Abstract:
Die Erfindung betrifft einen elektrostatischen Abscheider (1,1'), insbesondere für eine Abgasleitung (2) einer Abgasreinigungsanlage, mit einem Strömungskanal (3) mit einer Kanalwandung (4) und einem Kanalinneren (5), durch welchen ein partikelbeinhaltendes Abgas (P) in einer Strömungsrichtung strömt, und einer sich in dem Kanalinneren (5) im Wesentlichen in Strömungsrichtung (P) erstreckenden Elektrode (6), zur Bildung eines elektrischen Feldes zwischen der Elektrode (6) und der Kanalwandung (4), sowie ein Heizungssystem mit einem elektrostatischen Abscheider (1,1'). Es ist eine Aufgabe der Erfindung, einen elektrostatischen Abscheider (1, 1') und ein Heizungssystem zu schaffen, welche die Nachteile gemäß dem Stand der Technik überwinden und die insbesondere eine Ablagerung von Partikeln auf der Elektrode (6) verhindern oder reduzieren. Gekennzeichnet ist der elektrostatische Abscheider (1, 1') dadurch, dass dieser ein Partikelabweisemittel umfasst ist, welches verhindert, dass sich Partikel an der Elektrode (6) ablagern. Gekennzeichnet ist das Heizungssystem dadurch, dass dieses den erfindungsgemäßen elektrostatischen Abscheider (1, 1') umfasst.
Abstract:
The invention relates to an electrostatic filter, comprising a housing having a portion that has an at least approximately circular cross-section for conducting through a particle-carrying gas flow in a longitudinal direction (L) perpendicular to the cross-section. In the housing, a plurality of precipitation plates are arranged, which are oriented in parallel to one another forming channels extending in the longitudinal direction. In each of at least some of the channels, at least one electrode frame (1) having a plurality of elongate electrodes (8) is arranged. Applying a high voltage to the electrodes causes particles carried in the gas flow to deposit on the precipitation plates, wherein the electrodes (8) are immovably fixed only on a supporting member (3) of the electrode frame (1).
Abstract:
There is provided a granular particulate ejector configured to eject granular particulates (a liquid droplet ejector (24) configured to spray liquid droplets (22) ). Granular particulates (liquid droplets (22) ) ejected towards a discharge electrode (21) from the granular particulate ejector (the liquid droplet ejector (24) ) serve as a counter electrode (22).
Abstract:
An air cleaning device (A) includes a bulb-shaped casing (1) provided at one end with a base (4) and at the other end with an outlet (3e, 3a), in which an AC/DC converter (11) for converting an alternating current from the base (4) into a direct current, a boosting transformer (12) for boosting the direct current, and a negative ion generator or ozone generator (21 or 21A) connected to the boosting transformer (12) are accommodated. Application of high voltage from the boosting transformer (12) to the negative ion generator or ozone generator (21 or 21A) induces electrical discharge to generate negative ions alone or both negative ions and ozone and release the negative ions alone or both the negative ions and the ozone from the outlet (3e, 3a). The device can be disposed on the floor, suspended from above, hung on the wall or set in position at an optional location, using as its power source electric power from a socket (41A, 41B) for a reading lamp, a socket (62) built in the ceiling, or an electrical receptacle mounted in a wall, so that negative ions alone or both negative ions and ozone can be released in an optional direction.
Abstract:
An air cleaning device (A) includes a bulb-shaped casing (1) provided at one end with a base (4) and at the other end with an outlet (3e, 3a), in which an AC/DC converter (11) for converting an alternating current from the base (4) into a direct current, a boosting transformer (12) for boosting the direct current, and a negative ion generator or ozone generator (21 or 21A) connected to the boosting transformer (12) are accommodated. Application of high voltage from the boosting transformer (12) to the negative ion generator or ozone generator (21 or 21A) induces electrical discharge to generate negative ions alone or both negative ions and ozone and release the negative ions alone or both the negative ions and the ozone from the outlet (3e, 3a). The device can be disposed on the floor, suspended from above, hung on the wall or set in position at an optional location, using as its power source electric power from a socket (41A, 41B) for a reading lamp, a socket (62) built in the ceiling, or an electrical receptacle mounted in a wall, so that negative ions alone or both negative ions and ozone can be released in an optional direction.
Abstract:
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 disposed around the discharge tip and 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, and an upper frame that is coupled to the lower frame and that covers the conductive plate and the high voltage tip so that the discharge tip is exposed to outward.
Abstract:
Disclosed is a piece of furniture for air purification in the form of a substantially closed cabinet including: an upper purpose tray; side walls in vertical alignment below this tray; an opening in the top of the side walls; an opening in the bottom of the cabinet, in which an opening allows the filtered air to exit; an electrical power source; an air pressurizer connected to the power source, allowing the air to flow through the cabinet; a horizontal filter, parallel to the upper purpose tray and upstream of the air pressurizer; a vertical filter, perpendicular to the upper purpose tray downstream of the air pressurizer, at least 3 cm away from the nearest side wall; a duct between filter downstream of the air pressurizer and the nearest side wall, which duct allows the filtered air to be discharged towards the opening of the bottom part of the cabinet.
Abstract:
A configuration for a power supply of a component in an exhaust gas system includes at least one electrical contact disposed at an exhaust gas line. The at least one electrical contact is surrounded by an electrical insulation material.
Abstract:
The present invention relates to apparatus for in real time detecting biological particles and non-biological particles in the atmosphere, the apparatus comprising: an impactor adapted to sort the biological particles and non-biological particles absorbed from the outside by size; a charger adapted to charge the biological particles and non-biological particles sorted by means of the impactor to specific charge (positive or negative charge); a separator adapted to introduce the biological particles and non-biological particles charged by the charger thereinto and to sort the biological particles and non-biological particles charged to different charge quantities from each other; and a particle measurement sensor adapted to measure the concentrations of the particles discharged from an outlet.
Abstract:
An air cleaning device for removing aerosol particles from an air stream comprising: a particle charger comprising a housing and an electrode arrangement therein for generating air ions in the air stream, the particle charger having a particle charging zone within which, in use, aerosol particles in the air stream are electrically charged via collision with the air ions; a filter for precipitating electrically charged aerosol particles from the air stream moving through the device; and an air mover, comprising a casing, for moving the air stream through the device; wherein the particle charger and the air mover are provided upstream of the filter; and wherein the housing of the particle charger is hermetically sealed to the casing of the air mover in the direction of air flow through the device, such that the particle charger and the air mover are intimately coupled together, whereby all air entering the device has to pass through both the particle charger and the air mover.