JPH0767979A - Wastes discarding equipment and method - Google Patents

Abstract

PURPOSE: To provide a waste treatment equipment by which highly toxic waste can be completely dissociated and a toxic component does not remain at discharge time by changing toxic waste into a liquid residual and gas by sending it to an electric plasma heating system, and disrupting and dissociating exhausted waste gas by sensitive plasma. CONSTITUTION: Waste 30 is sent into an electric plasma group 12, and is heat- treated by an electric plasma torch 11. Exhausted gas enters a second waste treatment equipment 22 through a deriving pipe 20. The second waste treatment equipment 22 is surrounded by a sensitive coil 25, and the isolating ends 33 are arranged in its both end parts. Gas flowing out of the electric plasma group 12 is dissociated in the second waste treatment equipment 22, and after the exhausted gas becomes atoms or particulates after being treated, it is carried in a cooling system 40, and particulates treated twice are cooled. It is filtered in a filter 44, and the particulates are removed, and it is treated by a reactor 46, and an acid substance is removed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste treatment apparatus and method, and more particularly to an electric plasma torch waste gas treatment apparatus combined with an electric or magnetically sensitive electric plasma heating apparatus, thereby producing toxic waste. The present invention relates to a combined waste treatment device and method that allows the gas to be completely dissociated before being finally discharged.

[0002]

2. Description of the Related Art When discharging toxic waste, the final discharge of this waste is safe because the highly toxic waste cannot be surely completely dissociated. It is very difficult to determine if it will not damage the environment. With the advancement of science and technology, the chances of using toxic components in the process of manufacturing more various products have greatly increased, and the requirements for safe emission of highly toxic substances have become more and more strict. However, it is difficult to completely dissociate toxic waste and safely discharge it.
Above all, highly safe and highly toxic wastes such as PCBs
If (polychorobenzene biphenyls) is not completely dissociated and the remaining toxic substances are discharged into nature, it may cause long-term environmental damage.

Many techniques have already been applied to solve the problem of toxic waste emissions. These techniques are heat destruction,
Including various methods such as solidification, stabilization and special embedding,
Except for high-temperature incineration, it has already been somewhat effective in terms of the safe discharge treatment of highly toxic or highly safe waste. Most of these methods are inflexible and inconvenient, and all of them should be pretreated and converted into homogeneous waste.
Otherwise it can only be treated as a low toxicity concentrate. Also, since these methods cannot guarantee that the substances discharged using the methods provided by them will fully comply with the regulations of the government's Hazardous Waste Emission Standards, they have very few commercial applications.

The method of destruction using high temperature requires heat treatment for extremely stable toxic wastes under relatively high temperature for a relatively long period of time, so that a very large furnace or rotary Waste components should be destroyed by incineration using a furnace. This type of system requires a very large amount of oxygen in use, and passes through the process of internal combustion, thus often forming another form of emissions problem.

Recently, a method of destroying toxic waste components with an electric plasma torch has been invented, thus overcoming the problems encountered in the field of combustion technology. This electric plasma torch atomizes and ionizes toxic components into monatoms and monoions, and then newly composes a single substance. Barton, etc. applied for US 464487
Patent No. 7 "Method for disintegrating waste with electric plasma" was announced on February 24, 1987, which states that the electric plasma torch atomizes and ionizes the waste materials and then newly combines them. And neutralized with an alkaline atomized spray, the resulting waste gas is combusted prior to final discharge. The device is extremely complex and difficult to operate as it uses several heat treatments and chemical reactors. In addition, highly stable toxic wastes such as PCBs may not be sufficient with only one-step heat treatment. Therefore, the waste treated in this way may remain toxic at the time of its final discharge, as its relatively stable waste may not yet be completely destroyed, which may result in long-term waste. The problem of polluting the environment still exists.

Therefore, for those who are well aware of this type of technology, there is a need to improve upon the waste treatment equipment and methods that are still generally well known. Above all, it should be ensured that the waste material is completely destroyed by the waste treatment equipment which is easy to operate and that the discharged material is safe.

[0007]

SUMMARY OF THE INVENTION The main object of the present invention is to provide a waste treatment apparatus in which highly toxic waste is completely dissociated and no toxic components remain when discharged.

Another object of the present invention is to heat treat at high temperature to completely dissociate highly toxic waste and to use no oxygen, thus PCDD (polychlorinated) in the process of discharge.
It is to provide a waste treatment device capable of preventing the generation of dibenzo-p-dioxins).

Another object of the present invention is to provide a waste treatment apparatus which can completely dissociate the highly toxic waste and does not require a large volume furnace, and therefore has a relatively small size. .

Another object of the present invention is to completely dissociate the waste by heating the electric plasma with an electric plasma torch and reaction, and the processing equipment is started only by turning on the power source and separately preheated. Another object is to provide a waste treatment device that does not require continuous operation.

