DE102012222059B4 - Apparatus for air treatment with ions - Google Patents

Abstract

Device for the treatment of air with ions, wherein an ionization by electrospray or silent electric discharge takes place and the ions are transferred to gases or aerosols and / or particles transported therewith, wherein the arrangement at the entrance an ionization unit (A) and then a cleaning unit (B) , and wherein the cleaning unit (B) - a central electrode (4), - as a reactor tube (2) formed reactor vessel with a plurality of buried single electrodes (2.1, 2.2, 2.3, 2.4), wherein at the individual electrodes (2.1, 2.2, 2.3 , 2.4) alternately a negative and a positive voltage relative to the central electrode (4) is applied, and - a tubular potential barrier (3), which is located within the reactor tube (2) and a plurality of openings (3.1, 3.2, 3.3, 3.4) contains.

Description

The invention relates to an apparatus for air treatment with ions, wherein electrons or ions are transferred to gases or aerosols and / or particles transported therewith.

It is known that with ionization units, the space and thus the breathing air can be improved. This kills bacteria and other germs and splits large molecules into small-molecule fragments. This allows molecules of odorous substances to be comminuted, so that the odor pollution can be suppressed by air ionization. This eliminates harmful components in the air and reduces microorganisms. The disadvantage here, however, that the resulting fragments can be harmful.

In ionization units, a high electric field between two voltage potentials is used or generated. Usually, tubes with coaxial electrode arrangements with a glass dielectric are used for this purpose.

In the known air treatment systems, various methods and devices are used to remove unwanted substances from the breathing air. For example, precipitation electrodes are used and the air is cleaned of unwanted substances by means of UV light, obstructed or unobstructed ionization and by means of electrically generated alternating and alternating fields.

Thus arrangements are known which ionize the particles and nuclei via electrons or ions by strong electric fields or spray ionizations and deposit them on electrodes.

Disadvantage of the known embodiments is that the ionization of the particles and the deposition takes place in a room or in a functional unit. Frequently, facilities for forced ventilation are also provided and on the air outlet side adsorption filters are mounted so that the air is also chemically cleaned in addition to the electrostatic cleaning. Since these components must be coordinated, unfavorable building arrangements result. In particular, high voltages require large distances and generate small field strengths, and the filters tend to saturate and break through.

Out WO 2006/072235 A1 a device for cleaning and conditioning of dust particles or with other particles enriched air is known in which are deposited by means of a spray electrode to produce electrically conductive particles of precipitation electrodes. In each case between two collecting electrodes are zero electrodes.

In WO 00/16018 A1 An air cleaning device for transporting gases is described, wherein the gas to be transported is at least partially ionized and accelerated in an electric field. The positive electrodes may be formed as a ring and the negative electrode as a spray electrode.

Furthermore, in DE 27 25 190 A1 describes a device for cleaning dust-containing gases, wherein the dust-containing gas is brought by an electric field to ionize the gas and charge the dust particles, which is collected by means of one or more collecting electrodes. After the dust particles have been collected by the electrodes, they are transferred via a cleaning zone to a dust collector, wherein the dust electrodes have the shape of a rotor with straight, axially continuous channels and the channel sides form the precipitation surfaces.

The invention has for its object to provide a device with which particles of different sizes and different charge and fragments can be effectively secreted, the device can be optimally adapted to the particular application and chemical substances are permanently bonded.

The object is achieved by an arrangement with the features specified in claim 1.

Advantageous embodiments of the invention are the subject of the dependent claims.

The ionization of the gases or aerosols to be treated takes place in two different functional units; namely, an ionization unit and a purification unit. These units are independently adaptable to the respective function (ionization / deposition / degermination). Preferably, the ions and electrons are generated by means of dielectrically impeded deconvolution.

The gases or aerosols to be treated as well as fragments and carbon black may contain various substances, for example harmful gases, in particular also toxic gases, as well as solid inorganic particles or biological contaminants such as viruses, spores, bacteria, germs etc.

The ionized particles are accelerated by the electrostatic field and separated in special separators. These are behind a potential barrier. The ionization or charging is done by electrons via impact ionization.

Embodiments of the invention are explained in more detail below with reference to drawings.

Show:

1 a schematic representation of an arrangement with separate ionization and separation unit,

2 a section through the cleaning unit and

3 a schematic representation of an arrangement with ionization unit, separation unit, filter unit and room climate improvement unit.

