SU1011162A1 - Method of regeneration of filter floating charge - Google Patents

Description

2. USSR author's certificate in application number .9T8795 / 23-2b, cl. On 01 D 23/2, 05.05.80.

3. USSR author's certificate W 827117, cl. B 01 D 23/10, O. Ob.79 (prototype).

The invention relates to the purification of natural waters and the purification of waste liquids and can be used in pressure filters with controlled floating loading. . A known method for the regeneration of a granulated floating load in a pressure filter} involves washing the soils from the granules by vibrating them in a downward flow of water and then removing the separated soils from the filter 1. This method of regeneration is characterized by insufficient reliability due to the possibility of the granules loading through the compression chamber, which is located above the filter elements vibrating during the regeneration of loading. In addition, as shown by the test results, at the initial moment of vibration, the deformation of the upper, largest floating load granules can take place. There is also known a method for regenerating a granular floating load in a pressure filter, which includes washing the soil from the pellets during rotation of load 1 at a linear speed, decreasing in the direction of the descent and its flow of water, followed by removal of separated contaminants from the filter. lack of reliability due to the possibility of deforming the grill when rotating the load of the blades of the agitators. In addition, the disadvantages of these methods are the complexity of their instrumentation, due to the presence of moving (during loading regeneration) mechanical elements: vibrating nets — in the first of the above methods, rotating blades of the agitator — in the second. The closest to the proposed technical value and the achieved result is a method of regenerating a granular bobbin loading in a pressure filter, which includes washing the impurities from the pellets when expanding the load in a downstream water flow and then removing separated contaminants from the water flow filter. At this stage, the stump of the expansion of the load is chosen so that it is sufficient to create such an intensity of the collision of the granules with each other, which would ensure the most complete scrubbing of adhering contaminants from their surface. This method is reliable m simple hardware version f 3. The disadvantage of this method is the increased water consumption for regeneration of the load, since the intensity of the downward flow of water during regeneration of the load (from, polystyrene foam granules J should be at least 12-14 l / s m. The purpose of the invention is to reduce the consumption of wash water. The goal This is achieved by the fact that, according to the method of regeneration of the floating filter loading, which includes washing the contaminants while expanding the load in the downstream of the wash water and subsequent removal of the washed contaminants from the filter during the washing e wash water from the bottom of the filter is fed into its upper part, and the washed contaminants are removed periodically.The drawing shows a filter for the implementation of the proposed method, a cross-section.The filter includes a housing 1 with a granular floating load 2, in the upper part of which a directional upward is the bell 3 of the raw water supply line A, and in the bottom there is a louvered grill 5. The device is equipped with filtrate 6 drainage lines and filter 7 is emptied with grill 8 to prevent discharge nose 2 Outside the housing 1, a pump 9 is installed, connected by a pressure pipe 10 to the raw water supply pipeline, and a suction pipe 11 to the lower part of the charging space 12. The method of granulated floating load regeneration using the described device is carried out in two stages. At the first stage, the valves on the pipelines {, 6 and 7 are closed, the valves are closed; I3f opens the valves on the TO-11 and pipelines 11, reduce the inclination angle of the plates in the pallet grill 5 and turn on the pump 9. The pump through the pipeline And takes water from The lower part of the loading space 12 and through pipelines 1 and k through the socket 3 feeds it to the upper part of load 2. 8 with a downward flow of water, loading 2 expands and contaminants are washed from the granules. Contaminants are washed with continuous water recirculation. In this case, the contaminants are dispersed and evenly distributed throughout the entire volume of recycled water. At the second stage, the pump 9 is turned off. The valves on the pipelines F 0 and 11 are closed, the valve on the pipeline 7 is opened and the valve 13 is opened. Water with dispersed contaminants through pipe 7 is discharged into the sewer system. The grid 8 on the pipeline 7 prevents the load from being removed from the filter housing. Pr im. Water from an artesian well, having the following characteristics: temperature 5.3 ° С, transparency more than 0 cm in font, color 0 °, pH oxidability 1.37 mg / l 02 ferrous iron content 6.17 mg / oxide 0, 1 mg / l, total, 6.27 mg / l, is passed through a filter 1 m in diameter and 3.0 m in height. The filter is loaded with foam polystyrene granules with a particle size of 0.6-3.0 mm, a loading height of 1.5 m. Conduct two series of experiments on the proposed and known methods. In the proposed method, the contaminated loading in the filter is regenerated by washing off the contamination during continuous recirculation of water and removing them after termination of recycling by emptying the filter. In a known manner, the contaminated load in the filter is regenerated by washing the contaminants and removing them from the filter in a downward flow of water. In order to obtain comparable data in all series of experiments, the load on the filter cycle is almost the same, for which the filtration rate and the duration of the filter cycle are kept constant. In all experiments, the intensity of the water supply to the regeneration of the load was 13.5 l / s m, and the duration of washing the soils was 6 min. Criteria for the effectiveness of soposta, the methods used are the magnitude of the residual; exact contaminants in the load, the amount of wash water discharged during the period of regeneration, the concentration of suspended solids in the wash water. The results of the experiments are shown in the table. As can be seen from the above data, the proposed method provides almost the same degree of regeneration of the granular floating load as the known - (prototype). It allows you to reduce the water consumption for regeneration of the load by more than 2 times, respectively, by increasing the saa. my concentration of suspended solids in the wash water. The feasibility and technological advantages of the proposed method for regenerating a granular floating load consist in reducing the water consumption for regeneration. loading, as well as in reducing the cost of further processing of washing water.

0.078-0.09 1805

0.072-0.085 3816

710-760

350-370

Claims (3)

METHOD FOR REGULATING FILTER LOADING FILTERS, including washing contaminants during loading expansions in a downward flow of washing water and subsequent removal of washed contaminants from the filter, characterized in that, in order to reduce the flow of washing water, when washing, rinse the water from the bottom of the filter to its upper part part, and the removal of washed contaminants is carried out periodically. 2. USSR author's certificate on application No. 2918795 / 23-26, cl. B 01 D 23/24, 05/05/80. 3. USSR copyright certificate No. 827117, cl. In 01 D 23 / S, 04.06.79 (prototype).