Quantifying the effect of strong ignition sources on particle preconditioning and distribution in the 20-L chamber |
| |
| Authors: | Chris T. Cloney Robert C. Ripley Paul R. Amyotte Faisal I. Khan |
| |
| Affiliation: | 1. Process Engineering & Applied Science, Dalhousie University, Halifax, NS, Canada;2. Martec Ltd., Lloyd''s Register, Halifax, NS, Canada;3. Process Engineering, Memorial University, St. John''s, NL, Canada |
| |
| Abstract: | Computational fluid dynamics is used to investigate the preconditioning aspect of overdriving in dust explosion testing. The results show that preconditioning alters both the particle temperature and distribution prior to flame propagation in the 20-L chamber. A parametric study gives the fluid pressure and temperature, and particle temperature and concentration at an assumed flame kernel development time (10 ms) for varying ignitor size and particle diameter. For the 10 kJ ignitor with 50% efficiency, polyethylene particles under 50 μm reach 400 K and may melt prior to flame propagation. Gases from the ignitor detonation displace the dust from the center of the chamber and may increase local particle concentration up to two times the nominal value being tested. These effects have important implications for explosive testing of dusts in the 20-L chamber and comparing to larger 1-m3 testing, where these effects may be negligible. |
| |
| Keywords: | Dust explosion Numerical modeling 20-L chamber Overdriving Preconditioning |
| 本文献已被 ScienceDirect 等数据库收录! |
|
