The invention relates to a system comprising a discharge electrode assembly, the system being for an electrostatic precipitator unit. The discharge electrode assembly comprises a discharge electrode to be electrically connected to an associated high voltage generator via an insulator. The connection is established via a connector pin and an insulator connector. The parts comprise a number of mutually engageable locking surfaces designed to prevent mutual translational and rotational movement of the parts. The invention also relates to an electrostatic precipitator unit comprising such a system. The discharge electrode assembly is designed so that it is easier to assemble and arrange correctly in a flow passage of a flue gas passageway than what is known from prior art. In particular, it is designed to provide a lower risk of misalignment of the discharge electrode with respect to the flue gas passage than what is known from prior art.

The invention relates to a system comprising a discharge electrode assembly, the system being for an electrostatic precipitator unit. The discharge electrode assembly comprises a discharge electrode to be electrically connected to an associated high voltage generator via an insulator. The connection is established via a connector pin and an insulator connector. The parts comprise a number of mutually engageable locking surfaces designed to prevent mutual translational and rotational movement of the parts. The invention also relates to an electrostatic precipitator unit comprising such a system. The discharge electrode assembly is designed so that it is easier to assemble and arrange correctly in a flow passage of a flue gas passageway than what is known from prior art. In particular, it is designed to provide a lower risk of misalignment of the discharge electrode with respect to the flue gas passage than what is known from prior art.

A wet electrostatic precipitator includes an ancillary component cleaning device with a cleaning assembly moveably supportable within an electrostatic precipitator; the cleaning assembly having a scraper configurable to abut an ancillary component of the electrostatic precipitator, such that movement of the cleaning assembly within the electrostatic precipitator causes movement of the scraper with respect to the ancillary component and wherein the ancillary component includes a component of a separation assembly provided in the wet electrostatic precipitator to maintain electrical isolation between the discharge and collection electrodes.

A filter for an electrostatic precipitator comprising: a plurality of spaced-apart, electrode films having electrical conductivity, arranged to be alternately powered at high and low electrical potentials, each of said electrode films having a leading edge, a trailing edge and two opposing side edges therebetween that extend in the direction of airflow; and first and second pluralities of spaced-apart, rigid isolation members bonded to each of the leading and trailing edges of the plurality of electrode films respectively, wherein each isolation member is bonded, via a substantially continuous, preferably flat, surface thereof, to at least some of said leading or trailing edges, thereby fixing the electrode films in the required spaced-apart arrangement thereof.

This application relates to a modular electrostatic precipitator. In one aspect, the modular electrostatic precipitator includes a housing providing a flow path through which air is moved and a charging module configured to emit electromagnetic waves to the air. The precipitator may also include a first attaching/detaching unit configured to attach and detach the charging module to and from the housing and a particle collecting module configured to collect particles in the air by applying an electrostatic force to the air. The precipitator may further include a second attaching and detaching unit configured to attach and detach the particle collecting module to and from the housing.

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.

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.

An electrification apparatus for dust collection includes an electrification module configured to generate ions that are emitted to air. The electrification module comprises: a high voltage tip comprising at least one discharge tip configured to emit the ions in a direction opposite to a flow direction of the air, a conductive plate that surrounds the discharge tip and that is configured to generate an electric potential difference with the discharge tip of the high voltage tip, a lower frame that mounts the conductive plate and the high voltage tip, an upper frame that is coupled to a first side of the lower frame and that covers the conductive plate and the high voltage tip, the discharge tip protruding outward through the upper frame, and a ground mesh coupled to a second side of the lower frame.

A discharge electrode with equal or better performance to conventional discharge electrodes, but at significantly lower cost uses carbon fiber composite tapes suspended around support rings attached to a support at the top and a bias at the bottom. The tape is in a loop and extends around the support rings, causing the rings to be pulled apart in tension by the bias to keep the tape taut. The tape, and preferably the top ring, and alternatively the lower ring, are conductively connected to a power supply.

A discharge electrode with equal or better performance to conventional discharge electrodes, but at significantly lower cost uses carbon fiber composite tapes suspended around support rings attached to a support at the top and a bias at the bottom. The tape is in a loop and extends around the support rings, causing the rings to be pulled apart in tension by the bias to keep the tape taut. The tape, and preferably the top ring, and alternatively the lower ring, are conductively connected to a power supply.