Chinese translation for "喷嘴孔径"

nozzle hole diameter

Related Translations:

最大理论直径孔径:  maxinum theoretical numerical aperture

流速喷嘴:  flow nozzle

喷嘴出口:  jet exitnozzle exitnozzle inlet

排气喷嘴:  discharge burnerexhaust nozzleexhaust steam nozzlegas-discharge nozzle

喷嘴雾化:  nozzle atomizationnozzle atomizing

鱼尾喷嘴:  fishtail spray

环状喷嘴:  annular-jet nozzle

喷嘴损失:  nozzle loss

喷嘴通条:  nozzle cleaner

加速喷嘴:  accelerating jetaccelerating nozzleacceleration nozzleaccelerator nozzle

Example Sentences:

	1.	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 喷嘴孔径和喷出压力在很大程度上影响着药液的流量特性、雾锥形状、雾滴大小和覆盖面积。
	2.	Studies the impact of nozzle aperture , initial temperature and pressure of spray water and initial air state on humidifying effects based on an orthogonal test 摘要通过正交试验确定了喷嘴孔径、喷水初温、喷水压力及空气初状态对加湿效果影响的显著程度。
	3.	Quantitatively analyses the concrete influences on atomizing humidifying performance of the nozzle aperture , initial temperature and the pressure of spray water and the water - air ratio through a single factor experiment 通过单因素试验定量分析了喷嘴孔径、喷水初温、喷水压力以及水气比对雾化加湿的具体影响。
	4.	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 本文根据温室内动力喷雾机压力与喷嘴孔径的变化影响雾滴大小、粒谱范围、雾锥形状、流量、覆盖面积及覆盖面积率的试验数据，对相同压力下不同喷嘴型号和相同喷嘴型号时压力不同时的微粒化性能进行对比分析和研究，得到如下结论喷出量与雾锥形状随着压力和喷嘴孔径大小变化而变化；平均粒径随着压力的增加和喷嘴孔径的减小而明显减小；粒数随着压力的增加和喷嘴孔径的减小而明显增多，为精喷量、低污染、高防效的防除作业奠定了实验基础。
	5.	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 通过对撞针型结构、离心式结构、较高的喷水压力、较小的喷嘴孔径、喷水初温及待加湿空气初状态对雾化加湿效果的作用原理的重点分析，得到：撞针型高压小孔径离心式喷嘴具有较大的空气涡与雾化角，喷出的液体流速高、液滴小、水与空气传热传质速率高，撞针型结构提高了雾化加湿效率，高压小孔径的特点为雾化加湿提供了较大的能量，而喷水初温的升高会减小水的粘性力和表面张力，从而优化加湿效果。
	6.	As to the work about experiment study , at first , the paper makes certain the prominent affecting factors to the automating and humidifying property of this kind of nozzle by orthogonal experiment . by jicha analysis method and fangcha analysis method , the paper got that the nozzle aperture , the initial water temperature and the spraying pressure have prominent effect to the humidifying property while the effect of the original air state is small 试验工作方面，首先通过正交试验确定对撞针型高压小孔径离心式喷嘴雾化加湿性能影响显著的因素，运用极差分析法和方差分析法，得到喷嘴孔径、喷水初温和喷水压力对喷嘴的加湿性能影响显著，而待加湿空气初状态的影响相对较小。
	7.	Integrated the work on theory and experiment , the paper provides technical performance material at large about the automating and humidifying character of the centrifugal nozzle with firing pin type , high pressure and little aperture to the manufacture and user . with the valuable reference during the selecting the equipment and ascertaining the parameters , the users could select and control the humid parameter 课题的理论与试验两方面工作相结合，为撞针型高压小孔径离心式喷嘴的雾化加湿性能提供了较为详细的技术性能资料，为生产厂家和用户在设备选型和参数选择过程中，提供了有价值的参考，便于用户正确而经济地选择、控制湿度参数，有效调节喷嘴孔径、喷水初温和喷水压力的大小。
	8.	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 然后通过单因素试验确定影响显著的因素如何作用加湿效果，得到：在其他条件不变的情况下，喷嘴流量随喷嘴孔径和喷水压力的升高而增大，空气焓变量、绝对湿度差、有效加湿量、加湿效率及饱和效率随喷水初温的升高而提高，有效加湿量和空气焓变量随喷水压力的升高先增加然后有所下降，而加湿效率随喷水压力的升高而下降，焓变量和绝对湿度差随水气比的增加而增大。

Similar Words：

"喷嘴绝对等值流" Chinese translation, "喷嘴开启压力" Chinese translation, "喷嘴壳体" Chinese translation, "喷嘴孔" Chinese translation, "喷嘴孔的通过截面面积" Chinese translation, "喷嘴孔数" Chinese translation, "喷嘴控制调节器" Chinese translation, "喷嘴控制阀" Chinese translation, "喷嘴口" Chinese translation, "喷嘴口排气管" Chinese translation