化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2015年
1期
75-79,112
,共6页
刘梅%宋朝匣%吴正人%朱永欣
劉梅%宋朝匣%吳正人%硃永訢
류매%송조갑%오정인%주영흔
液膜%两相流%流体动力学%非平整倾斜表面%数值模拟
液膜%兩相流%流體動力學%非平整傾斜錶麵%數值模擬
액막%량상류%류체동역학%비평정경사표면%수치모의
liquid film%two-phase flow%hydrodynamics%inclined wavy wall%numerical simulation
基于流体体积函数法(VOF),分别从液体物性和液相入口流速等因素对非平整倾斜表面上的液膜流动特性进行数值模拟,得出流体黏度的增大可增大液膜厚度并降低液膜整体流动速度,但不影响液膜与壁面之间的相位角;流体表面张力影响液膜与壁面之间的相位差及液膜的均匀性;液相入口雷诺数的增大可以增大液膜厚度,当雷诺数增大到一定程度时,液膜厚度不再有明显的变化,且液膜表面趋于光滑。研究结果表明:液膜的流动形式由液体各项物性和液相入口流速共同决定。
基于流體體積函數法(VOF),分彆從液體物性和液相入口流速等因素對非平整傾斜錶麵上的液膜流動特性進行數值模擬,得齣流體黏度的增大可增大液膜厚度併降低液膜整體流動速度,但不影響液膜與壁麵之間的相位角;流體錶麵張力影響液膜與壁麵之間的相位差及液膜的均勻性;液相入口雷諾數的增大可以增大液膜厚度,噹雷諾數增大到一定程度時,液膜厚度不再有明顯的變化,且液膜錶麵趨于光滑。研究結果錶明:液膜的流動形式由液體各項物性和液相入口流速共同決定。
기우류체체적함수법(VOF),분별종액체물성화액상입구류속등인소대비평정경사표면상적액막류동특성진행수치모의,득출류체점도적증대가증대액막후도병강저액막정체류동속도,단불영향액막여벽면지간적상위각;류체표면장력영향액막여벽면지간적상위차급액막적균균성;액상입구뢰낙수적증대가이증대액막후도,당뢰낙수증대도일정정도시,액막후도불재유명현적변화,차액막표면추우광활。연구결과표명:액막적류동형식유액체각항물성화액상입구류속공동결정。
Based on the method of volume of fluid (VOF),numerical simulation of liquid film flow over uneven and inclined wall was simulated,during which factors,such as the physical property and flow rate of liquid-phase,were analyzed. Conclusions are the followings:the increase of fluid viscosity can increase the thickness of liquid film and reduce the overall flow liquid film speed,without affecting the phase angle between liquid film and wall;the surface tension influences the uniformity of film and the phase difference;the bigger the liquid phase inlet Re number is,the thicker the film will be,and when the Re number reduces to a certain value,the thickness has no obvious change,and the membrane surface becomes smooth. The simulation results show that the flow form of the film is determined by fluid physical property and the inlet velocity together.