流量噴嘴 的英文怎麼說

中文拼音 [liúliángpēnzuǐ]
流量噴嘴 英文
flow nozzle
  • : 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
  • : 噴動詞1. (液體等受壓力而射出) spurt; spout; gush; jet 2. (噴灑) spray; sprinkle
  • : 名詞1. (口的通稱) mouth 2. (形狀或作用像嘴的東西) anything shaped or functioning like a mouth 3. (指說話) talk; speak
  • 流量 : rate of flow; flow; runoff; discharge; throughput; (flow) rate; quantity (of flow); flux
  1. Influences of air liquid mass flow rate on spray combustion produced by effervescent atomizer

    氣液質比對氣泡霧化燃燒特性的影響
  2. Through the special studies on impacts to atomizing and humidifying effect from such factors as the firing pin type, centrifugal structure, higher spraying pressure, less aperture, initial water temperature and original state of the air, some conclusions are obtained, such as : the centrifugal nozzle with firing pin type, high pressure and little aperture has bigger air eddy and atomizing angle. the spaying liquid has high velocity. the droplet is small, and the heat and mass transfer velocity is high

    通過對撞針型結構、離心式結構、較高的水壓力、較小的孔徑、水初溫及待加濕空氣初狀態對霧化加濕效果的作用原理的重點分析,得到:撞針型高壓小孔徑離心式具有較大的空氣渦與霧化角,出的液體速高、液滴小、水與空氣傳熱傳質速率高,撞針型結構提高了霧化加濕效率,高壓小孔徑的特點為霧化加濕提供了較大的能,而水初溫的升高會減小水的粘性力和表面張力,從而優化加濕效果。
  3. Ultrasonic has being attracted much attention gradually in fuel atomization because of some specialities of cavitation and infection on liquid flow. in the course of atomization of pitchy oil, especially, does it show greatly its advantage, but its material atomizational mechanism need research ulteriorly. the primary content of this thesis is about adding cantilever reed to effervescent atomizer so as to combine ultrasonic and effervescent. this thesis has discussed ultrasonic some mechanism, ultrasonic dynamical procreator, effervescent and liquid mucosity infection on atomization, at the some time we make some experiments and discuss atomization rule following some machinery parameter and run parameter so as to find some rule about ultrasonic atomization and to rich the research of ultrasonic atomization mechanism. all that will be beneficial to the design about ultrasonic atomization atomizer

    超聲波由於其空化機理及對液體的變性影響等特性,在燃油霧化燃燒中逐步引起人們的重視,尤其在重渣油等高粘度液體的霧化過程中逐步顯示出其優越性,但其具體的霧化機理還需要做進一步的研究在氣泡霧化基礎加入懸臂式簧片哨,將超聲波與氣泡霧化相結合是本文討論的主要內容本文從研究超聲波的一些機理入手,討論了超聲動力發生器氣泡霧化以及液體粘度對霧化質的影響,並通過具體的實驗,根據實驗數據來討論霧化質隨各種結構參數運行參數的變化規律,以便找到超聲霧化的一些規律,豐富對超聲霧化機理的研究,對超聲霧化的設計具有一定的指導意義。
  4. Measurement of gas flow by means of critical flow venturi nozzles

    用臨界文丘里測定氣體
  5. Gas flow by means of critical flow venturi nozzles, measurement of

    利用臨界文氏流量噴嘴氣體
  6. Measurement of fluid flow by means of pressure differential devices inserted in circular cross - section conduits running full - nozzles and venturi nozzles

    用插入圓截面管道中的壓差裝置測.和文杜利
  7. Measurement of fluid flow by means of pressure differential devices - guidelines for specification of nozzles and orifice plates beyond the scope of iso 5167 - 1

    用壓差裝置測. iso 5167 - 1規定范圍之外的和節孔板規范指南
  8. The nozzle diameter and the ejection pressure have a great effect on the flow rate 、 droplet cone shape 、 droplet size and cover area of fluid pesticide

    孔徑和出壓力在很大程度上影響著藥液的特性、霧錐形狀、霧滴大小和覆蓋面積。
  9. According to the experimental data of droplet size 、 particle spectrum range 、 droplet cone shape 、 flow rate 、 cover area and cover area rate which obtained through changing the pressure of power sprayer and the nozzle diameter in greenhouse , this paper made comparative analysis on atomizing performance in same pressure and different nozzle type between same nozzle type and different pressure. the conclusion is that : the ejection rate and the droplet cone shape change with the variation of pressure and nozzle diameter , average particle diameter decreases obviously and particle quantity increases obviously with the increase of pressure and decrease of nozzle diameter. these results will lay experimental foundation for precise spraying 、 low pollution and highly effective operation

    本文根據溫室內動力霧機壓力與孔徑的變化影響霧滴大小、粒譜范圍、霧錐形狀、、覆蓋面積及覆蓋面積率的試驗數據,對相同壓力下不同型號和相同型號時壓力不同時的微粒化性能進行對比分析和研究,得到如下結論與霧錐形狀隨著壓力和孔徑大小變化而變化;平均粒徑隨著壓力的增加和孔徑的減小而明顯減小;粒數隨著壓力的增加和孔徑的減小而明顯增多,為精、低污染、高防效的防除作業奠定了實驗基礎。
  10. When the water - air ratio increases, air ' s changing quantity of enthalpy and absolute humid will be enhanced. at last, the paper analyses the data from single factor experiment by mathematics method and gets relationship formulas about the nozzle flux, valid humidifying quantity and air ' s enthalpy changing quantity

