1) gas generation intensity
生气强度
1.
The gas generation center of the Middle-Upper Triassic gas kitchen lies in the Kelasu structural zone,gas generation intensity .
库车坳陷的烃源岩主要发育在中上三叠统和中下侏罗统,根据烃源岩厚度和有机相特征、埋藏热历史,采用BasinMod-1D软件,系统分析了库车坳陷上三叠统和中下侏罗统气源灶的生气强度及其在地质历史中的演化。
2) gas generating strength
气体生成强度
1.
In this paper, gas generating strength of propellant charge was studied on basis of retreating for bore pressure time curve, and physical firing law of propellant charge was analysised.
通过对火炮膛内压力 -时间曲线的再处理 ,研究发射药的气体生成强度 ,进而分析发射药装药的物理燃烧规
3) gasification strength
气化强度
1.
Through comprehensively analyzing the affection of system resistance of fixed-bed gasifier to gasification strength,it is proved by cases that the process with high resistance is harmful,which presents the importance correctly distributing resistances in sections of fixed-bed gasifier system which should be considered in design and operation.
通过全面、系统地剖析煤气炉系统阻力对气化强度的影响,用事实论证了高阻力对生产的危害,说明正确选择煤气炉系统中各部阻力的重要性。
4) aeration intensity
曝气强度
1.
As economic aeration intensity is exponential to MLSS,aeration cost will ascend sharply while MLSS increasing.
高污泥浓度可以在减少剩余污泥产量的同时提高系统的容积负荷,但经济曝气强度随污泥浓度的增加呈指数递增,从而使能耗大大增加。
2.
Too high aeration intensity would do negative effect on controlling membrane fouling.
强化曝气可有效控制膜污染,但会导致系统能耗增加,且曝气强度过大还会对膜污染控制产生负面影响;系统存在一个经济曝气强度-可在保证处理效果、控制膜污染的同时最大限度地降低能耗。
3.
With the hydraulic retention time(HRT) of 6~18 h and aeration intensity(ratio of air to water) of 20∶1~60∶1,HRT .
当水力停留时间在6~18 h、曝气强度(气水比)在20∶1~60∶1之间变化时,水力停留时间和曝气强度对MBR运行效果的影响不甚显著;温度对COD去除的影响不大,但温度对NH3-N、TN有显著的影响,温度由9。
5) nitrogen strength
氮气强度
6) air supply intensity
供气强度
1.
The relations of the stirring time in molten bath of composite blown conveter to the bottom air supply intensity were studied under different working conditions of bottom blowing ejection gun.
针对实际生产过程中转炉底吹喷枪可能出现的异常堵塞情况,研究了底吹喷枪正常、部分堵塞或全部堵塞等不同工况下,复吹转炉熔池内的搅拌混匀时间与底吹供气强度的关系。
补充资料:表光合强度(见光合强度)
表光合强度(见光合强度)
forecast of sowing or transplanting time
b iaoguanghe qiangdu表光合强度见光合强度
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条