1) plane operating holdup
面动持液量
1.
Voluminal operating holdup and plane operating holdup in Raschig ring packed column and their calculation;
拉西环填料塔体动持液量和面动持液量及其计算
2) dynamic liquid holdup
动持液量
1.
The theoretical analyses of the hydrodynamics under a strong interaction flow regime were conducted and data of the bed averaged dynamic liquid holdup were obtained.
实验测定了脉冲流流型下的床层平均动持液量 。
2.
0 MPa and room temperature,the effects of gas and liquid flowrates, liquid viscosity and operation pressure on the dynamic liquid holdup were investigated in a downward flow and upward flow fixed-bed reactor.
床层中的动持液量是一个估算液体平均停留时间和液膜厚度必不可少的参数 ,也是反应器内液 -固接触效率的一个量度 ,它直接影响催化剂的润湿程度和反应器的性能 ,因此持液量常是关联固定床 (或滴流床 )反应器内传质系数和传热系数的变量之一 。
3.
0 MPa, the effects of liquid and gas mass flowrates, liquid viscosity, packed particle size, packed height and pressure on the dynamic liquid holdup were investigated in a down flow trickle bed reactor.
0MPa 的系统压力下测定了滴流床中气-液两相并流往下流动的动持液量,讨论了气-液流率、液相粘度、填料大小、压力以及床层高度对动持液量的影响。
3) voluminal operating holdup
体动持液量
1.
It is defined that the average operating holdup of whole packed bed is called voluminal operating holdup,while that of horizontal differential thin section in packed bed is called plane operating holdup.
定义整个床层的平均动持液量为体动持液量;定义填料层中水平截面上微分薄层的平均动持液量为面动持液量。
4) dynamic fluid level
动液面测量
5) liquid holdup
持液量
1.
The pressure drop and liquid holdup were observed and determined in cool condition.
以α-甲基苯乙烯加氢系统为对象,研究滴流床的流体力学特征,在冷态条件下测定了滴流床内压降和持液量,得到压降、动持液量与气速和液速的关系式。
2.
The regularities on the change of pressure drop, liquid holdup, flow regimes with gas and liquid velocity were investigated in cool condition,which was helpful to the mass transfer research and reactor model development.
以α甲基苯乙烯加氢系统为研究体系,研究了涓流床反应器的流体力学特征,观察了反应器内的流型转变和液体分布情况,并在冷态下研究了涓流床反应器内压降、持液量、流型等随气速、液速变化的规律,为涓流床反应器传质研究和模型建立提供必要的支持。
3.
The liquid holdups and effective wetted areas of 4 types of structured packing were simulated by the model and validated by relevant experiments.
为研究板波纹规整填料内的液体流动状况,建立了相应的液相分布数学模型,并对4种板波纹规整填料的持液量和有效润湿面积进行了模拟计算及实验验证。
6) total liquid inventory
总持液量
1.
Study on variation rule of stabilized equilibrium time and total liquid inventory in transient flow process in sub-sea multiphase pipeline;
海底混输管道瞬态过程中稳定平衡时间和总持液量变化规律研究
补充资料:持液量
分子式:
CAS号:
性质:通常是指填料塔在操作时积存于填料表面上及空隙中的液体量,以m3液/(m3填料层)表示。持液量影响填料层的空隙率、压力降及传质面积等,总持液量为以下两部分之和:(1)静持液量,指填料塔进液及排滴停止后持有的液体量,它只取决于填料的大小、材料及液体的物性;(2)动持液量,指填料塔停止进液后排滴出去的液量,除与填料、液体的特性有关外,还随气、液的空塔速度的增大而加大,但在载点以下时与气速无关,约与液速的0.6次方成正比。
CAS号:
性质:通常是指填料塔在操作时积存于填料表面上及空隙中的液体量,以m3液/(m3填料层)表示。持液量影响填料层的空隙率、压力降及传质面积等,总持液量为以下两部分之和:(1)静持液量,指填料塔进液及排滴停止后持有的液体量,它只取决于填料的大小、材料及液体的物性;(2)动持液量,指填料塔停止进液后排滴出去的液量,除与填料、液体的特性有关外,还随气、液的空塔速度的增大而加大,但在载点以下时与气速无关,约与液速的0.6次方成正比。
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