DE2260386A1 - Filter for submicron particles in flue gas - has light structure, low pressure drop and traps light particles - Google Patents

Abstract

A filter material for removing extremely fine (sub-micron) particles from inward-flowing flue gas in bag-type filters comprises a coarse mech basic fabric with a small quantity of fibrous material stitched to it, giving a weight density of 200-350 (220) g/m2 and gas permeability at 600-1500 (1000-1500) litre/dcm2/minute at 20mm. water-gauge pressure drop. The material is so light that it is translucent. Prefd. materials for the coarse fabric are polyacryl, polyamide, polyester.

Description

Filter material for the filter bags of bag filters The invention refers to a filter material for use for from outside to # inside with Filter pockets in pocket filters containing the finest dust particles, consisting of a base fabric with needled fiber material.

The known filter material of the aforementioned type was so far constructed that fiber materials were needled as homogeneously as possible onto a base fabric, so that the dust particles of the dust gases do not pass through the filter surfaces with the gas could, but were stopped by the filter material.

This has proven itself in the case of dust gases with coarser dust particles those for the filter bags filter materials of the aforementioned type with a weight of about 400 - 500 g / m2 were applied, which per minute at 20 mm WS let through about 300 liters of gas per dem2 when not in use. It should be mentioned that the gas permeability is assessed according to the general standard at 20 mm water column.

But as well as rye gases from smelting furnaces or dust gases with dust particle sizes from 1 my and far below that to be cleaned from other systems are, which may result in hundreds of thousands of m3 per hour and more, fail previous filter materials of the pocket filters, as these dusts due to their strong Adhesion or

Surface activity the filter surfaces with an impermeable adhesive Cover and enforce layer so that filter performance is kept to a minimum sinks and a cleaning by countercurrent flushing or vibration is not or only not becomes possible under difficult circumstances.

The invention now aims to bring a filter material to use, which the aforementioned disadvantages in the cleaning of smoke gases or other No longer has dust gases with the finest dust particles and a large gas or Has air permeability.

This object is achieved according to the invention in that the initially The filter material mentioned is characterized by a g # open-meshed, transparent Base fabric with applied on the side facing away from the dust gas exposure respectively.

needled fiber material, which together with the base fabric is highly translucent and which weighs from about 200 to about 350 g / m2 has a gas permeability of 500 to 1,500 1 per dcm2 and per minute for one Has resistance of 20 mm WS.

This material according to the invention is for dust gases with coarser Dust particles not suitable because such coarser dust particles are practically straight with the dust gas would pass through the filter material. But as soon as smoke gases or Gases with dust particles of 1 my and far below are to be purified, is in contrast to the previously incorrect assessment of the properties of the finest dust particles in flue gases or the like, the high surface activity of these finest dust particles and their influence by the molecular movement exploited, because these are the finest Dust particles behave similarly or in the same way as molecules, i.e. they do not follow a straight path in the dust gas, but oscillate within the gas flow in all possible directions.

This molecular movement and the great surface activity come the finest dust particles when flowing through the type of dust gas more or less transparent filter material in any case with the mesh threads or with the needled fibers on the side facing away from the direction of flow in contact, stick and are thus removed from the flue gas or the like deposited. It has been found that the one on the side of the acted upon, Permanent dust then adheres to the base fabric facing the gas flow in a known manner Way by countercurrent flushing or by shaking can be detached to the To periodically clean filter surfaces.

In the event that when cleaning the filter surfaces according to the invention even lower flow resistances should or must be achieved is than further development of the invention proceeded so that pocket filter after older Proposals are used in which the per unit of time by periodic successive cleaning of the filter surfaces accruing Two to one hundred times the amount of dust is returned to the filter surfaces and only the amount of dust removed from the filter that corresponds to the amount of dust, which arrives with the dust gas per unit of time. This measure in conjunction with the Type of the new filter material, which follows the usual lines of thought in the Filtering of dust gases basically contradicts, leads in any case to the fact that smoke gases or dust gases with the finest dust particles can be filtered properly and that perfect periodic cleaning of the filter surfaces is then also possible will.

The gas or. Air permeability of filter materials is a known one Basis for assessing the type of filter material used. she is at a resistance of 20 mm water column and through the passage of gas liters per dcm2 and measured per minute.

Bbi normal filter materials made up of a base fabric up to now with felt material pinned on homogeneously on both sides, the weight of the filter material is the same on average about 2 2 450 g / m2 and lets about 250 1 to 400 1 gas per dcm and per minute. In the case of the transparent or highly translucent one according to the invention Filter material is the weight of the filter material depending on the type of application coming dust gas 200 to about 350 g / m2 and has the same resistance from 20 mm WS a gas permeability of approx. 600 to 10500 1 per dcm2 and per minute.

According to a specific example for the filtering of flue gases is the weight of the new filter material about 220 g / m2, and this has a gas permeability from 1,000 to 1,300 1 2 per dcm and minute with a resistance of 20 mm WS. Such Filter materials whose base fabric has a mesh size depending on the type of dust gas of 0.5 to 2 mm and a needling of fibers on the dust gas exposure have the opposite side, have a perfect cleaning of flue gases out, because the clean gas from a pocket filter equipped with this filter material clearly below 50 mg / m3 in normal operation contains around 20 mg / m3Q Such to be cleaned Flue gases generally contain about 1 to 2 g / m3.

Due to the new filter material, it is of course also possible to use Pocket filters up to twice the amount of gas compared to known filter materials to flow through and to be cleaned properly, with an increase in the flow rate of 0.5 m / min. to 1 m / min. the resistance decreases to about 2/3 and one It is necessary to clean the filter surfaces every 5 minutes. if work is also carried out with the aforementioned dust return to filter surfaces, the resistance of the filter drops to about 1/3 of the initial value and a cleaning process is then only required approximately every 40 minutes. It follows that the power expenditure for the suction and pressure blowers used for the application are significantly reduced can and also the mechanical stress on the filter material is considerable can be reduced.

Claims (6)

Claims 0 filter material for use from the outside in with the finest Filter pockets in pocket filters with flue gases containing dust particles, consisting of a base fabric with needled fiber material, marked due to a coarse-meshed base fabric with only so little needled fiber material, that the filter fleece used is highly translucent and with one Weight from about 200 to approx. 350 g / m2 a gas permeability of 600 to 1,500 1 per dcm2 and per minute at a resistance of 20 mm WS when not in use. 2. Filter material according to claim 1, characterized in that 2 it has a weight of about 220 g / m2 and is gas or air permeable from 1,000 - 1,500 1 per dcm2 and per minute with a resistance of 20 mm WS im unused state 3. Filter material according to claim 1 or 2, characterized in that that the coarse-meshed base fabric made of twisted plastic threads, such as polyacrylic, polyamide, Polyester or the like. 4. Filter material according to one of claims 1 - 3, characterized in that that the mesh size of the base fabric is approximately between 0.5 and 2 mm. 5. Filter material according to one of claims 1 - 4, characterized in that that fibers only from one side, ie. are needled on one side and thereby a the relatively smooth side that faces the incoming dust gas remains will. 6. Filter material according to one of claims 1 - 4, characterized by their use for filter bags in bag filters in which the per unit of time resulting from periodic, one after another cleaning of the filter surfaces Two to one hundred times the amount of dust is returned to the filter surfaces and only the amount of dust that is removed from the pocket filter is that of the amount of dust which reaches the filter anew per unit of time.