An example apparatus for charge neutralization comprises: an emitter nozzle comprising: an emitter; and a housing configured to hold the emitter, the housing comprising a plurality of cams on an exterior of the housing; and a nozzle receptacle configured to enable insertion and removal of the emitter nozzle, and to hold the emitter nozzle in place during operation of the emitter nozzle, the nozzle receptacle comprising: a plurality of threads corresponding to the plurality of cams on the emitter nozzle, the plurality of threads having a first flank angle; and a plurality of shelves located at respective distal ends of the plurality of threads, the plurality of shelves having a second flank angle less than the first flank angle.

An example apparatus for charge neutralization comprises: an emitter nozzle comprising: an emitter; and a housing configured to hold the emitter, the housing comprising a plurality of cams on an exterior of the housing; and a nozzle receptacle configured to enable insertion and removal of the emitter nozzle, and to hold the emitter nozzle in place during operation of the emitter nozzle, the nozzle receptacle comprising: a plurality of threads corresponding to the plurality of cams on the emitter nozzle, the plurality of threads having a first flank angle; and a plurality of shelves located at respective distal ends of the plurality of threads, the plurality of shelves having a second flank angle less than the first flank angle.

A device for ionising air includes a case, in which there are a blower, which includes a rotor to generate a pulsed airflow and an exhaust pipe to channel this flow; a device for producing ions, which includes a high-voltage electrical generator; an electrode connected to the generator and of which one free end, formed of a cluster of filaments made of conductive material, extends to the right of the exhaust pipe to release ions there by corona discharge. The device further includes a diffuser provided with a pipe which, in the extension of the exhaust pipe, delimits a compression chamber, with an expander which extends the pipe and includes a series of channels which extend form an inner face of the expander to an opposite outer face.

A device for ionising air includes a case, in which there are a blower, which includes a rotor to generate a pulsed airflow and an exhaust pipe to channel this flow; a device for producing ions, which includes a high-voltage electrical generator; an electrode connected to the generator and of which one free end, formed of a cluster of filaments made of conductive material, extends to the right of the exhaust pipe to release ions there by corona discharge. The device further includes a diffuser provided with a pipe which, in the extension of the exhaust pipe, delimits a compression chamber, with an expander which extends the pipe and includes a series of channels which extend form an inner face of the expander to an opposite outer face.

A device for removing dust from closures which are capable of circulating in a chute extending along a longitudinal axis (y-y′), includes a suction system arranged around the chute and are capable of sucking up the dissociated dust from the closures, and including at least one ionization bar extending longitudinally alongside the chute.

Exemplary support assemblies may include an electrostatic chuck body defining a substrate support surface. The substrate support assemblies may include a support stem coupled with the electrostatic chuck body. The substrate support assemblies may include a heater embedded within the electrostatic chuck body. The substrate support assemblies may include a first bipolar electrode embedded within the electrostatic chuck body between the heater and the substrate support surface. The first bipolar electrode may include at least two separated mesh sections, with each mesh section characterized by a circular sector shape. The substrate support assemblies may include a second bipolar electrode embedded within the electrostatic chuck body between the heater and the substrate support surface. The second bipolar electrode may include a continuous mesh extending through the at least two separated mesh sections of the first bipolar electrode.

A receiver device of energy from the earth and its atmosphere for providing a supply of electric power.

Effective component generation device includes internal component and case. Internal components include discharger that generates an effective component. Case is formed in a box shape having discharge port through which an effective component is discharged, and houses internal components. Case includes metal body including a bottom plate and peripheral walls surrounding at least discharger in internal component. Metal body has seamless portion at a corner portion between two surfaces of adjacent peripheral walls oriented in different directions. As a result, there is provided effective component generation device capable of suppressing electromagnetic noise radiated to the outside of case and reducing an influence of electromagnetic noise to the outside.

The present invention relates to a method for producing an ionization rod and an ionization rod produced according to the method. The invention is characterized in that in a U-shaped duct profile (1) a main line (4) for supply current is placed, in that from this main line branch lines (3) are connected with adjacent carbon fibre brushes held in protective sleeves and in that a thermosetting plastic are laid into the duct profile covering the main part of the protective sleeves.

The present invention provides methods and systems for an ionization device that includes a base portion, a first pair and a second pair of opposed sidewalls extending upwardly from the base portion to form an upper edge, a top portion is engaged to the upper edge, and a cavity is formed within the base portion, the two pairs of opposed sidewalls, and the top portion. A probe assembly is in electronic communication with the top portion, wherein the probe assembly comprises a probe seat selectively secured to an exterior portion of a conduit of the existing environmental control system of the aircraft and a wire extends through the probe seat for supplying electrical current to an emission portion that emits ions.