WO2009131484A1 - Device for decontaminating liquid toxic waste - Google Patents

Abstract

The invention relates to devices for thermal decontamination of liquid toxic industrial waste and can be used as a component of technical systems for totally decontaminating waste of this type. The device comprises a metal caisson (1) with a cover (2), a metal tubular heat exchanger (3) mounted on supports (4), a combustion chamber (5), an iron pipe (6) for waste gas and an injection unit (7). The novelty of the device consists in that it also comprises an economizer (11), which is arranged in the middle part of the metal tubular heat exchanger and a homogenizer (12) which is coupled to a fuel supply system (8), a combustion catalyst feeding unit (14) and to a liquid toxic waste feeding channel (13). The invention makes it possible to increase the device productivity and to improve the quality of liquid toxic industrial waste decontamination.

Description

 Device for the disposal of liquid toxic waste

The proposed solution relates to thermal neutralization of liquid toxic industrial waste and can be used as part of technical complexes designed for the complete neutralization of this type of waste.

A device is known according to the patent of the Russian Federation _N ° 2159392, which describes the invention related to the fire neutralization of liquid waste.

According to a well-known technical solution, the device includes a waste collection device, a waste evaporation device, a device for additionally heating a steam-gas mixture of neutralized waste, filters and a furnace for burning solid waste.

Liquid wastes containing mineral and organic components enter the collection tank and are then sent for evaporation.

Evaporation products are mixed with hot air and sent for drying and subsequent cleaning on filters. The solid phase of the waste resulting from evaporation is sent to the incinerator.

Flue gases from burning solid phase waste are used to heat the waste entering the collection. The device provides for additional steam and gas heating mixtures of neutralized waste, while the thermal energy of the gas-vapor mixture is used to additionally heat the waste entering the collection.

The main disadvantage of the device is that the waste disposal technological cycle contains two positive feedbacks, which, even if there is a slight violation of the adjustments, can lead to self-excitation of the system, and the resonant effects resulting from this, as a rule, lead to emergency situations.

Closest in technical essence to the claimed device is a device for the disposal of liquid toxic waste, described in the dissertation of P. B. Taukina "A set of means to protect the environment from the effects of toxic waste at the Krasny Bor" landfill (St. Petersburg, 2004, the original of the dissertation is in the library of the North-West State Correspondence Technical University (NWTU)).

It consists of a cylindrical metal caisson, a metal heat exchanger tube located inside the caisson. The heat exchanger pipe is equipped with a combustion chamber.

Liquid toxic waste is fed into the caisson. Due to the thermal energy of the fuel released in the combustion chamber, heating and evaporation of liquid waste occurs.

The resulting vapor through the injector enters high-temperature zone where toxic substances are degraded into elementary compounds. Then, through the gas outlet, the products formed either enter the atmosphere or for further purification. The disadvantage of this device is the unevenness of the temperature field along the pipe-heat exchanger, which leads to incomplete decomposition of toxic substances.

The technical result of the proposed solution is to increase the productivity of the device and improve the quality of neutralization of liquid toxic waste.

This is achieved by the fact that the device for the disposal of liquid toxic waste containing a metal caisson with a lid, inside which there is a metal pipe-heat exchanger fixed to the supports, in the left part of which there is a combustion chamber, and in the right - a cast-iron pipe for exhaust gases, an injection device, the fuel supply system and the air supply channel to the combustion chamber, the channel for supplying liquid toxic waste into the caisson and the control and measuring equipment, is characterized in that it is additionally equipped with an economizer m installed in the middle of the metal pipe-heat exchanger between the combustion chamber and the cast-iron pipe for exhaust gases, a homogenizer connected to a fuel supply system, a combustion catalyst supply device to the homogenizer and a liquid toxic waste feed channel, an emulsion of “waste-” is formed in the homogenizer fuel "alloyed with a catalyst combustion, which is supplied to the combustion chamber through the fuel mixture supply channel, while the economizer inlet is connected to the fuel supply system, and the output to the homogenizer.

The inventive combination of structural elements and relationships allows us to solve the problem.

When studying well-known technical solutions in this technical field, the totality of features that distinguish the claimed object was not identified. This solution differs from the known ones. Presented in the figure, the drawing explains the essence of the proposed technical solution.

In FIG. a functional diagram of a device for the disposal of liquid toxic waste.

