固体颗粒伤害是工业和生产中常见的一种意外伤害。本文收集整理了关于固体颗粒伤害的英语短句和例句,旨在帮助读者更好地理解和应对此类伤害。这些例句涵盖了从预防固体颗粒伤害到处理伤害后的建议,以及对此类伤害的描述和评价。阅读这些短句和例句可以使读者更加了解固体颗粒伤害的危害性,以及如何通过合理的预防和应急措施来减少这类伤害的发生。无论是从工作安全的角度,还是从管理生产过程中的风险,这些例句都将为读者提供有益的参考和借鉴。
固体颗粒伤害,solid particle damage
1)solid particle damage固体颗粒伤害
2)solid particle固体颗粒
1.Effects of ultrasonic wave on the surface properties ofsolid particle;超声波对固体颗粒表面性质的影响
2.Investigation on boiling heat transfer enhancementand anti-scaling process by usingsolid particles;固体颗粒强化液体沸腾换热和抗垢特性的研究
英文短句/例句
1.bridging solid shape暂堵剂固体颗粒形状
2.volatile suspended solids挥发性悬浮固体颗粒
3.soluble fluid loss particle可溶性防滤失固体颗粒
4.oil-soluble wall building solid油溶性造壁固体颗粒
5.non-solid space未填入固体颗粒的空隙
6.surface solids removal equipment地面固体颗粒清除设备
7.one-pass solid removal efficiency一次过滤固体颗粒清除率
8.Drying is used to remove the liquid trapped in the solid structure of a particle.干燥用于除去固体颗粒结构内的湿分。
9.Solids may often be represented by backmix flow.固体颗粒常常可以表示为返混流。
10.The solid particles were filtered from the solution.固体颗粒从溶液中过滤出来。
11.At high gas velocities the circulation of solids becomes appreciable.在高气速时,固体颗粒循环变得显著了。
12.Study on Solid Flow and Heat Transfer of Granular in Moving Beds;移动床中固体颗粒运动与传热的研究
13.Numerical computation of aerodynamic drag coefficient for high temperature particles高温固体颗粒气动阻力系数数值计算
14.Experimental investigation on the interaction between shock wave and solid particles激波与固体颗粒群相互作用实验研究
15.Numerical simulation on solid particle erosion of solid-liquid two-phase fluid in flow controller节流器内液-固两相流固体颗粒冲蚀数值模拟
16.The rapid mixing of solids in the bed leads to nonuniform residence times of solids in the reactor.固体颗粒在床层迅速混合,导致颗粒在反应器中停留时间不均。
17.In aerated flow,solids are fluidized or suspended by the gas.在充气流动中,固体颗粒被气体流化或悬浮起来。
18.A further discussion on the motion of solid body pellets in liquid of revolve旋转液体中固体颗粒运动的进一步讨论
相关短句/例句
solid particle固体颗粒
1.Effects of ultrasonic wave on the surface properties ofsolid particle;超声波对固体颗粒表面性质的影响
2.Investigation on boiling heat transfer enhancementand anti-scaling process by usingsolid particles;固体颗粒强化液体沸腾换热和抗垢特性的研究
3)solid grain固体颗粒
1.Through studying the reasons that solid particle erosion is generated in supercritical turbine during manufacture and operation, take measures by optimization and spray harden in flowing part and flexible application of by-pass system, avoiding to happensolid grain corroding phenomenon effectively.通过研究超超临界汽轮机固体颗粒侵蚀产生的原因,在制造和运行中采取通流部分优化及喷涂硬化、灵活运用旁路系统等防治措施,可有效降低固体颗粒侵蚀现象的发生。
2.Incipient motion ofsolid grain in solid-liquid two|phase flow is often concerned in many petroleum technologies, such as horizontal drilling, gravel-packing and sand washing.水平井钻井、砾石充填及冲砂等作业都涉及到固液两相流动的固体颗粒起动问题。
4)solid particles固体颗粒
1.Analysis of group settling velocity forsolid particles;固体颗粒的群体沉降速度分析
2.Lagrangian model for the motion ofsolid particles and air bubbles in the flow field of an arbitrary incompressible fluid is developed.建立了固体颗粒和空泡在不可压缩流体任意流场中运动的Lagrangian模型,考虑了浓度等因素对固体颗粒和空泡运动的影响,给出了计算固体颗粒和空泡的数值方法,并模拟了一水泵叶轮中的固体颗粒和空泡运动,得出了水泵叶轮流场中固体颗粒和空泡的运动特性,为分析水力机械的磨损提供了可行的数值模拟方法。
3.According to the fact that profile modifier ofsolid particles is always used in the waterflooding profile modification, a numerical simulation is carried out.针对调整注水剖面实践中固体颗粒型调剖剂使用较多这一实际,开展了调剖数值模拟研究。
5)Solid granule固体颗粒
1.Experimental analysis of the pressure-carrying performance of solid granules medium;固体颗粒介质的传压性能实验研究
6)particle[英]["pɑ:t?kl][美]["pɑrt?kl?]固体颗粒
1.In this paper, the dynamic forces acting on theparticles and the radial movement ofparticles in hydrcyclone are studied on the basis of experiment and CFD simulation.在试验和流场数值模拟的基础上,对水力旋流器内部固体颗粒的运动行为进行了具体的研究。
2.Theparticles mixing behavior in the coke-burning riser(186mm ID,height 10m)of a novel combined coke burner was studied through measuring the residence time distributions(RTD)ofparticles by using phosphorparticles as tracers.采用脉冲磷光颗粒示踪法对一套新型组合烧焦装置的烧焦管(内径186mm,高10m)内固体颗粒的停留时间分布进行了测试,研究了烧焦管内固体颗粒的混合特性。
3.In order to research the characteristics ofparticles and its effecting mechanism to lubrication and wear,it is important that show three-dimensional shape ofparticles.为了深入研究固体颗粒污染物的特性以及对摩擦副滑润、磨损影响的机制,确定固体颗粒的三维特征变得十分重要。
延伸阅读
固体颗粒交换系数分子式:CAS号:性质:在剧烈湍动的流化床内,颗粒处于环流中,上升的固体颗粒流相当于尾涡,而下降的固体颗粒流仍是乳化相本身。在两相之间的固体交换速率可近似地取作颗粒进出尾涡的流量。可见气泡尾涡中的颗粒在气泡上升的过程中是不断更新的。吉田等导出计算固体颗粒交换系数K的方程式如下:式中,εmf为床层临界空隙率;δ为流化床内的气泡分率;umf为临界流化速度;db为气泡直径
