RU2098357C1 - Floating induction electrocoagulator - Google Patents

Abstract

FIELD: waste water treatment. SUBSTANCE: electrocoagulator designed to treat heavy metal-containing waste waters consists of pontoon inductors disposed on the latter. Each one-phase inductor consists of toroidally shaped core with insulated-wire one-phase coil wound with the aid of insulating annular spacers. On switching on power, primary current passes through coil inducing secondary current in waste water. Impurities in waste water are electrically coagulated and settled down onto the bottom of settler, whereas purified water is withdrawn from settler through drain pipe. Accumulated sludge is removed by means of special pumps. Inductors' being suspended on the pontoon makes it possible to conduct continuous treatment of waste waters resulting in increasing productivity of process. EFFECT: increased productivity. 4 dwg

Description

 The invention is intended for wastewater treatment containing heavy metal ions and other electrically conductive wastewater.

Currently known electrocoagulators described in the literature:
1. Rodionov A.I. Klushin V.N. Torocheshnikov N.S. Environmental engineering. M. Chemistry, 1989, p. 284 onwards
2. Kulsky L. A. Grebenyuk V. D. Savluk O.S. Electrochemistry in water purification processes. Kiev. Technique, 1987, p. 52 onwards.

 The designs of known electrocoagulators contain a large number of electrodes that are consumed, worn out during operation, require frequent replacement, thereby reducing the performance and reliability of the electrocoagulator in operation.

The prototype electrocoagulator comprises a dielectric body with sockets for water inlet and outlet and a three-phase system of electrodes with a neutral electrode, the surfaces of which are arranged in concentric circles, an additional electrode coaxially mounted outside the three-phase electrodes connected to the neutral electrode [1]
The electrocoagulator of the prototype has limited performance, in addition, water is discharged and supplied through pipelines of a given section.

 The objective of the invention is to increase productivity and simplify the technological scheme of cleaning.

 The essence of the invention lies in the fact that the induction electrocoagulator, containing toroidal inductors with single-phase primary windings, is additionally equipped with a pontoon, on the bottom of which toroidal inductors are rigidly fixed, and the primary winding is made of insulated wire.

 The execution of inductors floating allows the use of an electrocoagulator for continuous treatment of wastewater, regardless of the level of wastewater in the sump. This circumstance also allows you to immediately process large volumes of wastewater, increasing the performance of the electrocoagulator.

 In FIG. 1 shows a floating induction electrocoagulator, a side view of the assembly; in FIG. 2 same, top view; in FIG. 3 the same, a cut along the vertical axis; in FIG. 4 single phase quarter cut inductor.

 The floating induction electrocoagulator consists of a pontoon 1, having inductors 2, which are attached to the pontoon by bolts 3 with nuts 4, washers 5, using gaskets 6. Each single-phase inductor 2 consists of a toroidal core 7, on which is made using ring insulating gaskets 8 winding 9 from an insulated wire, the terminals 10 of which are mounted on the terminal block 11. Core 7, mounting bolts 3, nuts 4 and washers 5 are coated with a corrosion-resistant layer 12.

 The drawings show a variant of a three-phase two-time circuit of six inductors 2 when powered by a three-phase network. The power connection diagram is typical, therefore, not shown in the drawings.

The work of a floating induction electrocoagulator is as follows:
A pontoon of a floating induction electrocoagulator is placed on the surface of wastewater in a sump. The findings of 10 inductors 2 are summarized in a terminal block 11, which is connected by a flexible electric cable to a power supply unit from a typical power supply network.

 The pontoon 1, to which the inductors 2 are suspended, rises or falls on the surface of the effluent, regardless of the level of wastewater in the sump, that is, the position of the inductors 2 in the wastewater is automatically adjusted.

 When the power supply is connected, the primary current passes through the windings 9, while in the wastewater, which is also the secondary winding, a secondary current is induced, under the action of which the components contained in the drains coagulate and settle to the bottom of the sump.

 The treated wastewater flows from the sump through a pipe (not shown), and the sludge resulting from electrocoagulation is removed, for example, using special pumps.

 The electrocoagulator can operate continuously, regardless of the flow of water.

 The effectiveness of the proposed floating induction electrocoagulator is determined by the specific design according to the specified operating conditions, depending on the conductivity of the treated effluents, the number of phases of the supply voltage, the number of inductors of the electrocoagulator and the power of their windings.

Claims (1)

 A floating induction electrocoagulator containing a current lead connected to an AC source, characterized in that it is equipped with a pontoon, the current lead is made in the form of toroidal inductors rigidly fixed to the bottom of the pontoon, and the primary winding is made of insulated wire.

Images