The proposed device (see Fig.) Contains a metal caisson 1 with a cover 2. Inside the caisson 1 there is a metal pipe-heat exchanger 3 mounted on supports 4. On the left side of the pipe-heat exchanger 3 there is a combustion chamber 5, and on the right is a cast-iron pipe 6 for exhaust gases. The metal pipe-heat exchanger 3 is equipped with an injection device 7, a fuel supply system 8 and an air supply channel 9. Liquid toxic waste is fed into the caisson 1 through channel 10. In the middle part of the heat exchanger pipe, a water economizer 1 1 is installed between the combustion chamber 5 and the cast-iron exhaust pipe 6, which has a spiral shape. The proposed device for the disposal of liquid toxic waste contains a homogenizer 12, which provides fuel enrichment with liquid toxic waste, which is fed into it through the channel 13. The homogenizer 12 is connected to the combustion catalyst supply device 14, which is connected to the air supply channel 9. A thin emulsion forms in homogenizer 12

"Waste-soot", doped with a combustion catalyst, which through channel 15 is fed into the combustion chamber 5. The channel 10 for supplying liquid toxic waste to the caisson 1 includes a water pump and a quantity flow meter (not shown in FIG.).

Similarly, an air pump and control or shutoff valves are provided in the air supply channel 9. Instrumentation consists of several thermocouples 16 and a waste level switch 17 located inside the metal pipe-heat exchanger 3. The fuel supply system 8 provides primary fuel heating and its supply to the combustion chamber 5.

The device operates as follows.

Liquid toxic waste through channel 10 enters into the caisson 1, their quantity is recorded by the flow meter-quantity counter. The liquid waste level is controlled by a level 17 relay. The amount of incoming waste is regulated by a shut-off valve. After primary heating, fuel is supplied to the water economizer 11 located inside the pipe-heat exchanger 3, in which the fuel is additionally heated. Heated fuel flows into homogenizer 12. At the same time, the liquid toxic waste heated in the caisson 1 enters the homogenizer through the liquid toxic waste feed channel 13, and their supply is carried out due to the hydrostatic pressure determined by the level of the liquid toxic waste in the caisson 1. Regulation of the amount of waste entering the homogenizer 12 is carried out by a shut-off valve. Using the device 14, a combustion catalyst enters the homogenizer. Highly homogenized fuel mixture, consisting of a thin emulsion of "liquid wastes-fuel", doped with a combustion catalyst, enters the combustion chamber 5 through the channel 15. The amount of fuel mixture entering the combustion chamber is regulated by a shut-off valve. For pressure equalization in the fuel supply system 8 and the catalyst supply device 14, a pressure transmission channel is provided from the air supply channel 9 to the catalyst supply device 14. The air necessary for the combustion of fuel is supplied to the combustion chamber 5 through the air supply channel 9 by means of an air pump. The amount of air supplied is controlled by a shut-off valve. In the combustion chamber 5, combustion of the fuel mixture occurs, accompanied by the effective decomposition of toxic waste in the highest temperature combustion zone. At the same time, the waste vapors located in the caisson 1 enter the heat exchanger pipe 3 through the injection device 7, where they experience a high-temperature effect, which ensures the neutralization of the toxic substances contained in them. The exhaust gases are discharged from the installation through a cast-iron pipe 6 for exhaust gases. The temperature in the heat exchanger pipe 3 is controlled by thermocouples 16.

Tests have shown high efficiency of the device, namely an increase in productivity and an increase in the quality of neutralization of liquid toxic waste.

Claims

Utility Model Formula

1. A device for the disposal of liquid toxic waste, containing a metal box with a lid, inside of which there is a metal pipe-heat exchanger fixed to the supports, on the left side of which there is a combustion chamber, and on the right - a cast-iron pipe for exhaust gases, an injection device, a fuel supply system and a channel for supplying air to the combustion chamber, a channel for supplying liquid toxic waste to the caisson and instrumentation, characterized in that it is additionally equipped with an economizer installed in days of the part of the metal pipe-heat exchanger between the combustion chamber and the cast-iron pipe for the exhaust gases, a homogenizer connected to the fuel supply system, a device for supplying a combustion catalyst to the homogenizer and a channel for supplying liquid toxic waste, while an emulsion of “waste-fuel” doped in the homogenizer combustion catalyst, which is fed into the combustion chamber through the fuel mixture supply channel, while the economizer inlet is connected to the fuel supply system, and the output is connected to the homogenizer.

2. The device according to p. 1, characterized in that the control and measuring equipment includes a flowmeter-counter of the amount of waste, thermocouples and level switches of liquid waste.