RU2008265C1 - Method of defferization of water - Google Patents

Abstract

FIELD: water purification. SUBSTANCE: process includes water intake with subsequent treatment of water with oxidizing agents which are added to blanket filter immediately after water intake, with oxidizing agent being trisodium phosphate. Such oxidant is added in the amount which is calculated depending on D= (2.0-2.5)·C, wherein D is oxidant dose, mg/l, and C is iron concentration in water to be purified, mg/l. EFFECT: higher degree of water purification.

Description

 The invention relates to the purification of water from iron ions and can be used in the purification of groundwater from iron ions with a concentration of from 0.3 to 40.0 mg / L.

 The aim of the invention is to increase the efficiency of purification of groundwater from iron by increasing the duration of the filter cycle.

 The method is as follows.

 After the abstraction of underground water containing iron ions (divalent), water through a closed pipeline is immediately fed to the filtration through a sand load. The reagent is trisodium phosphate with a dose of D = (2.0-2.5) ° C, where D is the dose of the trisodium phosphate reagent, mg / l; C is the initial concentration of iron, mg / l, is fed into the water cushion of the filter, where the iron binding reaction takes place. Then, simultaneously with the introduction of the reagent, a filtering process occurs through a sand load.

PRI me R. The source water of the following composition is purified: ferrous iron 14 mg / l, alkalinity 3.6 mEq / l, oxidizability 9.2 mg / l O ₂ , hardness 4.2 mEq / l. The experiment is carried out on model installations (filter columns) with a diameter of 50 mm, a height of 2 m, loaded with quartz sand with a diameter of 0.8-1.2 mm, a loading height of 1.6 m, filtering is carried out at a speed of 6 m / h.

The quality of the filtrate on iron, pH, alkalinity evaluate the process of iron removal. Reagent Na ₃ PO ₄ is administered in various doses under a water filter pad. The removal efficiency of iron is determined by the duration of the filtration cycle, i.e., before the breakthrough of iron ions in the filtrate. Semi-production tests are carried out on a filtrate with a diameter of 0.5 m, a height of 1.8 m, loaded with quartz sand with a diameter of 0.8-1.2 mm and at a filtration speed of 6 m / h.

 The experimental data are given in the table.

The duration of the filter cycle (process efficiency) in the proposed method is longer and averages 19 hours, whereas in the prototype it is 7.1 hours. Thus, the process of removing iron ions in the proposed method is 2.5 times more efficient. In the proposed method, the formation of an insoluble compound Na ₃ PO ₄ , which has a size of 1.5-2.5 μm, occurs during filtration, the latter is retained in the pore space of the load. In the prototype, when coagulant is introduced, flakes of 1-2.5 mm in size are formed. When filtering, pollution is also retained. The pore space where the flakes precipitate is clogged faster. Thus, the filter cycle depends on the load capacity of the load.

 (56) G. Nikoladze. Preparation of water for drinking and industrial water supply. M., 1984.

Claims (1)

METHOD OF WATER TREATMENT FROM IRON, including water intake, reagent injection and filtration, characterized in that, in order to increase the efficiency of the groundwater iron removal process by increasing the duration of the filter cycle, trisodium phosphate is introduced into the water cushion of the filter immediately after water intake simultaneously with filtration, and trisodium phosphate is introduced in an amount determined from the dependence
D = (2.0 ÷ 2.5) C,
where D is the dose of trisodium phosphate, mg / l;
C is the concentration of iron in the source water, mg / L.

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