1) Hydraulic valve
液管
2) Mother Liquid-Pipe Line
母液管线
1.
Reason and Improvement of Corrosion in Saturator LittleMother Liquid-Pipe Line;
饱和器小母液管线腐蚀过快的原因分析及改进
3) tube for transfusion
输液管
1.
To obtain pyrolysis characteristics of medical waste compositions containing PVC(polyvinyl chloride),thermogravimetric study of tube for transfusion(TFT) and sample collector for urine(SCFU) was carried out using the thermogravimetric analyser(TGA) with N_2.
为研究含聚氯乙烯医疗废物的热解特性,选取输液管和尿样盒为对象,利用差热热重分析仪,在氮气气氛下进行热重实验,探讨了二者热失重行为和机制,分析了反应过程中热量变化及热解剩余物性状,建立了反应动力学模型。
2.
To obtain co-pyrolysis characteristics of medical wastes containing polyvinyl chloride(PVC)and biomass,co-pyrolysis experiments on mixtures of tube for transfusion(TFT)and gauze at different mass proportions,whose main ingredients were PVC and cellulose respectively,were carried out in an atmosphere of N2 using the thermogravimetric analyser(TGA.
为研究聚氯乙烯(polyvinyl chloride,PVC)类与生物质类医疗废物的混合热解特性,利用差热热重分析仪,在氮气气氛下,对输液管(tube for transfusion,TFT;含PVC)和纱布(含纤维素)样品在不同质量配比下进行了混合热解实验,深入研究二者混合热解的行为与规律。
4) downcomer
降液管
1.
Study on two phase flow with high gas holdup in downcomer;
板式塔降液管中高气含率两相流研究
5) pipe conveying fluid
输液管道
1.
By using Harmilton's principle and Euler's theory of elastic beam and taking Coriolis force of fluid into consideration,this paper builds the mathematical model for the problem on free vibration of elastic pipe conveying fluid,employs the Galerkin approach to find solutions to the model,analyzes the solutions and obtains corre.
研究了在石油行业、化学工业以及核电工程中广泛运用的弹性输液管道振动问题,采用欧拉梁理论和哈密顿原理,在考虑科氏力影响的情况下建立数学模型,运用伽辽金法对模型进行求解,并对所得解进行分析得到相应的结论。
2.
The general expression for the instantaneous potential energy functional of elastic system is given at first, and then the special for the arbitrarily curved and twisted pipe conveying fluid is obtained.
给出了弹性系统瞬时势能泛函的一般表达式,得到了其关于任意挠曲输液管道的具体表达式。
6) flowing string
举液管柱
参考词条
补充资料:多降液管塔板
分子式:
CAS号:
性质:指每块板上根据需要,可以有多个降液管,相邻两板的降液管方向互成90°交叉。塔板开孔,可以采用筛孔、栅条或斜孔等。这种塔板的结构特点,使堰上的液流强度减小;塔板上鼓泡层均匀,雾沫夹带减小;同时降液管底部悬空,不占下一板的鼓泡面积,增大了板面的有效利用率;因此多降液管塔板具有通量大、压降低、板间距小及操作稳定,但液流路程较短,塔板效率较一般降液管塔有所降低。
CAS号:
性质:指每块板上根据需要,可以有多个降液管,相邻两板的降液管方向互成90°交叉。塔板开孔,可以采用筛孔、栅条或斜孔等。这种塔板的结构特点,使堰上的液流强度减小;塔板上鼓泡层均匀,雾沫夹带减小;同时降液管底部悬空,不占下一板的鼓泡面积,增大了板面的有效利用率;因此多降液管塔板具有通量大、压降低、板间距小及操作稳定,但液流路程较短,塔板效率较一般降液管塔有所降低。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。