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1)  rapidity windows
快度窗口
2)  pseudorapidity window
赝快度窗口
1.
The regularity that the average maximum charged particle density in a selected pseudorapidity window (Δη=0.
观察到在选择的赝快度窗口(Δη=0。
3)  snapshot window
快照窗口
1.
Reservoir algorithm is used to sample from these single data stream respectively,then some multiple snapshot windows are constructed,the relationship between these single data stream and multiple snapshot windows is bijective mapping,the relationshi.
针对以元组为单位流入的具有相同属性集的多支单数据流组成的多数据流,提出了分别对每支单数据流进行蓄水池抽样,构造一一对应于各单数据流的若干个多快照窗口,即两者之间是双射关系,可以将多快照窗口串行置于主存中,将元组包含的属性与多快照窗口中的各个快照窗口一一对应,且使得同一快照窗口中的各基本窗口与取自其对应的单数据流的属性值样本一一对应,然后对这些相互独立的样本进行方差分析。
4)  pop-up window
快显窗口
5)  temperature window
温度窗口
1.
To study the influences of methane on selective non-catalytic reduction (SNCR), the condition of flue gas composition was simulated on a drop tube furnace test rig, and the influences of a few of methane on SNCR temperature window, NOx reduction efficiency and ammonia slip from 650℃ to 1 150 ℃ were investigated, as well as reactivity of methane.
为研究甲烷对选择性非催化还原(SNCR)脱硝反应的影响作用,在沉降炉实验台上模拟锅炉烟道内的反应环境和烟气成分,在650~1150℃范围内,研究了微量甲烷对SNCR反应温度窗口、脱硝效率和氨泄漏的影响,以及甲烷在脱硝过程中的反应特性。
2.
By using advanced commercial software CFX-TASCFLOW imported from abroad,a numerical simulation of said combined application on the W-shaped flame boilers of 300 MW unit in one power plant has been carried out,the key parameters suitable for temperature windows of SCNR being precisely calculated and analysed under different optimized combustion modes.
用国外先进商业软件CFX-TASCFLOW对某电厂300 MW机组W火焰锅炉采用低NOx燃烧与SNCR技术联合应用进行了数值模拟,重点对不同优化燃烧模式下适合于SNCR温度窗口的关键技术参数进行了准确的计算分析。
6)  window width
窗口宽度
1.
Reading rates of normally sighted subjects were assessed and compared with the effects of window width,the number of gray levels,and phosphene refresh rate in the vision system.
通过仿真实验评估了窗口宽度、光幻视灰阶数以及光幻视刷新率3种因素对阅读工效的影响。
补充资料:快堆(见快中子增殖堆)


快堆(见快中子增殖堆)
fast-breeder reactor

l快堆堆。(fast一breeder reaetor)见快中子增殖
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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