A personal air purifier is a portable device that eliminates all pathogens and particulates present in the air breathed by the user. The device includes a purifier housing, an air inlet, an air outlet, a metallic air path, an air ionizer, a power source, an air fan, and a controller. The purifier housing retains the metallic air path, the air ionizer, the power source, the air fan, and the controller. The air inlet and the air outlet are openings that allow airflow through the purifier housing. The air fan generates airflow through the purifier housing. The metallic air path and the air ionizer sanitize the airflow through the purifier housing. The power source provide the operating power for the air ionizer, the air fan, and the controller. The power source positively charges the metallic air path. The controller enables the selective control of the air ionizer and the air fan.

The present invention relates to a method and an apparatus for cleaning outside or inside air that is polluted by solid particles. The method comprises a specific sequence of measures for promoting agglomeration and/or coagulation of the particles, including ionization, followed by a series of filtrations. This lead to a surprising removal of ultra-fine particles of 1-100 ?m with a great efficiency. The invention includes an apparatus for the application of the method.

The present disclosure generally relates to an ion dispersing apparatus. The apparatus is made a housing that accommodates a fan and an ion generator. Air is sucked into the housing at the bottom and exhausted out of the top by the fan. The ion generator sits above the fan and deposits ions into the system. Thus, when the fan generates airflow, the ions are deposited into the airflow and exhausted from the system without having to pass through the fan blades.

The invention relates to a method and device for collecting particles which may be present in an aerosol. The invention consists in electrostatically collecting all the particles in an aerosol, but uncoupling mechanisms of particle charging by unipolar ion diffusion, for charging then collecting the finest particles, from particle charging by a corona effect electrical field, for charging then collecting the biggest particles in a different collection zone from the collection zone for the finest particles. The invention also relates to the use of such a device as ionisation chamber or for evaluating the exposure of workers or consumers to nanoparticles.

The invention relates to a method and device for collecting nanoparticles which may be present in an aerosol. The invention consists of electrostatically collecting nanoparticles contained in an aerosol by a mechanism of particle charging by unipolar ion diffusion, followed by the application of a field without a corona effect, which makes it possible to deposit the particles in concentric rings on different parts of a single flat substrate oriented orthogonally to the aerosol circulation direction. The biggest particles are deposited towards the centre of the flat substrate and the finest particles towards the periphery of the flat substrate. The invention also relates to a method of operation and to the use of such a device for evaluating the exposure of workers or consumers to nanoparticles.

An air cleaning system has a field charger comprising a plurality of bars comprising a conductive inner core and a non-conductive overmold, and a plurality of pins attached to the bars and extending out of the non-conductive overmold. The conductive inner core is molded over the plurality of pins, conductively connecting the pins, and the non-conductive overmold is molded over the conductive inner core. A method of manufacturing the field charger includes placing a plurality of metal pins in a mold, placing contact points in the mold, molding a conductive resin over at least a portion of the plurality of pins and contact points, molding an insulating resin over the inner core, plurality of pins, and contact points, wherein at least a portion of the pins and contact points extend from the non-conductive overmold, and mounting an earthplate to the conductive overmold.

The invention relates to a method for the selective purification of aerosols. The invention consists in electrostatically collecting all of the particles present in an aerosol, but with separation of the mechanisms on one hand for charging particles by unipolar ion diffusion in order to charge and then collect the finest particles, and on the other hand for charging particles by means of Corona discharge in order to charge and then collect the largest particles on a substrate different from the substrate for collecting the finest particles.

An air purifier device is disclosed. The device includes at least one first collector, an ionizing device configured to ionize fine particles in the air, an agglomeration chamber configured to aggregate the ionized fine particles, and a frame configured to enclose the ionizing device, agglomeration chamber, and first collector. The first collector includes a non-insulating material first surface of a size greater than 1 square meter, a non-insulating material first reference surface, and a first electric generator configured to apply to the first surface a potential relative to the reference surface between 5 kV and 500 kV. The at least one first collector is configured to collect at least some of the aggregates of the fine particles. The ionizing device includes multiple spikes, a grating, and an electric generator configured to apply to the spikes a predetermined potential relative to the grating of at least 100 kV/m.

An electrostatic air cleaner may be operated according to a manner designed to achieve acceptable air quality while balancing power usage and corona electrode degradation levels. The voltage applied to the corona electrode(s) may be controlled as well as the voltage applied to repelling electrodes and air flow velocity. The air cleaner may also be operated to achieve desired particle separation.

An electrostatic air cleaner may be operated according to a manner designed to achieve acceptable air quality while balancing power usage and corona electrode degradation levels. The voltage applied to the corona electrode(s) may be controlled as well as the voltage applied to repelling electrodes and air flow velocity. The air cleaner may also be operated to achieve desired particle separation.