Agglomerated and nonagglomerated SiO₂ particles are synthesized in furnace by the vapor feeding method<br/> for the test particle generator this study. These polydispersed particles are classified with DMA to extract<br/> equal mobility ...
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https://www.riss.kr/link?id=A75896673
2002
Korean
550
학술저널
1215-1219(5쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
Agglomerated and nonagglomerated SiO₂ particles are synthesized in furnace by the vapor feeding method<br/> for the test particle generator this study. These polydispersed particles are classified with DMA to extract<br/> equal mobility ...
Agglomerated and nonagglomerated SiO₂ particles are synthesized in furnace by the vapor feeding method<br/>
for the test particle generator this study. These polydispersed particles are classified with DMA to extract<br/>
equal mobility particles. Then these particles are introduced into Thermal Precipitator through the<br/>
ESP(Electrostatic Precipitator) to see the thermophoretic particle deposition using CNCs(Condensation Nuclei<br/>
Counter). The efficiency of thermophoretic particle deposition according to agglomerated and nonagglomerated<br/>
particles in Thermal precipitator has been studied as a function of particle size and TEOS mole<br/>
concentration using monodisperse particles classified by DMA. The results show that the particle deposition<br/>
efficiency decreases as TEOS mole concentration increases and particle size increases. Therefore, it is<br/>
concluded that the thermophoretic deposition efficiency is dependent of the particle morphology.
목차 (Table of Contents)
다중 구속조건을 고려한 격자체 구조물의 충격해석 모델개선