--- res: bibo_abstract: - 'A simulation method is applied to calculate particle dynamics in electrostatic precipitators as characterised by particle flux density and concentration profiles in arbitrary channel cross-sections and flux density profiles of dust precipitated at the collecting electrodes (CEs). A simple statistical model allows the determination of confidence intervals for flux profiles. First, a ‘standard case’ considering full coupling of all physical phenomena occurring in this problem, i.e., electric field, flow field and particle dynamics is simulated. Subsequently, this standard case is compared to simulations with one quantity (e.g., electric field strength, turbulence intensity) substituted by a mean value which is homogeneously distributed in the precipitation zone. This reveals the relevance of the various physical phenomena: It turned out that the secondary flows had only a minor influence on the overall particle precipitation although they cause some ‘patterning’ of local precipitation. Turbulence inhomogeneity shows a stronger effect on particle dynamics. However, the electric field appears to be by far the most important quantity in simulating particle dynamics. Consequently, in order to achieve most reasonable simulation results for a given numerical effort most attention has to be devoted to field calculations, including correct boundary conditions.@eng' bibo_authorlist: - foaf_Person: foaf_givenName: Hans-Joachim foaf_name: Schmid, Hans-Joachim foaf_surname: Schmid foaf_workInfoHomepage: http://www.librecat.org/personId=464 bibo_doi: 10.1016/j.powtec.2003.08.010 bibo_volume: 135/136 dct_date: 2003^xs_gYear dct_isPartOf: - http://id.crossref.org/issn/0032-5910 dct_language: eng dct_title: 'On the modelling of the particle dynamics in electro-hydrodynamic flow fields: II. Influences of inhomogeneities on electrostatic precipitation@' ...