A method and to a device for the electrostatic separation of fine dust particles from gases that flow through a housing (1) containing perforated plates (6) and electrodes (4, 5). An electric field is created between the electrode (4) on the inflow opening side and the electrode or electrodes (5) having positive polarity on the outflow side. The removal of negatively charged fine dust particles (9) is carried out by deposition on the inflow side of the perforated plates (6), and the removal of positively charged fine dust particles (11) is carried out on the outflow side. Fine dust particles without charge (10) are charged after the last perforated plate (6) in an ionization chamber (8) and deposit on the outflow side of the last perforated plate (6).

A commercial cooking equipment exhaust hood system includes a hood structure including an inlet opening to an exhaust flow path through the hood. A filter unit is positioned along the exhaust flow path. An electrostatic precipitator unit is downstream of the filter unit. The electrostatic precipitator includes an ionizing section upstream of a collecting section. The ionizing section includes a plurality of ionizing flow paths having side profile patterns that vary in width between at least one wide section and at least one narrow section. The collecting section includes a plurality of collecting flow paths with side profile patterns of substantially uniform width and a repeating undulating side profile pattern. A UV light source may also be provided within the hood, with a controller operatively connected to control the UV light source via a dimmer to enable selective production various UV levels.

A gas turbine engine combustor section extends axially from a pre-diffuser at a forward end to an aft end relative to an engine axis. The gas turbine engine combustor section includes a combustor liner defining a combustion chamber and a combustor dome situated at a forward end of the combustor liner and affixed thereto. The gas turbine engine combustor section further includes an electrostatic particulate matter collector. The electrostatic particulate matter collector includes a first charged flow guide having an axially forward-most extent aligned with the pre-diffuser and widens radially with respect to the engine axis from the forward-most extent to the combustor dome. The electrostatic particulate matter collector further includes a fuel nozzle extending through the first charged flow guide into the combustor dome. The electrostatic particulate matter collector also includes a power supply electrically coupled to positively charge the first charged flow guide.