冷却水流量 meaning in English
cooling water flow rate
Examples
- In order to guarantee inside and outside quality of ingot and dragging speed , parameter supervising of temperature , dragging speed , cooling water flux and fiction force between ingot and cooling model is needed
为保证铸坯内外部质量和较高的拉坯速度,需要检控的参量有温度、拉坯速度、冷却水流量和铸坯与结晶器的摩擦力等。 - The results indicate that the qualitative behavior in this process is similar to that observed in condensation of vapor at or above atmosphere pressure , the coefficient of heat transfer for condensation in tube , the coefficient of heat transfer in total increase with the increasing of heat flux density and vapor pressure . however , heat flux density and vapor pressure have a more significant effect on them
发现水平管内低压蒸汽冷凝过程与常压条件下蒸汽冷凝过程相同,管内冷凝传热膜系数、总传热系数随热流密度、蒸汽压力的增大而增大,但热流密度、蒸汽压力对低压蒸汽冷凝有着更为显著的影响,管外冷却水流量对其影响并不明显。 - The interactions between heat flux density , vapor pressure , vapor velocity and the coefficient of heat transfer for condensation in tube , the coefficient of heat transfer in total are investigated . the relationships between heat flux density and the total difference in temperature , the difference of temperature , pressure drop of vapor from the entrance of the tube to the exit are investigated as well
考察了冷却水流量、温度恒定条件下热流密度、蒸汽压力、蒸汽流速对冷凝传热膜系数及总传热系数的影响关系,同时考察了总传热温差、蒸汽进出口温差及压差随热流密度变化的关系。 - In order to decrease heating of driving coil , the structures of electromagnetic circuit and offset magnetic circuit in actuator are carried out design calculation and experimental study , and the shapes of them are optimum designed . the effect of
研究了驱动线圈的发热对执行器的微位移精度的影响,在驱动线圈内部设计了冷却水箱以抑制其发热,给出了冷却水流量的计算公式,闲除了冷却水循环系统;以所u的磁场与位移感知型超磁致伸缩微位移执行器为核心,构成其微位移驱动系统。 - Measurements were made of system pressure , mass flow rate of steam , air , and cooling water , temperatures of condensing flow and cooling flow , and the water level of boiler . the major phenomena observed in the present experiment are similar to those by other investigators . the mass flow rate of steam , the system pressure and air content are the most important factors affecting steam condensation
实验结果表明,维持二次侧冷却水流量不变,无论对于纯净蒸汽还是含有空气的蒸汽冷凝,随着蒸汽发生器加热功率的增大(即蒸汽流量增大) ,有效冷凝段长度将加长;当蒸汽中含有少量空气,有效冷凝段长度也会明显加长;提高系统压力,有效冷凝段长度将缩短。