HU202968B - Apparatus for detoxicating liquid wastes by means of burning - Google Patents

Abstract

The present invention relates to an apparatus for detoxifying liquid waste by incineration, having a liquid waste storage tank, a liquid inlet connection nozzle, a reservoir for resuscitation of a liquid waste, a container for discharging liquid waste by means of a connection nozzle for discharge of a vapor / gas mixture, an outlet of a concentrated liquid phase, and an emergency junction. as well as a separator in the container formed between the discharge port of the gas / gas mixture and the emergency connector, wherein the free end of the resonance tube 15 is located below the emergency evacuation connector. The essence of the invention is that the resonance tube (7) is provided with an air-tight jacket (8) surrounded by an air cavity (10), and that the inlet port (15) of the liquid waste (22) is arranged in the chamber (14) where the air cavity (14) is located. 10) on the side of the free end of the resonance tube (7) is connected with a further chamber (14) and on the opposite side with an air source. (Figure 1) EN 202968B Scope of the description: 5 pages, 1 drawing, Figure 1 -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for decontaminating liquid wastes by incineration, comprising a liquid waste storage tank, a gas storage tank, a gas storage tank, a gas storage tank, and a separator formed in a container between the emergency discharge connection and the free end of the resonance tube being disposed below the emergency discharge connection.

The invention relates to the protection of nature against dirt.

The intensive development of the chemical industry is causing not only a massive increase in liquid waste, especially in industrial waste water, but also a qualitative change in its composition. Liquid waste - depending on the production technology in question, may contain inorganic acids, alkalis, salts (fluoride, sulfate, phosphate, etc.), fatty acids, aromatic hydrocarbons, alcohols, aldehydes, phenols, oil products, oils, giant molecules and other mixtures.

Liquid waste is basically a complex mixture of several components. The hazard class of the liquid waste depends on the toxicity of the substance in question. The problem of detoxification is not only related to the protection of liquid wastes, but also to the utilization of exhaust gases.

Currently, various physical, chemical and biological methods are used to detoxify liquid wastes.

The disadvantage of each of these is to guarantee reliable detoxification of liquid wastes that contain both harmful organic and mineral additives.

Therefore, very extensive thermal processes are used where the oxidation of the harmful organic additives with oxygen contained in the air takes place at temperatures above 1300 ° K and a pressure up to 0.2 MPa (by detoxification) or where the oxidation of the harmful organic additives is carried out at atmospheric pressure. or where the oxidation of the harmful organic additives is carried out at pressures of up to 35.2 MPa or where the oxidation of the harmful organic substances occurs at temperatures of 400-500 ° K and above 0.2 MPa with perfect evaporation of water.

In this order, detoxification by incineration is the most preferred procedure for its universality, that is, its suitability for a variety of industrial wastewater compositions and their relatively simple nature.

Known apparatus for detoxifying liquid wastes by incineration from SU Certificate 808 782 1, having a liquid waste receptacle formed by a vapor / gas mixture and concentrated liquid outlet connection to discharge liquid waste and, if necessary, drain it. A pulsed combustion chamber is formed underneath the tank, which has a resonance tube inside the tank. The free end of the resonance tube is located above the level of the emergency discharge connection, i.e. the liquid waste. The container is provided with a umbrella aperture arranged above the outlet of the resonant tube. The umbrella is even provided with a horizontal perforated section connected to the aperture, which is located below the emergency drain connection, which means that it is discharged into liquid waste during operation. There is a separator between the steam / gas outlet and the emergency drain connection.

In the operating state of the known device, the combustion products (flue gases) leaving the combustion chamber by impulse combustion pass through the resonance tube and then, via the umbrella blind, are placed under the perforated part and blown air through a layer of harmful organic and mineral additives. and in the meantime it heats up the liquid waste.

