喷嘴出口的英文

• jet exit
• nozzle exit
• nozzle inlet

• "喷嘴"英文翻译    spray nozzle; spray head; ni ...
• "出口"英文翻译    exit
• "喷嘴出口截面" 英文翻译 :    jet area
• "喷嘴出口面积" 英文翻译 :    exit area of nozzle; outlet area of nozzle
• "喷嘴出气角" 英文翻译 :    nozzle outlet gas angle
• "喷嘴出汽边" 英文翻译 :    nozzle edge
• "果园喷灌管嘴出口阀" 英文翻译 :    orchard valve
• "出口喷嘴" 英文翻译 :    discharge jet; outlet nozzle
• "喷嘴排出口" 英文翻译 :    nozzle outlet
• "喷嘴叶栅的出口角" 英文翻译 :    guide angle
• "有锥形出口的喷嘴" 英文翻译 :    conical-flame burner
• "喷嘴" 英文翻译 :    spray nozzle; spray head; nipple; injector; [机械工程] nozzle; jet nozzle; orifice
• "喷嘴不足膨胀背压低于出口设计压力" 英文翻译 :    underexpansion
• "误动嘴出分析器" 英文翻译 :    malfunction detection analyzer
• "出口" 英文翻译 :    1.(说出话来)speak;utter:如果你认为那不公平, 为什么不说出口? if you thought that wasn't fair, why didn't you speak up?2.(出口处) exit; exitus; way out 会场出口 the exits of a conference hall3.(本国或本地区的货物运出去; 输出) export 出口大米 export rice; 黄金出口 the export of gold4.(排出端) exhaust; outfall; outlet; egress; discharge point; vent
• "入口喷嘴；喷嘴" 英文翻译 :    inlet nozzle
• "泵喷嘴" 英文翻译 :    pd
• "侧喷嘴" 英文翻译 :    side jet
• "单喷嘴" 英文翻译 :    in one piece nozzle; one-jet; single injector; single nozzle; single orifice; single-jet
• "倒喷嘴" 英文翻译 :    astern nozzle
• "多喷嘴" 英文翻译 :    multiinjector; multinozzle; multiple jet
• "反喷嘴" 英文翻译 :    reversed nozzle
• "复喷嘴" 英文翻译 :    made in several piece nozzle
• "量喷嘴" 英文翻译 :    flow nozzle
• "墨喷嘴" 英文翻译 :    ink jet nozzle

• Greater temperature gradient and higher thermal stress were the main reason that caused the failure of the exit surface of the cws ceramic nozzle
  根据对陶瓷水煤浆喷嘴磨损形貌、温度分布和热应力的分析，得出陶瓷水煤浆喷嘴出口处较大的温度梯度和热应力是导致其出现破损和脱落的主要原因。
• The effect of the height between nozzles and ground plate , the distance between the nozzles , the inlet velocity of the nozzles , and the velocity of the cross flow on the flowfield structure were studied one by one
  分别就喷嘴距地面高度、喷嘴间距、喷嘴出口速度、横向流等，对喷射垂直撞击平板流场的影响，逐一讨论。
• The influences of the inlet tube angle , backpressure and driving jet velocity on static pressure distribution in the gas - solid injector are calculated , and the effects of the inlet tube angle on particle bulk phase concentration and axial mean speed of particles in the gas - solid injector are analyzed firstly . the predicament caused by lack of measuring means on the particle velocity in experiments is solved
  分析了收缩角、背压和气体喷嘴出口速度对气固喷射器内静压分布的影响，以及收缩角对气固喷射器内固体颗粒体积浓度场和颗粒平均速度的影响，解决了喷射器内固体颗粒速度试验测试手段缺乏的困境。
• A reasonable position of driving nozzle helps to achieve the maximum material flow that also depends on other parameters such as backpressure , properties of conveyed material and driving gas . it is observed that , an increase of convergent section angle is harmful to the pneumatic conveying system , and also influences on the mass flow rate of conveyed material , the distribution of static pressures in injector and the pressure drops of conveying pipe . in addition , within a reasonable scope of air mass rate , increasing the driving jet velocity is more advantageous than enlarging the dimension of driving nozzle
  试验研究发现，气体喷嘴位置对气固喷射器的输送能力影响最大，气体喷嘴存在某一最佳位置，而这一最佳位置与背压、输送物料特性和输送风特性相关联；气固喷射器的收缩角对其输送能力、内部静压分布和输送管阻力特性均有适量影响，收缩角增大对整个输送系统均不利；在适当的输送风范围内，提高气体喷嘴出口速度比扩大气体喷嘴尺寸更为有利，但气体喷嘴出口速度过高会增加气固喷射器和输送管内的能量损耗，给输送带来不利的影响；系统背压与气固喷射器的气体喷嘴出口速度的选取有关。
• It was found that the ultra - fine powder can flow smoothly in a spouted bed with a draft tube under some sorts of design parameter and operating condition , thus a new effective method to improve fluidization quality of the ultra - fine powders is obtained ; at higher supplied gas velocity , an increase in the solid circulation rate is observed ; the extent of the distance between the nozzle and the draft tube inlet result in the promotion of the solid circulation rate ; the solid circulation rate increase with increasing the draft tube diameter or the bed mass ; the gas bypassing is nearly zero in the present work ; and the solid flow in the annulus is observed as a moving bed
  结果表明：在一定的床层结构和操作条件下，超细粉可以在导向管喷动床中实现平稳流化，从而为改善超细粉的流化质量提供了一种有效的新方法；固体循环速率与喷动气流量、导向管直径、导向管底部与喷嘴出口间距以及床层装填量成正比；气体则基本上不存在“旁路”现象；环隙区中的颗粒流动表现为一移动床特征。
• The shearing layer is carried by the jet and the eddy is formed because of the instability and selective amplification of shearing layer which will propagate to the downstream . as the eddy impacts the impinging wall , a wave of pressure disturbance with certain frequency is induced . this wave then propagates to the upstream with high speed , and results in the overlap and amplification of the waves when the frequencies of them are close with each other
  当前喷嘴流束中的不稳定扰动波在穿过腔内的剪切层时，剪切层对其有选择放大作用，形成涡环结构，剪切流动中涡环与碰撞壁撞击，在碰撞区域产生压力扰动波并向上游反射，在上游剪切层分离处诱发新的扰动的产生，当新扰动与原扰动匹配时，射流上游就被不断地受到周期性激励，腔内就产生流体自激振荡并在后喷嘴出口形成脉冲射流。
• The research indicates that the orifice jet in mixing conditions has many different points from the pipe jet . focusing on the jet ejected from the orifices of different diameters and lengths , this paper studies the orifice jet when the fluid upstream of the orifices is in mixing conditions . the main purpose is to qualitatively study the effect of orifice diameters and lengths on the spread of the jet
  射流是在工程实际中广泛存在的一种流动现象，喷嘴出口的流动状态对射流的发展有很大的影响，前人对射流的研究主要集中于喷嘴前流体是完全发展管流的情形，本文研究了全混状态下的板式射流，研究结果表明全混状态下的板式射流具有很多不同于管射流的特点。