Corresponding parts are provided in all figures with the same reference numerals.

1 shows an arrangement consisting of the components Ionisationseinheit A and cleaning unit B. The ionization unit A has an ionization chamber 1 which generates ions by means of direct spray ionization or by dielectrically impeded discharge, which in turn are generated by impact ionization by means of electrons. These ions or electrons are transferred to the gases or particles and thus generate charged particles.

In 2 the cleaning unit B is shown in section. It contains a central electrode 4 , an outer reactor vessel, which in the example shown as a reactor tube 2 is formed, and a potential barrier 3 , The reactor tube 2 or reactor vessel has a plurality of buried single electrodes 2.1 . 2.2 . 2.3 . 2.4 and separators. At the individual electrodes 2.1 . 2.2 . 2.3 . 2.4 is alternately a negative and a positive voltage to the central electrode 4 at. The potential barrier has openings to allow penetration of the electric field.

Inside the reactor tube 2 there is a tubular potential barrier 3 which has a plurality of openings 3.1 . 3.2 . 3.3 . 3.4 having.

The particles flowing through the purification unit B can be both positively and negatively charged and become in a reactor tube 2 electric field, which can be designed as a DC field or alternating field, accelerated by a lock so that they are deposited on precipitation double electrodes. With negative ions or particles electrons are trapped, knocked out with positive electrons.

The device makes it possible for both ion groups as well as different particle sizes to be deposited. Since the drift velocity is different for the same charge and different size, however, the field is adjustable to eliminate all particles. The potential barrier is designed so that both positive and negative particles or ions are directed through different areas and thus reach the respective charged precipitation electrodes. The electrodes that dispose of the particles are designed as buried electrodes, so that the particles are not discharged on the occurrence and are held on the separators.

At the in 3 shown embodiment is at the output of the cleaning unit B, a further filter unit C with a filter 5 arranged, which contains an activated carbon bed in the example shown, which still carries out a chemical purification of trace gases. The activated charcoal bed is enriched with catalysts that cause a chemical conversion of hydrocarbons into CO2 and H2O under UV irradiation. For this example, TiO2 is suitable.

This is followed by an air-conditioning unit D, which is used to supply pleasant substances and negative ions to the air in order to release them in the room and to further improve the breathing air.

In order to achieve higher mass flow rates, it is possible to ventilate the entire reaction unit with a forced air method by means of fan or cross-flow fan.

LIST OF REFERENCE NUMBERS

1

ionization chamber

1.1

first electrode of the ionizer

1.2

second electrode of the ionizer

2

reactor tube

2.1, 2.2, 2.3, 2.4

Electrodes of the cleaning unit

3

potential barrier

3.1, 3.2, 3.3, 3.4

openings

4

Electrode for 0 potential

5

filter

6

air freshener

A

ionization

B

cleaning unit

C

filter unit

D

Air freshening unit

Claims (7)

Device for the treatment of air with ions, wherein an ionization by electrospray or silent electric discharge takes place and the ions are transferred to gases or aerosols and / or particles transported therewith, wherein the arrangement at the entrance an ionization unit (A) and then a cleaning unit (B) , and wherein the cleaning unit (B) - a central electrode ( 4 ), - as a reactor tube ( 2 ) formed reactor vessel with a plurality of buried single electrodes ( 2.1 . 2.2 . 2.3 . 2.4 ), whereby at the individual electrodes ( 2.1 . 2.2 . 2.3 . 2.4 ) alternating a negative and a positive voltage with respect to the central electrode ( 4 ), and - a tubular potential barrier ( 3 ) located within the reactor tube ( 2 ) and which has a plurality of openings ( 3.1 . 3.2 . 3.3 . 3.4 ) contains. Apparatus according to claim 1, characterized in that the ionization unit (A) has an arrangement for ionization by silent electrical discharge. Apparatus according to claim 1, characterized in that the ionization unit (A) has an arrangement for electrospray ionization. Device according to one of the preceding claims, characterized in that at the output a filter arrangement ( 5 ) is arranged. Apparatus according to claim 4, characterized in that the filter arrangement ( 5 ) consists of an activated carbon bed. Apparatus according to claim 5, characterized in that the activated carbon bed is enriched with catalysts. Device according to one of the preceding claims, characterized in that at the output of the arrangement, an air improvement unit (D) is arranged.

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