SU278563A1 - METHOD FOR CLEANING WASTEWATER FROM ORGANIC AREAS - Google Patents

Description

The invention relates to the field of wastewater treatment from organic substances dissolved in them, in particular, synthetic detergents or surface-active substances that have high electrical conductivity, by acting on E | f | effect from high-voltage electrically pulsed electric discharges. c enyl.-; ,

A known method of cleaning wastewater from organic substances, such as phenols, is to affect the treated wastewaters of pulsed electrical discharges of a high voltage energy of a single pulsed electrical discharge from 500 to 2000 joules and a duration of 10 to 1000 microseconds.

However, the known method has a relatively low efficiency and cost-effectiveness with regard to aqueous solutions of synthetic detergents or surfactants containing a significant amount of strongly dissociating mineral salts along with foaming organic matter, which drastically increases the electrical conductivity of the medium (up to values of the order Om / cm ). This reduces the effect of electrical breakdown of the fluid and the possibility of its implementation.

by reducing power & energy consumption. For this purpose, the supply of high-voltage electrical discharges is carried out with charge draining at an energy of a single act of draining from 200 to 475 J.

This ensures a high (up to 90%) degree of wastewater purification from difficult-to-remove surface-active substances (despite the fact that the concentration of the latter in wastewater reaches 1800 mg / l).

Wastewater treatment is carried out in a batch or continuous reactor (Made of metal or any sufficiently strong material. With electrodes inserted into it without forced aeration of the liquid from 10 to 90 ° C with high voltage electric current flowing in the interelectrode space.

All electrical parameters are selected depending on the structure of the dissolved chemical agent and the electrical conductivity of the medium so that it can be maintained.

The proposed electrophysical regime provides a sharp weakening of the shock-wave effect, thereby eliminating the foaming of the liquid, and intensifies the cleaning process from surfactants.

models of wastewater containing surfactants of different structure and biochemical oxide.

Example 1. Treatment of an aqueous solution of isopropyl benzene sulfonate sodium ooln with a concentration of 1750 mg / l.

Test 1 (conducted according to the known mode): a breakdown voltage of 30 kV, a discharge capacitance of 1.8 microfarads, an discharge of 580 J, a discharge duration of 14 psec.

1After Processing and 1 liter of solution with 100 pulses, the concentration of detergent is reduced by 64% from the original. Reduction in concentration by 68%. Occurs after treatment of the solution with 400 pulses.

Test 2 (Conducted according to the proposed charge charge mode): a voltage of 30 kV, a discharge capacity of 0.6 µF, a single discharge charge energy of 224 J, and a duration of 13 µsec. The decomposition of the detergent by 50% is achieved after 50 bits, by 88% after 100.

The energy consumption of the treatment process when the technological effect is reached is equal to ε (the effect with the known method is several times as long as 1 sec.

In example 2 (see below), the results of treatments by the two methods of the most hardly oxidizable NP-1 sulfonol technical detergent, which is part of the wastewater model (a synthesis product based on a branched alkyl propylene tetramer), are compared. Said detergent is biochemically degraded to no more than 35-40%. Process 1 l of a solution with a concentration of 100 mg1l, twice as high as acceptable at a biochemical purification.

Example 2

Experiment 3. Treatment according to the known mode: breakdown voltage of 50 kV, discharge capacity

1.8 microfarads, pulse energy 550 j, duration 11 microseconds.

Determination of detergent by 85% is achieved after treatment of the solution with 400 pulses (with forced aeration of the solution).

Experience 4. Processing according to the proposed mode: a voltage of 30 kV, a capacitance of 1.2 microfarads, a discharge energy of 450 j, a runoff duration of 25-30 μs. The conductivity of the solution is about 2-ilO arr. ohm / cm

Decomposition of the initial detergent by 81% is achieved after treatment of the solution with 400 discharges with runoff without forced aeration. Electricity consumption, when equal technological impairment is reached, on an acid-free detergent decreases 1.3-1.5 times.

The application of the proposed method improves the reliability of the device due to the dramatic attenuation of the shock-wave effect, reduces the erosion of the electrodes, weakens the destruction of the electrode insulation and reduces the requirements imposed on the mechanical strength of the reactor.

Subject invention

The method of purification of wastewater from organic substances by exposing the treated wastewaters to pulsed high voltage electric discharge, characterized in that, in order to simultaneously remove surfactants and reduce the cost of the process, high voltage electric discharge is supplied with drainage The charge of energy of a single act of flow is from 200 to 475 j.