    最後,對上述單因素試驗得到的數據進行數學分析,運用線性回歸分析、多項式回歸分析和非線性回歸分析的數學方法,得到影響撞針型高壓小孔徑離心式、有效加濕和空氣焙變的數學關系式。
  11. Focusing on the performance evaluating and the design of tripropellant injector, adopting the cold test rig with background pressure supply, malvem particle analyzer, ccd photography system, tripropellant hot test - bed, numerical simulation software and auxiliary theoretical a nalysis, the d ischarge c haracteristic a s w ell a s a tomization p erformance o f the injector and the combustion performance as well as the mode - transition characteristic of thrust chamber are studied detailedly based on the 3 different structures of coaxial tripropellant injector, large numbers of important conclusions are gained

    本文圍繞三組元的性能評定及設計方法。採用反壓冷試臺、馬爾文測粒儀、 ccd高速攝影系統、三組元發動機熱態試驗臺、數值模擬程序及輔助理論分析等多種技術手段和研究方法,對三種結構的同軸式三組元深入進行了特性和霧化特性、推力室燃燒性能和轉工況性能研究,得到了大重要結果。
  12. Low frequency micro - vibration causes the micro - fluid to produce uniform dispersion and injection which carried out a hydrophobization treatment on the inner wall of micro - nozzle, thus eliminated the spontaneous flowing of micro - fluid inside the micro - nozzle due to wet ting effect so as to let the micro - injection be provided with a digitalized and volume controllable character

    壓電陶瓷低頻微振動使得微體產生均勻的離散和射;對微內壁進行疏水化處理,從而消除微體由於濕潤作用在微內部的自發性動,使得微射具有數字化可控的特徵。
  13. Later, the paper ascertains how the prominent factors influence the humidifying effect by single factor experiment and got such solutions : when other situations do n ' t change, the nozzle flux will enhance with the increase of the nozzle aperture and spraying pressure. air ' s changing quantity of enthalpy and absolute humid, valid humidified quantity, humidifying efficiency and saturation efficiency will enhance with the increase of the initial water temperature. with the enhance of the praying pressure, the valid humidified quantity and air ' s changing quantity of enthalpy will increase first and decrease later, while the humidifying efficiency will drop

    然後通過單因素試驗確定影響顯著的因素如何作用加濕效果,得到:在其他條件不變的情況下,孔徑和水壓力的升高而增大,空氣焓變、絕對濕度差、有效加濕、加濕效率及飽和效率隨水初溫的升高而提高,有效加濕和空氣焓變水壓力的升高先增加然後有所下降,而加濕效率隨水壓力的升高而下降,焓變和絕對濕度差隨水氣比的增加而增大。
  14. Measurement of fluid flow by means of orifice plates, nozzles and venturi tubes inserted in circular cross - section conduits running full

    裝置用孔板和文丘里管測充滿圓管的
  15. Regarding how to design the valve structure, material choosing, design methods, for instance, how to design the pressure - releasing valve, and how to design the nozzle of the valve

    電站旁路閥,高溫高壓閥,減溫減壓閥,調節閥,最小閥等結構,材料,設計方法。如減壓閥的設計,的設計。
  16. Measurement of fluid flow in pipes using orifice, nozzle, and venturi - part 1 - general

    用孔板和文杜利計測管道中液體.第1部分:總則
  17. Measurement of gas flow by means of critical flow venturi nozzles iso 9300 : 2005 ; german version en iso 9300 : 2005

    用文杜利臨界流量噴嘴氣體
  18. Measurement of fluid flow in pipes using orifice, nozzle, and venturi - part 2 - orifice plates

    用孔板和文杜利計測管道中液體.第2部分:孔板
  19. Longradar offer approximate ten thousand of products of pressure, vacuum, flow, air velocity, temperature, humidity, level and valves, which are commonly applied in the fields of industrial automation, hvac, building autoimmunization control, electric power, petroleum, chemical industry, boilers, water treatment, compressors, freezing refrigeration, food brewage, pharmacy, light industrial, environmsent protec - tion, clean industry etc

    在上游安裝一個帶有蛋形格柵的橢圓形,可以提供一個精確構造簡單的空氣體積測系統。在的出口,空氣釋放時的風速分配是一致的靜壓為零。因此,上游的總壓力是出的速度壓力-於是就容易計算體積了。
  20. ( 2 ) base on the analysis of the atomizing principles of spray nozzle, mathematical model of combined spin - flow pressure spray drying was set up and the essential parameters such as spraying pressure, liquid quantity, temperature, spraying angle, inject distance, particle diameter and distribution, hollow diameter for several materials in normal conditions by experiment and ldv

    ( 2 )對旋式組合壓力射霧化機理加以分析,建立了旋霧化的數學模型,採用冷態試驗法並藉助激光霧滴測試等實驗裝置對的霧化參數(如霧化壓力、、料液溫度、霧化角、霧距、霧滴直徑和分佈以及的空芯半徑等)進行測和計算。
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