DE102020002972A1 - Mobile air cleaning system for three-stage cleaning of ambient air - Google Patents

Abstract

The mobile air cleaning system for three-stage cleaning of ambient air can, for example, be used in places with heavily polluted air in inner cities to remove the aerosols and dusts in the air, as well as the germs in the air, for example For example, kill viruses, bacilli, bacteria and fungal spores and finally bind nitrogen oxides through an activated carbon filter stage and thereby free the air flowing through them. Particular attention is paid to the operating and maintenance costs, because an electrostatic dust collector requires much less energy for the fan that creates the air flow than currently used fabric filters, and in the case of an electrostatic dust collector, only the separated dust and the separated aerosols accumulate and with an integrated rinse water recycling the water consumption can be kept to a minimum. In addition, the amount of maintenance work required is reduced because the system can largely clean itself and no parts need to be replaced.

Description

Patent description

The pollution of the air in cities, especially with fine dust and nitrogen oxides, is more and more in the consciousness of society and leads to guidelines and ordinances on limit values to be complied with. Organizational measures, e.g. in the form of traffic bans or road closures, are a way of reducing pollution levels, but are politically and socially difficult to implement and do not always lead to the desired success.

A technical way of cleaning the polluted air consists in guiding the air through filter systems, separating or filtering the dust there and letting the cleaned air flow back into the environment.

The state of the art with regard to the purification of particles and aerosols from the air consists mainly of two different technologies, the fabric filters on the one hand and the electrostatic dust collectors on the other.

The functional principle of fabric filters is very simple: A membrane or mat made of fabric, felt or the like lies in the gas flow and the particles and aerosols, which are larger than the gas-permeable pores of the membrane or mat, are held or adhere to it, and the Purified air flows through the pores. The pressure drop across these membranes or mats is relatively high and depends to a large extent on the degree of pollution, because the trapped particles naturally narrow or clog the pores. The membrane or mat can be cleaned to a certain extent by knocking it out, e.g. by blasting it with compressed air, or by removing it from the membrane or mat with a countercurrent, but in the long run the membrane or mat has to be renewed again and again.

Electrostatic dust collectors are technically complex, they consist of electrodes that form channels through which the gas to be cleaned flows. The electrodes are charged with oppositely polarized voltages; this creates strong electrostatic fields in the channels in which the particles are electrostatically charged and then attach to the oppositely charged electrode. High voltage sources are necessary to generate the electrostatic fields. The electrodes are cleaned by tapping or rinsing. Due to the open channel structure, the dimensions of which are in no relation to the grain size of the particles or aerosols to be separated, there is only a very small pressure drop, that is, the ventilation technology requires only relatively low performance (see Josef von Stackelberg / Manfred Schmoch, “Handbuch Elektrofilter”, publisher Springer Vieweg, ISBN 978-3-658-20016-9, page 172). A soiling of the dust separator has no significant influence on the pressure drop. Furthermore, there are no systematic limits to the service life of an electrostatic dust collector and there is no systematic limit grain size for the separation ability.

This means that fabric filters are cheaper to buy than electrostatic dust collectors, but because of the higher operating and maintenance costs they become more expensive in the long term, apart from the increased waste that arises from the used membrane or mats in the form of the filter elements.

With regard to the cleaning of particles, aerosols and nitrogen oxides from the air in road tunnels, there are two patents EP 1039 963 B1 and DE000019846320C1 . The technology described in the two patents for cleaning the air in road tunnels is state-of-the-art today and is used internationally in the form of permanently installed systems.

With regard to the cleaning of ambient air on streets that are particularly polluted with fine dust, the current state of the art is that the fabric filters described above are built into container structures in order to clean the air (see also the Mann & Hummel website, as of May 2020: https: //www.mann- hummel.com/de/kompetenzfelder/feinstaubfresser/).

With the invention of the mobile air cleaning system for the three-stage cleaning of ambient air, not only dusts and aerosols as well as nitrogen oxides are removed from the ambient air, but also germs in the air are killed. Furthermore, the mobile air purification system is designed for long-term operation with minimal operating costs and low maintenance and disposal costs.

To 1 the mobile air purification system is structured in three stages.

In the first stage, coarse debris, such as leaves, plastic bags, scraps of paper and the like, are removed from the entrance grille. caught and prevented from entering the downstream electrostatic dust collector. The electrostatic dust collector works in two stages: At the beginning, a strong electrostatic field with high charge carrier generation is generated. The charge carriers attach themselves to the particles and aerosols in the air and thus charge them. Then the air arrives with the charged ones Particles and aerosols between the collector plates, where they accumulate due to the electrostatic field. The plates are cleaned with water at regular intervals. The water loaded with the particles and aerosols is freed from the sludge, sterilized by a UV-C source and pumped back into the storage tank; this results in only a low consumption of water per cleaning cycle. The sludge is collected in a tank and removed at longer intervals. The electrostatic dust collector works regardless of the fill level of the sludge container.

In the second stage there is a channel that is equipped with UV-C sources to kill germs in the air flowing through. UV-C light is light in a wavelength range from 100 to 280 nm and very high in energy (see also Anna-Lena Niemann, “Everything is so beautifully irradiated”, www.faz.net, May 5, 2020 ). It kills various germs and, according to the state of the art, is used, among other things, to purify drinking water or to rid public transport of surface germs.

In the third stage, there is a large-area activated carbon filter that separates the nitrogen oxides in the air flowing through (see also the patents EP 1 039 963 B1 and DE000019846320C1 ).

The electrostatic dust separator causes only a small pressure drop due to its open-flow design. The large-area activated carbon stage enables the gas flowing through to remain in the activated carbon for a longer period of time in order to give the process of conversion from nitrogen oxide to nitrogen sufficient time and at the same time to keep the pressure drop due to the flow low. The fan consumes the most power, and reducing the fan power means saving the most power.

In contrast to fabric filters, in which the fabrics are regularly and laboriously cleaned or have to be renewed at high cost, which results in disposal costs for the used filter fabric, the invention results in thickened sludge for disposal. This contains "normal" street dirt that was previously washed into the rainwater sewer system when it rained and then deposited in the sewage treatment plant.

Overall, the mobile air cleaning system for three-stage cleaning of ambient air is available with which the air can be cleaned efficiently and in a way that is gentle on the environment, e.g. in inner cities in places with high levels of fine dust, nitrogen oxide and / or germs. By installing the system in a transportable container, the mobile air purification system can be brought to pollution hotspots in city centers or other areas, connected and put into operation within a short time and with little effort.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• EP 1039963 B1 [0007, 0013]
• DE 000019846320 C1 [0007, 0013]

Non-patent literature cited

• Anna-Lena Niemann, "Everything is so beautifully irradiated", www.faz.net, May 5, 2020 [0012]

Claims (1)

Mobile air cleaning system for three-stage cleaning of ambient air, characterized by that in the first stage, an electrostatic dust separator removes particles and aerosols from the air flowing through, so that no fabric filter parts are necessary for disposal, that integrated recycling of the cleaning water for the electrostatic dust separator minimizes the disposal costs for the contaminated water, that the use of the electrostatic dust collector keeps the back pressure and thus the energy expenditure for the fans low, that in the second stage germs located in the air flowing through are killed by the use of germicidal electromagnetic radiation and In the third stage, activated carbon is used to remove nitrogen oxides from the air flowing through.

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