The volatile, noxious, organic additives found in liquid waste are diverted upward along with the resulting vapor / gas mixture and the droplets they break. The whole is then passed through a downflow, which reduces the amount of droplet passage, and is then discharged from the tank via the steam / gas mixture outlet. High boiling, noxious organic additives in liquid waste are detoxified at the interface between liquid waste and flue gases.

The effectiveness of the known apparatus is limited firstly by the loss of heat in the vapor / gas mixture by the umbrella aperture, secondly by the temperature of the heated liquid waste merely providing for the volatilization of volatile impurities and not by detoxification, and thirdly by the high melting point. detoxification of organic additives only occurs where they come into contact with the flue gases.

In order to prevent environmental contamination, guaranteeing complete detoxification of harmful organic additives in such known equipment requires additional combustion space which ensures the complete detoxification of harmful organic additives leaving the known equipment, which will further increase the cost and thus cost of creating and operating such a furnace.

EN 202968 Β consequently results in a reduction in the cost-effectiveness of the waste detoxification process.

In addition, the safety of the known apparatus is limited, firstly, by the fact that the umbrella blade can be burned by the hot flue gases leaving the roson tube, secondly, that the large temperature difference between the umbrella blender and the perforated gap2e can lead to significant temperature loads and thirdly, the large contact area between the resonant beam and the liquid waste requires the known equipment to be stopped at short intervals to clean away the debris that has been deposited.

Also known is a device for detoxifying liquid waste by incineration from SU 937893 1, which has a liquid waste storage tank formed with a liquid waste inlet and emergency purge connection and a steam / gas mixture outlet connection. Above the tank is a combustion chamber with a resonant beam for impulsive combustion.

The resonance boat is introduced into the container, where the free end thereof is disposed below the emergency discharge connection, which means that it is discharged into liquid waste during operation of the known equipment. The pulsed combustion chamber is connected directly to the top of the tank. A separator is integrated between the gas / vapor mixture outlet nozzle and the emergency purge connection nozzle to reduce the amount of droplets captured by the vapor / gas mixture.

During operation of the known apparatus, the combustion products (flue gases) leaving the pulsed combustion chamber pass through the resonance tube and a layer of liquid organic waste containing organic and mineral additives is vented and heated to 350-380 ° K.

The volatile harmful organic additives present in the liquid waste are held up between the walls of the tank and the resonance tube, together with the vapor / gas mixture produced and the captured droplets. It then passes through the entire down diverter, which reduces the amount of captured droplets and exits the tank via a steam / gas mixture outlet. Detoxification of high boiling, noxious organic additives in liquid wastes occurs only at the point of contact with the flue gases leaving the resonant tube, i.e. only partially.

The safety of the known apparatus is greater than that of the foregoing, since there is no umbrella disposed therein and a substantial portion of the resonance beam is located above the level of the liquid waste.

However, the efficiency of the known apparatus is the same as that of the first, since the detoxification of harmful organic additives is not satisfactory. Equally, ensuring complete detoxification of harmful organic additives requires an additional combustion chamber, which leads to a reduction in the economics of the waste detoxification process.

SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above shortcomings, that is, to provide an apparatus for deinking liquid waste by incineration, wherein a unit for introducing liquid waste into a container is connected to a heat source such that detergent organic additives are always detoxified directly in the resonance tube. , that is, in a high temperature range.

The object of the present invention is to solve the problem with the device mentioned in the introduction, the resonant boat having an airtight jacket forming an air cavity, and a liquid waste inlet manifold arranged in the chamber, the air cavity is connected.

The air cavity between the airtight jacket and the resonance tube and the free end of the resonance boat on the side with the air chamber connected to the additional chamber and the opposite side with the air source allows the air introduced into the additional chamber to be heated by 500-800 ° K. the temperature needed to drive off volatile organic compounds.

