1.
Rate equations of coke formation and relationships between catalyst activity and catalyst coke content were developed by concerning with the formation of both monolayer and multilayer coke.
在试验范围内,得到了结焦速率式,结焦量与反应时间,结焦量与催化剂活性的关联式。
2.
The increase of reaction temperature will accelerate the coking rate of catalyst.
反应温度的提高能使催化剂的结焦速率迅速增加。
3.
The EDC cracking reaction rate is higher in the wall zone and reaches a maximum at 0.3 of dimensionless length of reactor coil.
表明确定最优的炉管管径时必须考虑提高裂解速率与降低结焦速率之间的平衡。
4.
Automatic Measuring of Regeneration Rate of Coked Catalyst by Conductometry;
电导法自动测量结焦催化剂的再生速率
5.
A simple expression to caculate the burning rate of char particles in the furnace
炉膛内煤焦颗粒燃烧速率的简易求法
6.
Study on Relationship of Porosity & Pore Structure of Metallurgical Coke with Thermal Performance
冶金焦气孔率和气孔结构与热性能关系的研究
7.
Deposition rate is increase quickly with sputtering power.
结果表明溅射功率对沉积速率的影响最大,随溅射功率的增大沉积速率快速增大。
8.
China s economic structure,growth pace and energy efficiency;
中国的经济结构、增长速度与能源效率
9.
Experimental study on rate of frost heave by artificial freezing
人工冻结冻胀速率试验研究(英文)
10.
FAST CALCULATION OF MODAL SHAPE AND FREQUENCY OF STRUCTURES USING MATHCAD
用Mathcad快速估算结构的振型和频率
11.
Measurements and Analyses of the Corrosive Rates of X52 Pipeline Material in Soil
X52管材土壤腐蚀速率测试及结果分析
12.
Calculation Methods of Horizontal Displacement Rate in Retaining Structure of Foundation Pit
基坑围护结构水平位移速率计算方法
13.
Experimental Study on the Coal Char Porous Structure of Fast Pyrolysis in an Entrained-Flow Reactor;
携带流反应器条件下快速热解煤焦孔隙结构试验研究
14.
Fast assessment of human islet preparations with combination fluorescent dyes and confocal live cell imaging
荧光染色结合激光共聚焦活细胞成像快速评价人移植胰岛
15.
A Survey of Studies on Focus;
焦点、焦点结构及焦点的性质研究综述
16.
INFLUENCE OF COKING PERIOD ON YIELD AND QUALITY OF COKE IN DELAYED COKING PROCESS
延迟焦化成焦周期对焦炭收率和质量的影响
17.
At first a comprehensive and short review on the characteristics for size growth-rate of crystals is presented.
首先对微晶粒尺寸增长速率的表征进行总结.
18.
The results indicated that the average water consumption rate of broadleaf trees was more than conifer trees.
结果表明,针叶树种耗水速率低于阔叶树种。