RU2029737C1 - Water cleaning method - Google Patents

Abstract

FIELD: cleaning of industrial-rain sewage waters. SUBSTANCE: method involves intaking clarified water by mounting discharge pipeline at the level of 2/3 of control vessel height; clearing and filtering through grainy charge. Material with particles having ratio of diameters D₁/D₂= 5-10 and height of H₁/H₂= 0,9-1,8 may be used as filtering charge. EFFECT: improved quality of water. 2 tbl

Description

 The invention relates to the field of industrial rainwater wastewater clarification and filtration, it can be used in wastewater treatment plants of industrial enterprises.

 A known method of water purification, including its treatment with a coagulant and two-stage filtration through a granular charge with periodic washing of the filters [1].

 The disadvantage of this method is the use in the cleaning process before the second stage of the coagulant of aluminum sulfate at a dose of 10 mg / l, which increases operating costs and does not provide a residual amount of suspended solids below 12-18 mg / l.

 The closest in technical essence and the achieved result is a method of purification of natural waters by two-stage filtration using microfiltration in the first stage, processing with a coagulant and polyelectrolyte [2].

 The disadvantages of this method are the use of expensive flocculants and an additional purification step - microfiltration.

The essence of the invention lies in the fact that according to the method of water purification, including clarification and filtration processes through a granular charge, clarified water is selected before filtration by installing a discharge pipe at a level equal to 2/3 of the height of the regulating capacity, and material is used as filter media, whose particle diameters and loading heights are taken in the ratios, respectively, D ₁ / D ₂ = 5-10 and H ₁ / H ₂ 0.9-1.8.

 EFFECT: invention makes it possible to maximize the use of the dirt-absorbing capacity of the filter load, which leads to an increase in the filter cycle and an increase in the degree of water purification, in particular, industrial rainwater wastewater.

 Using the method of sampling clarified water from a layer depth equal to 2/3 of the height of the regulating tank, one can obtain the least amount of suspended solids, since there is no agitation of precipitated sediment, and the smallest amount of oil products, since no floated oil enters the stream.

The use of filter material, the particle diameters of which are taken in the ratio D ₁ / D ₂ = 5-10, makes it possible to increase the load capacity of the load, reduce pressure losses and provide a high degree of water purification.

The use of loading heights in the ratio of H ₁ / H ₂ = 0.9-1.8 makes it possible to reduce the time and intensity of washing, to reduce the amount of washing water, the volume of the construction of structures and to ensure a high degree of water purification.

 Thus, this technology of industrial rainwater wastewater treatment, compared with the known treatment methods, will increase the degree of water purification by 75-85%, intensify the process of removing technogenic impurities, reduce operating and capital costs, use cheap and affordable filter materials and ensure high degree of water purification without the use of coagulants and flocculants.

 The method is as follows.

 Source water containing petroleum products and suspended solids enters the control tank and, after clarification, it is sent to a filter with a coarse-grained charge, and then to a filter with a fine-grained charge.

 PRI me R 1. Source water containing oil (n / a) 67.5 mg / l and suspended solids (w / w) 1097 mg / l, enters the control tank. After clarification, purified water is removed from a depth of 3/4. In this case, the residual content of n / a 31.8 mg / l and I / O 111.2 mg / l due to the agitation of the precipitate and mechanical impurities in the water supply to the second stage.

 PRI me R 2. Cleaning is carried out according to example 1, changing the ratio of the diameters of the grains.

 The dependence of the residual amount of impurities on the depth of sampling and the ratio of the diameters of the grains of the loads are given in table 1.

PRI me R 3. Purified water containing n / a 29.4 mg / l and iv 55.1 mg / l are sent to the filters at D ₁ / D ₂ = 5-10 and the ratio of high loads equal to 0.5. The residual amount of n / a 6.6 mg / l and iv 14.7 mg / l.

 The dependence of the residual amount of impurities on the ratios of grain diameters and loading heights is presented in Table 2.

From table 1 it follows that when D ₁ / D ₂ more than 10, the residual amount of n / a 9.8 mg / l, and in / in 15.7 mg / l, and when D ₁ / D ₂ less than 5, the residual amount of n / p 6.8 mg / l and iv 17.4 mg / l.

From the table. 2 it follows that with H ₁ / H ₂ more than 1.8, the residual amount of n / a 10.3 mg / l and iv 18.8 mg / l, and with H ₁ / H ₂ less than 0.9 the residual amount of n / n 6.6 mg / l and iv 14.7 mg / l.

Claims (1)

METHOD FOR WATER PURIFICATION, including clarification and multi-stage filtration through a granular charge, characterized in that prior to filtration, clarified water is taken from a level equal to 2/3 of the height of the water layer of the regulating capacity, and the material with particle diameters and loading heights is used as filter loads taken in the following respects:
D ₁ / D ₂ = 5 - 10 and H ₁ / H ₂ = 0.9 - 1.8,
where D ₁ is the particle diameter of the first stage loading;
D ₂ - particle diameter of the load of the second stage;
H ₁ - loading height of the first stage;
H ₂ - loading height of the second stage.

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