| 1. | Temperature measurement techniques for microfluids
微流体温度测量技术 |
| 2. | Theoretical analysis of temperature changing rule of parallel and counter flow
顺流及逆流流体温度沿程变化规律的理论研究 |
| 3. | Theoretical research for improving temperature distribution of fluid in wellbore using heat pipe
热管改善油井井筒流体温度分布的理论研究 |
| 4. | If the fluid temperature is too high or contains the erosive substance , it would break the hoses
流体温度过高或流体带腐蚀性成份,可能会令软管破裂。 |
| 5. | Establishment and application of a model for predicting fluid flowing temperature distribution in the multiphase flow pipeline
多相管流流体温度分布计算公式的推导与应用 |
| 6. | Although the phere will normally dissolve in a few hours , the dissolving rate is a function of fluid temperature , fluid movement , friction , and absorbability of the crude
尽管正常情况下清管器会在几个小时内溶解,但溶解率是关于流体温度、流体移动、摩擦和原油吸收力的一个函数。 |
| 7. | These anomalies might be due to the temperature variation of subsurface fluid that caused by transmission of long cycle waves through upper mantle or asthenosphere before the earthquake
水温异常出现的原因可能是由于地震前的长周期波通过上地幔或软流层传播,间接地导致了地下流体温度发生了微小的变化。 |
| 8. | In the past , piezoelectricity transducer was adopted usually in the ultrasonic flowmeter development , so in higher temperature , for example , exceeds 150 " c , the measurement was not carried out
以往的超声流量计均采用压电超声换能器进行测量,这样在被测流体温度较高,超过150的情况下,就无法进行测量了。 |
| 9. | Analyzing of the heat transfer in microchannel heat sinks , finite element method is used to calculate the surface temperature , fluid temperature and the total thermal resistance of microchannel heat sinks with arbitrary base heat flux distribution
在对微管道散热器进行传热分析时,本文利用有限元法在微管道底壁热量任意分布的情况下,计算了微管道的壁面温度和流体温度分布,最终得到了总热阻值。 |
| 10. | 7 the investigation of the thermoeconomic performance of an existing facility used for thermal fatigue experiments of aircraft canopy reveals the possibility and practicability of taking measures to improve it significantly . a piping system with alternative variation of flow temperature exists in this facility
对一现行的飞机座舱盖热疲劳试验系统? ?即流体温度升降交替变化的管路系统,进行了热经济行为的研究,揭示出它具有潜在与可行的重大改进方向和途径。 |
