›› 2006, Vol. 6 ›› Issue (2): 178-180.
• 流动与传递 • Previous Articles Next Articles
ZHAO Bing-tao
Online:
Published:
赵兵涛
Abstract: A novel cyclone design, named converging symmetrical spiral inlet (CSSI) cyclone, is developed by improving the inlet geometry of conventional tangential single inlet (CTSI) cyclone for enhancing the physical performance of the cyclone. The collection efficiency of the CSSI cyclone is experimentally compared with the widely used CTSI cyclone. The results indicate that the CSSI cyclone provides higher collection efficiency by 5%~20% than that of the CTSI cyclone for a tested inlet velocity range of 11.99~23.85 m/s. In addition, the results of collection efficiency comparison between experimental data and theoretical model are also discussed.
Key words: cyclone, inlet geometry, flow parameters, collection efficiency
摘要: A novel cyclone design, named converging symmetrical spiral inlet (CSSI) cyclone, is developed by improving the inlet geometry of conventional tangential single inlet (CTSI) cyclone for enhancing the physical performance of the cyclone. The collection efficiency of the CSSI cyclone is experimentally compared with the widely used CTSI cyclone. The results indicate that the CSSI cyclone provides higher collection efficiency by 5%~20% than that of the CTSI cyclone for a tested inlet velocity range of 11.99~23.85 m/s. In addition, the results of collection efficiency comparison between experimental data and theoretical model are also discussed.
关键词: cyclone, inlet geometry, flow parameters, collection efficiency
ZHAO Bing-tao. Effects of Flow Parameters and Inlet Geometry on Cyclone Efficiency[J]. , 2006, 6(2): 178-180.
赵兵涛. Effects of Flow Parameters and Inlet Geometry on Cyclone Efficiency[J]. , 2006, 6(2): 178-180.
0 / / Recommend
Add to citation manager EndNote|Ris|BibTeX
URL: https://www.jproeng.com/EN/
https://www.jproeng.com/EN/Y2006/V6/I2/178