化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
12期
4760-4766
,共7页
李洪%姚跃宾%王方舟%高鑫%李鑫钢
李洪%姚躍賓%王方舟%高鑫%李鑫鋼
리홍%요약빈%왕방주%고흠%리흠강
规整填料%流动方式%渗流%蒸馏%流体动力学%传质
規整填料%流動方式%滲流%蒸餾%流體動力學%傳質
규정전료%류동방식%삼류%증류%류체동역학%전질
structured packing%flow pattern%seepage flow%distillation%hydrodynamics%mass transfer
根据液相在波纹规整填料片上呈现渗流、膜状流等不同的流动方式,选择5种不同的波纹规整填料对其流体力学和传质性能进行研究,以探究液相在波纹片上的流动方式对波纹规整填料性能的影响。研究结果表明,液相呈渗流流动的泡沫碳化硅波纹规整填料(SCFP 型)有利于液体横向扩散和液膜均匀分布,当液相喷淋密度和气相 F 因子均较小时,其压降最低,传质效率最高;液相主要呈渗流流动、兼有膜状流动的双层错孔丝网填料(DMⅢ型)有利于波纹片两侧液体交换,强化液体在流动过程中的扰动,其压降及传质性能略逊于SCFP型填料;液相主要呈膜状流动的BX型、DMⅠ型及DMⅡ型填料波纹片表面液膜较厚,横向扩散能力差,其传质效率低于SCFP型和DMⅢ型填料。研究揭示了依靠渗流作用的波纹规整填料具有较好的应用性能,为波纹规整填料的进一步发展开拓了新思路。
根據液相在波紋規整填料片上呈現滲流、膜狀流等不同的流動方式,選擇5種不同的波紋規整填料對其流體力學和傳質性能進行研究,以探究液相在波紋片上的流動方式對波紋規整填料性能的影響。研究結果錶明,液相呈滲流流動的泡沫碳化硅波紋規整填料(SCFP 型)有利于液體橫嚮擴散和液膜均勻分佈,噹液相噴淋密度和氣相 F 因子均較小時,其壓降最低,傳質效率最高;液相主要呈滲流流動、兼有膜狀流動的雙層錯孔絲網填料(DMⅢ型)有利于波紋片兩側液體交換,彊化液體在流動過程中的擾動,其壓降及傳質性能略遜于SCFP型填料;液相主要呈膜狀流動的BX型、DMⅠ型及DMⅡ型填料波紋片錶麵液膜較厚,橫嚮擴散能力差,其傳質效率低于SCFP型和DMⅢ型填料。研究揭示瞭依靠滲流作用的波紋規整填料具有較好的應用性能,為波紋規整填料的進一步髮展開拓瞭新思路。
근거액상재파문규정전료편상정현삼류、막상류등불동적류동방식,선택5충불동적파문규정전료대기류체역학화전질성능진행연구,이탐구액상재파문편상적류동방식대파문규정전료성능적영향。연구결과표명,액상정삼류류동적포말탄화규파문규정전료(SCFP 형)유리우액체횡향확산화액막균균분포,당액상분림밀도화기상 F 인자균교소시,기압강최저,전질효솔최고;액상주요정삼류류동、겸유막상류동적쌍층착공사망전료(DMⅢ형)유리우파문편량측액체교환,강화액체재류동과정중적우동,기압강급전질성능략손우SCFP형전료;액상주요정막상류동적BX형、DMⅠ형급DMⅡ형전료파문편표면액막교후,횡향확산능력차,기전질효솔저우SCFP형화DMⅢ형전료。연구게시료의고삼류작용적파문규정전료구유교호적응용성능,위파문규정전료적진일보발전개탁료신사로。
Five corrugated structured packings are selected based on different liquid flow patterns including seepage flow and film flow. The hydrodynamic and mass transfer performance are studied in order to explore the effect of liquid flow patterns on the performance of structured packings. The experimental results show that liquid mainly presents a seepage flow in the porous structure of SCFP type packing, which benefits the lateral spreading of liquid and uniform distribution of liquid membrane. The SCFP type packing shows the highest mass transfer efficiency and lowest pressure drop when theF factor is lower. Liquid displays a partly seepage flow in the special structure of DMⅢ type packing, which can promote the liquid exchange between two sides of one sheet and intensify liquid turbulence, increasing mass transfer efficiency and reducing pressure drop compared with DMⅠand DMⅡtype structured packings. Liquid flows in the form of film on the surface of BX and DMⅠtype packings and this flow pattern results in a high velocity and a short residence time of liquid film. Thus the mass transfer efficiency of BX and DMⅠtype packings is lower than that of SCFP and DMⅢ type packings. This study shows that the structured corrugated packing with seepage flow presents good performance, opening up a new method to develop structured corrugated packings.