Title :
Numerical investigation of powder trajectories and deposition in tribo-charge powder coating
Author :
Adamiak, Kazimierz
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Western Ontario, London, Ont., Canada
Abstract :
An iterative numerical algorithm for simulating particle trajectories in the tribo-charge powder coating process is presented in the paper. The electric field distribution is determined by means of the finite element method. The particle trajectories are predicted by integrating the differential equation of motion, resulting from the Newton equation. The density of the space charge in the powder cloud is estimated using the particle-in-cell algorithm. All problems are solved iteratively until a self-consistent solution is found for all the involved parameters. The algorithm has been applied to a few different models of the problem assuming mono- and polydispersed powders. The effect of powder parameters on the wrap-round and Faraday cage effects has been investigated.
Keywords :
difference equations; electric charge; electric fields; finite element analysis; integration; iterative methods; powder technology; spray coating techniques; spray coatings; triboelectricity; Faraday cage effects; Newton equation; electric field distribution; finite element method; iterative numerical algorithm; monodispersed powders; motion differential equation integration; particle-in-cell algorithm; polydispersed powders; powder trajectories; powder trajectories and deposition; tribo-charge powder coating; wrap-round effects; Clouds; Coatings; Corona; Differential equations; Economic forecasting; Environmental economics; Iterative algorithms; Numerical simulation; Painting; Powders;
Conference_Titel :
Industry Applications Conference, 1998. Thirty-Third IAS Annual Meeting. The 1998 IEEE
Conference_Location :
St. Louis, MO, USA
Print_ISBN :
0-7803-4943-1
DOI :
10.1109/IAS.1998.729847
