RU2763824C1 - Wastewater purifying method - Google Patents

Abstract

FIELD: wastewater purifying.SUBSTANCE: invention relates to a technology for purifying wastewater from ammonium ions, heavy metals and oil products and can be used in agriculture. The method includes adding natural zeolite with a fraction size of 1.0-1.5 mm to the purified water, stirring, settling in the interval of 12-48 hours, filtering, while BAU-A charcoal with a size of fractions 0.25-0.5 mm in a ratio of 1:1 and uniform mixing is carried out at a rotation speed of 2-3 rpm for 15-20 s.EFFECT: reduction of the content of ammonium ions, heavy metals and oil products during wastewater treatment below the maximum permissible concentration (MPC) with the possibility of using purified water for irrigation of crops.1 cl, 2 tbl, 2 ex

Description

The invention relates to methods for purifying wastewater from ammonium ions, heavy metals and petroleum products and can be used in agriculture.

Currently, a wide range of different methods are known for the purification of aqueous solutions from ammonium ions, heavy metals and oil products: reagent, using sorbents, reagentless and combining various methods.

There is a known method of wastewater treatment from metal ions, which is based on the treatment of wastewater with stressing cement, which is added to wastewater in an amount of 80 mg/l, mixed and after 10 minutes the precipitate is separated (RU No. 2588233, 01.07.2015). The method makes it possible to extract metals such as chromium, lead, thorium, strontium, manganese, and iron from wastewater.

The disadvantage of this method is the high consumption of the sorbent and the limitation of wastewater treatment by types of metals, ammonium ions and petroleum products.

For the prototype, a method for cleaning wastewater from ammonium ions and heavy metals was chosen, according to which natural zeolite is added to the purified water, mixing, settling, filtering are carried out, characterized in that natural zeolite is used as a natural zeolite with a clinoptilolite content of 50-60% with a size fractions of 1.0-1.5 mm, uniform mixing is carried out at a rotation speed of 1-2 rpm for 10-15 seconds, settling is carried out in the range of 12-48 hours (RU No. 2553890, 07/10/2014).

The disadvantage of this method is the high complexity and significant energy costs.

The objective of this invention is the possibility of purification of wastewater from ammonium ions, heavy metals and petroleum products.

EFFECT: lowering the content of ammonium ions, heavy metals and oil products during wastewater treatment below the maximum allowable concentration (MPC) with the possibility of using purified water for irrigating crops.

The technical result is achieved by a method for cleaning wastewater from ammonium ions, heavy metals and oil products, according to which natural zeolite with a fraction size of 1.0-1.5 mm is added to the purified water, mixing, settling in the range of 12-48 hours, filtering , charcoal activated carbon of the BAU-A brand with a fraction size of 0.25-0.5 mm in a ratio of 1:1 is added to the natural zeolite in purified water, uniform mixing is carried out at a rotation speed of 2-3 rpm for 15-20 seconds .

BAU-A activated carbon is a porous material consisting mainly of carbon. It has a highly developed overall porosity, a wide range of pores and a significant specific absorbing surface area. According to physical and chemical indicators, active crushed charcoal must comply with the requirements and standards specified in the table.

The use of activated carbon brand BAU-A with a fraction size of 0.25-0.5 mm is optimal for obtaining the claimed technical result. A change in the fractional composition of activated carbon grade BAU-A worsens the quality of treated wastewater in terms of the content of ammonium ions, heavy metals and oil products.

An example of a specific implementation.

Example 1

Waste water, natural zeolite with a fraction of 1.0 mm and activated charcoal of the BAU-A brand with a fraction of 0.25 mm in a ratio of 1:1 were placed in conical flasks, uniform mixing was carried out at a rotation speed of 2 rpm for 15 seconds. Settling was carried out for 12 hours. After settling, filtration was carried out and the concentration of ammonium ions, heavy metals and oil products was determined by photocolorimetry.

Example 2

Waste water, natural zeolite with a fraction of 1.5 mm and charcoal of the BAU-A brand with a fraction of 0.5 mm in a ratio of 1:1 were placed in conical flasks, uniform mixing was carried out at a rotation speed of 3 rpm for 20 seconds. Settling was carried out for 48 hours. After settling, filtration was carried out and the concentration of ammonium ions, heavy metals and oil products was determined by photocolorimetry.

Data on wastewater treatment with ferrite suspension are given in the table.

Thus, the claimed method provides a reduction in the content of ammonium ions, heavy metals and oil products during wastewater treatment below the maximum allowable concentration (MPC) with the possibility of using purified water for irrigation of crops.

Claims (1)

A method for treating wastewater from ammonium ions, heavy metals and oil products, according to which natural zeolite with a fraction size of 1.0-1.5 mm is added to the purified water, mixing, settling in the range of 12-48 hours, filtration, characterized in that charcoal activated carbon of the BAU-A brand with a fraction size of 0.25-0.5 mm in a ratio of 1:1 is added to the natural zeolite in the purified water, uniform mixing is carried out at a rotation speed of 2-3 rpm for 15-20 s.