The introduction of the liquid waste into the further chamber and the connection of the additional chamber to the resonance tube offers the possibility of removing the volatile organic compounds introduced into the further chamber from the liquid waste by the heat of the heated air transported from the airspace. which results in a gas stream with a maximum turbulence of 1670-1970 ° K, that is, better conditions for mixture formation and heat exchange, whereby said temperature ensures the guaranteed detoxification of harmful additives.

Preferably, the air cavity is connected to the further chamber through tangential channels.

Autumn coupling of the air cavity with additional chamber tangential channels allows for an even distribution of heated air throughout the chamber and better blend formation, thereby providing a contact surface between hot air and liquid waste, such as volatile, organic the separation efficiency of the compounds increases.

HU 202968 Β. An embodiment in which the further chamber is narrowed in the direction of the pulsed combustion chamber is preferred.

Such an arrangement of the additional chamber has the potential; increasing the rate of entry of the vapor / gas mixture into the resonance tube and thereby improving the heat exchange between the flue gases and the mixture leaving the further chamber.

It is possible to have an embodiment in which the resonant beam is connected via holes in the wall of the further chamber.

Connecting the additional chamber to the resonance tube through the holes provided in the wall enables the vapor / gas mixture to be uniformly introduced into the resonance tube and to improve the conditions for snow exchange between the flue gases and the mixture leaving the further chamber by increasing the contact area.

An embodiment having an aeration evaporator coupled to a resonant tube, which is formed as a closed spiral chamber, is connected to the end end of the resonance tube and has nozzles, and the nozzles of the helical auxiliary threads are offset.

The aeration evaporator is designed as a spiral chamber with nozzle orifices connected to the resonant beam through its front end, allowing for a uniform distribution across the container space and utilizing the heat of the processing products exiting the resonant tube to provide liquid waste. and to reduce the deposition of mineral additives on the entire inner surface in contact with the liquid waste.

The reverse arrangement of the nozzle openings in the side passages improves the heat exchange between the processed products and the liquid waste in the tank, thereby increasing the efficiency of the compaction.

The apparatus according to the invention, together with its advantages and features, will be described in more detail below with reference to an exemplary embodiment. In the drawing:

Figure 1 is a schematic diagram of an apparatus according to the invention.

The apparatus according to the invention, as shown in the figure, has a receptacle 1 which has a vapor / gas mixture outlet port 2, a concentrated liquid port outlet port 3 and a liquid waste discharge port 4.

For example, by means of welding, a pulsed combustion burner 6 of a resonant beam 7 is secured to the top 5 of the container 1, the resonance tube 7 being introduced into the container 1 through the upper end 5.

The lower end, i.e. the free end, of the resonance tube 7 is located below the emergency drain connection 4. The pulsed combustion chamber 6 and the resonant tube 7 are surrounded by a metal air-tight jacket 8 between which an air gap is formed. The air gap in the lower part of the combustion chamber 6 is divided by a baffle 9 into an air cavity 10 surrounding a lower resonance tube 7 and an upper air cavity 11 surrounding the combustion space 6. The air cavity 11 and the upper portion of the air cavity 10 are connected via a distribution valve 12 to an air source, such as a fan, which is not shown in the figure for simplification. The pulsed combustion chamber 6 is connected via the combustion unit 13 to the upper air cavity 11 and to a fuel source (not shown) for the sake of simplification. At the lower end of the resonance tube 7, for example by welding, an additional chamber 14 is secured through the tube port 15, through which the liquid waste is also introduced from the container which is left out of the figure.

The upper chamber of the further chamber 14 is conically shaped. The walls forming the upper part of the chamber 14 are provided with holes 16 through which they are connected to the resonance tube 7. The chamber 14 is further connected to the lower air cavity 10 via tangential channels 17. A closed helical chamber 18 is provided on the lower end of the metal air-tight jacket 8 and is provided with nozzle openings 19. The nozzle openings 19 are formed by wall portions which are partially cut out and bent towards the container 1 in the spiral chamber 18. At the auxiliary passage of the helical chamber 18, the nozzle openings 19 are formed in opposite directions. In the container 1 there is arranged a separator from the divider 20 and the channels 21 between the emergency drain connection 4 and the steam / gas mixture outlet connection 3, where the flow direction is suddenly (steeply) changed.

