通过这台呼吸机,医护人员就能向新生儿口中输送气体。
Through this ventilator, medical personnel will be able to carry the gases to the newborn population.
效率高、噪音低、无脉动、输送气体中不含油气,振动极微。
High efficiency, low noise, no pulsation, air conveyed carrying no fuel, marginal vibration.
用来输送气体或使气体增压的泵类称为压缩机、鼓风机或风扇。
Pumps used to transport or pressurize gases are called compressors, blowers, or fans.
对气体进行压缩的目的是输送气体或者为化学反应创造必要的条件。
The purpose of the gas compression is conveying gases or for chemical reaction to create the necessary conditions.
管道运输,是指通过管道设施输送气体、液体、固体物资的运输业务。
Pipeline transportation refers to the transport business of delivering gas, liquid and solid materials through pipeline facilities.
该气体源传送气体给该阀,该气体为大气气体或反应气体而且受控于该控制器。
The gas source is delivered to the valve; the gas is atmospheric gas or reactive gas and is controlled by the controller.
本文研究了不同的输送气体、喷涂距离、喷涂粒子材料和粒径大小对喷涂效果的影响。
In this thesis, the effect of different carrier gas, spraying distance, particles' size and material on the spraying has been investigated.
在粉料输送管道磨损问题中,研究了粉料粒度、输送浓度和输送气体压力对磨损量的影响。
Of the problems of tube wear with powder, the influence of particle size, concentration and pressure of carrier gas on erosion was studied.
管道运输在输送气体、流体、浆体等方面具有独特的优势,已成为继铁路、公路、水路、航空运输之后的第五大运输工具。
With the unique advantage of transmitting gas, liquid and slurry, pipeline has become the fifth important conveyance after railway, highway, waterway and voyage.
针对中国石油天然气管道局中标的泰国WANG NOI KAE NGKOI酸性天然气管道输送工程以及输送气体介质情况,选用超低硫和低镍钢的钢管。
Regarding to WANG NOI KAENG KOI acid pipeline project won by CPPC, transmitting gas has been analyzed and low S and low Ni pipe has been defined.
结果表明压降主要受送气量的影响。加料量的作用与气体循环有关。
The results show that the pressure drop is chiefly influenced by gas flow rate, and the action of added material quantity is concerned with gas circulation.
焊接过程中合适的保护气体及其送气方式也是十分必要的。大量试验表明,激光功率密度、焊接速度、脉冲宽度和脉冲频率四个参数的合理组合是实现不锈钢薄板焊接的关键因素。
The results show that the rational combination of welding parameters such as the laser power density, the welding speed, the pulse frequency and pulse width influence the quality of the weld beam.
焊接过程中合适的保护气体及其送气方式也是十分必要的。大量试验表明,激光功率密度、焊接速度、脉冲宽度和脉冲频率四个参数的合理组合是实现不锈钢薄板焊接的关键因素。
The results show that the rational combination of welding parameters such as the laser power density, the welding speed, the pulse frequency and pulse width influence the quality of the weld beam.
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