대한기계학회논문집 (Transactions of the Korean Society of Mechanical Engineers)
- 제19권9호
- /
- Pages.2342-2352
- /
- 1995
- /
- 1225-5963(pISSN)
DOI QR Code
포크너-스캔 경계층유동에서의 다분산 입자부착에 대한 연구
Deposition of Polydisperse Particles in a Falkner-Skan Wedge Flow
초록
Deposition of flame-synthesized silica particles onto a target is utilized in optical fiber preform fabrication processes. The particles are convected and deposited onto the target. Falkner-Skan wedge flow was chosen as the particle laden flow. Typically the particles are polydisperse in size and follow a lognormal size distribution. Brownian diffusion, thermophoresis, and coagulation of the particles were considered and effects of these phenomena on particle deposition were studied. A moment model was developed in order to predict the particle number density and the particle size distribution simultaneously. Particle deposition with various wedge configurations was examined for conditions selected for a typical VAD process. When coagulation was considered, mean particle size and its standard deviation increased and particle number density decreased, compared to the case without coagulation. These results proved the fact that coagulation effect expands particle size distribution. The results were discussed with characteristics of thermal and diffusion boundary layers. As the boundary layers grow in thickness, overall temperature and concentration gradients decrease, resulting in decrease of deposition rate and increase of particle residence time in the flow and thus coagulation effect.
키워드