The operation of the apparatus according to the invention will be briefly described below.

Before starting the apparatus according to the invention, the container 1 is filled with liquid waste 22 through the manifold 15 to the connection port 4 for emergency emptying.

During operation of the apparatus according to the invention, the level of liquid waste 22 is always kept constant by refilling through the pipe connection 15. The fuel and air are introduced into the impulse combustion chamber 6 through the combustion unit 13, where the air flows through the upper air cavity 11 and cools the surface of the combustion chamber 6. The air introduced into the upper portion of the air cavity 10 via the distribution valve 12 is simultaneously heated by the heat of the combustion products (flue gases) to 450-750 ° K and conveyed by the tangential channels 17 to the further chamber 14, where

Intensive mixing of the liquid waste 22 with the hot air, removal of volatile organic additives, and introduction of the resulting mixture into the lower part of the resonance tube 7 via holes 16 in the conical portion 5 of the chamber 14.

The geometry of the additional chamber 14 and the holes 16 increase the exit velocity of the vapor / gas mixture and ensure that the vapor / gas mixture 10 is uniformly introduced into the resonance tube 7.

In the resonance tube 7, an intense snow exchange takes place between the steam / gas mixture and the maximum vortex flue gas temperature from 1670-1970 ° K, which is released into the resonance tube 7.

This creates optimum conditions for detoxifying harmful organic additives.

Liquid waste processing products 20 are discharged from the resonant tube 7 into the closed helical chamber 18 and are vented through the nozzle openings 19 in their entirety.

The opposite arrangement of the nozzle openings 19 formed in the auxiliary passage of the spiral chamber 18 improves the heat exchange between the products of the liquid waste 22 from the resonance tube 7 and the liquid waste 22 in the container 1, which ensures maximum utilization of the heat of the processed products.

As a result of the aeration of the liquid waste 22, the gaseous mixture formed from the processed products passes through channels 21 of steep (sudden) change in the partition wall 20, where the captured droplets are separated from the vapor / gas mixture.

The vapor / gas mixture freed from the captured droplets is discharged through the connection port 40 into the open air.

Liquid waste 22 which has been concentrated to the desired concentration of mineral additives is discharged from the container 1 through the connection port 3 for recovery or other purposes.

The apparatus of the present invention is most preferably used for the detoxification of liquid wastes 22 such as industrial wastewater containing harmful organic and mineral additives.

Claims (5)

PATENT CLAIMS 1. An apparatus for decontaminating liquid waste by means of an incinerator, a liquid waste storage tank, a liquid waste storage tank, a liquid waste storage tank, a separator formed in a reservoir between the terminal connection port and the emergency discharge connection port, wherein the free end of the resonance tube is arranged below the chute junction connection port, characterized in that the resonance tube (7) is surrounded by an air barrier (8) a pipe nozzle (15) for introducing liquid waste (22) in the chamber (14), wherein the air cavity (10) is provided with an additional chamber on the free end side of the resonant tube (7) (14 and is connected to an air source on the opposite side. Apparatus according to claim 1, characterized in that the air cavity (10) is connected to the further chamber (14) via tangential channels (17). Apparatus according to claim 1, characterized in that the further chamber (14) is narrowed in the direction of the combustion chamber (6) for impulse combustion. Apparatus according to claim 1, characterized in that it is connected to the resonance tube (7) through holes (16) in the wall of the further chamber (14). Apparatus according to claim 1, characterized in that it has an aeration evaporator coupled to the resonance tube (7), which is formed as a closed spiral chamber (18), which is connected to the resonance tube (7) through its front end and nozzle openings (19). and the nozzle openings (19) of the auxiliary threads of the helical chamber (18) are arranged in opposite directions.