h and c subunits were also increased under 100 and 400 mmol / l nacl treatment

    400mmol lnacl處理鹽地堿蓬植株0 - 120h發現鹽脅迫明顯誘導了鹽地堿鹽脅迫下鹽地堿茨液泡膜質子衷達分析及過量系達印mhxaw對擬甫芥耐鹽性的影響蓬液泡膜h 」 atpaseb 、 h亞基基因表達; 100 、 400mmol lnaci處理鹽地堿蓬植株,分析其液泡膜h 」
  14. The flow equations are solved using finite difference technique. using body - fitted curvilinear coordinate system treated the boundary conditions. by iteratively solving the flow governing equation and the blade equation, the design of axial flow pump impeller in the quasi - three - dimensional rotational flow can be performed according to the angular momentum distribution, the blade which was designed in the lifting method, flow channel and the blade thickness given

    其次在流動無粘性、不可壓及考慮厚度的條件下,依據輪內的流動特性,推導了輪內三維流動周向平均流動控制方程以及方程;在貼體坐標系中,採用有限差分法求解流動方程和方程;在採用升力法設計出的作為初始、給定速度矩分佈、厚度分佈和輪軸面流道幾何形狀條件下,迭代求解流動控制方程及方程,實現了軸流輪的準三維方法設計。
  15. In the first part, the method of velocity coefficient was used to design a 100mm diameter impeller with five single - arc - cylinder blades, and the method of velocity moment was applied to design the volute " s cross - section. the volute " s cross - section is a rectangle, which was designed as a whole structure with the front shroud of the pump. a special lighting window was designed on the side

    在第一部分工作中,設計了一個帶半開式輪的微型輪外徑100mm 、共5單圓弧圓柱形;蝸殼採用速度矩法設計,內為矩形斷面,和殼前蓋板為一整體、透明結構,側面專門設計一個打光窗口。
  16. Operation, leaves the air by centrifugal force intermediate role to the brink of incompetence impeller movement into bengti circular cavity at, and then returned to impeller, re - starting from the leaves of the cycle in the same way again

    運轉時中間的空氣受到了離心力的作用,向輪的邊緣無能運動,進入體的環形空腔,然後又返回輪,重新從的起點以同樣的方式再進行循環。
  17. Study on 3d solid modelling for centrifugal pump blade of impeller

    離心輪扭曲參數化實體造型方法探討
  18. The method takes advantage of bezier curve to work out a set of blade profiles of centrifugal pump, using thickening law to thicken the profiles. then the pressure and suction lines of the blade can be obtained. it takes advantage of bezier surface to create pressure and suction surface and makes use of mdt software to create the three - dimensional blade entity

    首先採用速度系數法計算得到離心輪的基本參數,再由b zier曲線生成一組型線,按照加厚原理對型線進行加厚,得到正背線,再採用張量積b zier曲面生成正背面,由mdt進行三維實體造型得到,從而得到流場計算區域的模型。
  19. Prospect of genetic algorithm to optimization design of blade for centrifugal pump impellers

    遺傳演算法在離心泵葉片優化設計中的應用
  20. Based on the theory of boundary layer and analysis of the velocity field of main flow, the thesis also derives the vane shape equation. in the equation, ( angle of pump vane ) is variable parameter, ( velocity coefficient ) is introduced as medium factor, which connects the theory of boundary layer with the eular theory. it provides a valuable reference for the designation of vane of pump

    基於離心泵葉片邊界層理論和對主流區速度場的分析,給出了離心泵葉片型線參數方程,它以角為變參數,引入速度系數作為中間因子,將邊界層理論和歐拉理論聯系起來,並在離心輪的設計過程中統一起來,能夠在設計中就根據實際的需要防止或控制過流表面的邊界層的分離。
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