当代化工
噹代化工
당대화공
Contemporary Chemical Industry
2015年
10期
2355-2356,2359
,共3页
吴凯%段继海%张自生
吳凱%段繼海%張自生
오개%단계해%장자생
旋风分离器%结构优化%研究进展
鏇風分離器%結構優化%研究進展
선풍분리기%결구우화%연구진전
Cyclon%New sructure%Research progress
综述了近几年国内外学者对提高选分离器性能结构方面的研究进展,研究表明:多种新型旋风分离器的应用完全能够捕获1~5μm 的微米和亚微米级颗粒,通过安装导流件等内构件措施能够降低湍动耗散能,降低能耗,降低旋风分离器的压降。新型旋风结构和内构件是提高传统分离器性能的重要手段。
綜述瞭近幾年國內外學者對提高選分離器性能結構方麵的研究進展,研究錶明:多種新型鏇風分離器的應用完全能夠捕穫1~5μm 的微米和亞微米級顆粒,通過安裝導流件等內構件措施能夠降低湍動耗散能,降低能耗,降低鏇風分離器的壓降。新型鏇風結構和內構件是提高傳統分離器性能的重要手段。
종술료근궤년국내외학자대제고선분리기성능결구방면적연구진전,연구표명:다충신형선풍분리기적응용완전능구포획1~5μm 적미미화아미미급과립,통과안장도류건등내구건조시능구강저단동모산능,강저능모,강저선풍분리기적압강。신형선풍결구화내구건시제고전통분리기성능적중요수단。
The research progress of improving the performance of cyclone separators at home and abroad was reviewed. The new experimental results show that: a variety of new cyclone separators can fully capture 1~5μm micron and sub micron particles, to install diversion parts and other inner components in cyclone separators can reduce the turbulent dissipation energy and energy consumption. The new structure of cyclone and inner component is an important means to improve the performance of traditional separators.
