CS269745B1 - Residual ozone disposal equipment - Google Patents

Abstract

) The device is intended for water treatment plants and wastewater treatment plants for chamber mixing of ozone with water. The thermal destructor for the disposal of residual ozone with an inlet nozzle is connected to the space above the water level in the mixing tank by a suction pipe with an inlet fitting, which is simultaneously connected to the atmosphere by an aeration pipe with a built-in filter filled with activated carbon. The outlet nozzle of the thermal destructor is connected to a fan with a discharge pipe with a regulating fitting. The aeration pipe is connected to the suction pipe above the filter by a connecting pipe with a shut-off fitting.

Description

The invention relates to a device for the disposal of residual ozone, and solves the connection of a thermal destructor for the disposal of unused ozone during chamber mixing of ozone with water.

There is a known device in which unused ozone is sucked into the thermal destructor by a fan from the space above the water level in the mixing tank, which is simultaneously connected to the atmosphere by an air supply pipe in order to protect the mixing tank against extreme negative pressure or overpressure, while a slight negative pressure is maintained above the water level during operation. The disadvantage of this method is the possibility of ozone leakage into the atmosphere at an overpressure above the water level in the mixing tank in the event of fluctuations in the flow rate of the ozone-air mixture supplied from the ozone generator to the mixing chambers, or in the event of a failure of the thermal destructor fan and delayed shutdown of the ozone generator. Furthermore, a device is known in which unused ozone is sucked into the thermal destructor by a fan from an enclosed space above the water level in the mixing tank, which is protected against extreme overpressure or underpressure by a liquid fuse placed in the wall at the water outlet from the mixing tank.

The disadvantage of this device is the possibility of ozone leakage into the atmosphere through the liquid fuse if a constant water supply to the liquid fuse is not ensured. The disadvantage of both of these devices is the necessity of switching off the ozone generator even in the event of a short-term failure of the thermal destructor, for example in the event of a failure of the fan or heating rod of the destructor.

The above disadvantages are eliminated by the device according to the invention, the essence of which lies in the fact that the space above the water level in the mixing tank, connected to the inlet neck of the thermal destructor, is simultaneously connected to the atmosphere by an air supply pipe with a built-in filter filled with activated carbon.

The thermal destructor's suction pipe can be connected to the air supply pipe above the activated carbon filter by a pipe with a shut-off valve. The thermal destructor's outlet is connected to the fan with a discharge pipe with a control valve.

The device according to the invention eliminates the leakage of ozone into the atmosphere when mixing it with water in the event of overpressure above the water level in the mixing tank, which improves the working environment and increases the safety of operation. Another advantage is the possibility of uninterrupted operation of the ozone generator even in the event of a short-term failure of the thermal destructor or fan and the independence of the start of the ozone generator from reaching the operating temperature in the thermal destructor.

The attached drawing shows the connection of a thermal destructor according to the invention.

The thermal destructor £ for the disposal of residual ozone with an inlet neck £ is connected by a suction pipe 9 with an inlet fitting £ to the space above the water level in the mixing tank 13. which is simultaneously connected to the atmosphere by an aeration pipe 11 with a built-in filter 2 ³ filled with activated carbon. The outlet neck 2 of the thermal destructor 2 is connected to the fan 2 ³ by a discharge pipe 12 with a control fitting £. The aeration pipe 11 is connected to the suction pipe £ at a point above the filter 2 by a connecting pipe £0 with a shut-off fitting £.

Unused ozone during chamber mixing of ozone with water is sucked from the space above the water level in the mixing tank 13 through the suction pipe £ through the open inlet fitting £ and the inlet neck £ into the thermal destructor £, where the unused ozone is destroyed by thermal decomposition and the outgoing air is sucked from the outlet neck 2 of the thermal destructor £ by the fan Ϊ and discharged through the discharge pipe 12 with the adjusted control fitting £ into the atmosphere. The control fitting £ is set so that a slight negative pressure is maintained above the water level in the mixing tank 13 while simultaneously sucking air through the air inlet pipe 11 through the filter 2. ^In the event of a short-term shutdown of the thermal destructor £, for example for the purpose of replacing the heating rod of the thermal destructor £ or repairing the fan £, the inlet fitting £ is closed, so that all unused ozone is discharged through the filter 2 under positive pressure

CS 2á9 745 51 tr J with a charge of activated carbon, where it is destroyed and all air is discharged into the atmosphere through the ventilation pipe 11. In the case where a connecting pipe £0 with a closing fitting £ is installed, this fitting is closed during the entire operation. It opens only when the ozone generator and the thermal destructor £ are started simultaneously, when the inlet fitting 6 in the suction pipe £ is closed. During the start of the thermal destructor £, only air is sucked into the thermal destructor £ through the connecting pipe £0, the closing fitting £ and the suction pipe £ until the destruction temperature is reached. This operation allows, especially in ozonization stations of small and medium capacity, the simultaneous start of the ozone generator and the thermal destructor. This eliminates the delay in starting the generator, which is otherwise necessary to reach the operating destruction temperature of the thermal destructor.

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The device finds application in water treatment plants and wastewater treatment plants for chamber mixing of ozone with water.

Claims (2)

SUBJECT OF THE INVENTION 1. A device for the disposal of residual ozone, consisting of a thermal destructor, which is connected to the space above the water level in the mixing tank by a suction pipe with a shut-off valve and whose outlet is connected to a fan with a discharge pipe with a control valve, characterized in that the space above the water level in the mixing tank (13) is connected to the atmosphere by an aeration pipe (11) with a built-in filter (3). 2. The device according to item 1, characterized in that the aeration pipe (11) is connected above the filter (3) to the suction pipe (9) by a connecting pipe (10) with a shut-off valve (7). ,