Numerical simulation of gas/solid two-phase flow in ceramic filter vessel

Numerical simulation of ceramic filter unit was carried out in order to predict the gas flow in the filter vessel during the pulse cleaning process using FLUENT code. The particle movement and particles distribution were analyzed using both the Lagrangian and Eulerian approaches. Ceramic filter unit modeled in the study is composed of six elements of commercial filter in the normal hexagon. In the comparison of the single filter cleaning and two filters cleaning coincidently, the last mode leads to more uniform gas flow in the filter vessel during the pulse cleaning process. So far the numerical results show a good approach to predict the particle distribution in the vessel and the particle deposition on the filter element. And this study will provide the base for the intensive study on the analysis of the gas–particle flow in the filter vessel.

Graphical abstractThe macro-porous TiO2 film was effectively prepared on SiC filter element using the solution of TiO2 particles (P25) in order to prepare V2O5–WO3–TiO2/SiC catalytic filters for NO reduction. The catalytic filters showed the acceptable NX slip concentration less than 20 ppm at 160–240 and 260–340 °C for Pt added- and Pt none added-catalytic filter, respectively.Figure optionsDownload full-size imageDownload as PowerPoint slide