1·Effects of the fusion temperature on optical properties of biconical fibers are experimentally studied.
实验研究了熔烧温度对双锥光纤光学特性的影响。
2·Finally, the optimum plans of increasing the coal ash fusion temperature are recommended for further industrial application by economic comparison.
从成本对比角度,为工业生产推荐了一套提高煤灰熔融温度的最佳方案。
3·The relation between ash-fusion temperature and some factors such as measurement atmosphere, composition of ash and mineral matters were discussed.
论述了煤灰熔融性温度与测试气氛、煤灰成分、矿物组成等因素之间的关系。
4·The article describes the limitation of Texaco pressurized gasification of coal slurry, and also the research result for gasification of Huainan coal with high ash fusion temperature .
概述了德士古水煤浆加压气化的局限性,介绍了淮化在高灰熔点淮南煤气化方面的研究成果。
5·The conclusion is that the ash agglomerating fluidized bed gasification is a most suitable technology choice for handling Chinese coal with high ash, high sulfur and high ash fusion temperature.
结果表明:灰熔聚流化床煤气化技术适合中国高灰、高硫、高灰熔融性温度煤的气化。
6·New correlations for solid-solid transition enthalpy, solid-solid transition temperature, fusion enthalpy and fusion temperature are also established in this work based on the data from literatures.
拟组分的热力学参数采用经验关系式来计算,其中对于正构烷烃的固-固转换焓、固固转换温度、熔解焓以及溶解温度,基于文献资料建立了新的关系式。
7·Fusion within the sun, for example, has made that star burn for more than 4.5 billion years, and given it a surface temperature around 5, 500 degrees Celsius.
比如说,太阳内部的核聚变n使它燃烧了超过45亿年,并且使它的表面温度达到5,500摄氏度。
8·Meanwhile, the paper puts forward the question relating temperature diagnosis to other diagnosis methods by use of information fusion technique.
同时,提出采用信息融合技术将温度诊断与其他诊断方式联系起来的问题。
9·When temperature dips below the optimal fusion level, the individual particle switches back on, reinstating current flow and heat deposition.
当温度骤降低于最优融合水平时,个别电颗子开关激活,恢复电流和升温。
10·This paper presents a temperature measurement system for grain depot based on multi-sensor data fusion, and gives the data fusion algorithm.
提出了一种基于多传感器数据融合的粮库温度监测系统,给出了数据融合算法。