Briefly, a relatively ideal embodiment of the present invention dissociates toxic waste with a single waste treatment device. This waste treatment device has a first treatment device which is provided for heating toxic wastes, which is provided with a high temperature electric plasma heating device placed in a groove, The groove is provided with a waste transport device, which serves to transport toxic waste into the electric plasma heating device and convert it into waste gas. The waste treatment device further comprises a second treatment device, which is connected to the first treatment device and thus collects the discharged waste air. The second treatment device is provided with a sensitive electric plasma heating device, which is used to absorb and generate an electric plasma gas and generate an electrically heated electric plasma, so that the waste gas is further destroyed and dissociated, Be suitable for the safe discharge of aftertreatment.

[0012]

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in FIG. 1, the waste treatment apparatus 10 of the present invention comprises three electric plasma torch machines 11, and a high temperature torch 15 generated therefrom is jetted toward the center position of the electric plasma groove 12. Electric plasma groove 12
Has an opening 13 and the transport device 14 is a toxic waste 30
Are fed into the electric plasma groove 12 and the transport device 14 is capable of feeding waste material 30 under the high temperature torch 15 close to the electric plasma torch machine 11. The waste 30 sent to the electric plasma torch machine 11 at the top by the transportation device 14 is atomized and ionized to form a liquefied substance and a vaporized substance. This liquefied liquid flows downward to the bottom of the electric plasma groove 12 and is heated one step by two electric plasma torch machines 11 provided near the bottom of the electric plasma groove 12 to dissociate therein. The substances generated after the collection are collected in a collection container 17.

The above-mentioned electric plasma groove 12 is an airtight groove, and the inside thereof is kept in a low vacuum state, whereby the dissociated waste gas-generated fine particles and ions chemically react with oxygen molecules again. Can be prevented, thus avoiding the formation of unwanted oxides, eg PCDD.

As shown in FIG. 1 and FIG.
The oxide generated by the heat treatment inside the groove 12 is sent into the second waste treatment device 22 by the outlet pipe 20, and the second waste treatment device 22 is a sensitive electric plasma heating device, and the sensitive coil An outer tube 23 around 25 and an inner tube 28 which communicates with the outlet tube 20 and serves to absorb the oxide produced by the heat treatment. The outer tube body 23
The clearance space between the inner pipe 28 and the inner pipe 28 forms one cooling passage 29, and the cooling water is introduced into the cooling water passage 29 from the pipe 34 at the inlet to cool the inner pipe 28 and then the outlet pipe 32. Emitted from. The electric plasma gas (generally argon gas or nitrogen gas) is fed into the inner tube 28 via the electric plasma duct 26. The electric plasma duct 26 communicates with the electric plasma groove 27, and the electric plasma groove 27 is an argon gas groove or a nitrogen gas groove or a groove body having both of them. The above-mentioned sensitive coil 25 is a radiation frequency.
This power supplier 2 is connected to the power supplier 24.
At 4, a current of a fractional frequency is provided in the sensitive coil 25 to form an electromagnetic field inside the outer tube body 23 and the inner tube body 28. The process of this electric plasma conversion is
First, the pressure in the inner pipe 28 is lowered to 5 to 10 mm (mercury column), and then the argon pressure in the inner pipe 28 is increased to about 1 atm, and the temperature thereof is raised. Under this pressure, the impact between the electric plasma molecules produces an electric plasma that heats in a sensitive manner. Electric plasma duct 2 above
The high-temperature electric plasma in 6 is accordingly introduced into the inner tube body 28. Electrons and nitrogen gas released at a high speed in the electric plasma and relatively large molecules of the vaporized substances generated in the first heat treatment in the inner tube 28 collide with each other, and the vaporized substances are not completely removed. The relatively large molecules that have not been decomposed into particles go one step further by impacting the particles with each other and breaking the chemical chain key under high temperature conditions (eg H ₂ , N ₂ , CH _4, etc.). ) Is decomposed into. The advantage of the electric plasma treatment method of heating with this kind of sensitivity is that the gas containing atomized and ionized particles discharged from the inner tube 28 has a relatively high conversion efficiency in the process of electric plasma conversion. is there. By using the two-stage waste treatment device comprising the electric plasma torch 11 and the sensitive electric plasma heating device 22 according to the present invention, the waste air is completely dissociated.

In the complete waste treatment device shown in FIG. 1, the waste 30 is first fed into the electric plasma groove 12 and heat treated by the electric plasma torch 11. The above electric plasma groove is about 1m x 1.5m
It is a rectangular container of the size. The discharged gas passes through the outlet pipe 20 having a length of about 0.5 m and the second waste treatment device 2
Enter in 2. The second waste device is approximately 8 cm long,
Sensitive coil 2 with width and height of 50 cm each
There are two isolated ends 33 of about 10 cm on both ends. The gas flowing out from the electric plasma groove 12 goes one step further and is dissociated in the second waste treatment device 22, and the discharged gas is processed into atoms or fine particles and then transported into the cooling device 40. As the fine particles which have been treated twice are cooled, they go one step further in the filtering device 44 to remove fine particles and then in a reactor 46 for removing acidic substances to remove the acidic substances. After that, it is discharged to the outside through the stack 60 by the action of the vacuum pump 50.

[0017]

One of the advantages of the present invention is that the waste treatment device provided by the present invention can completely dissociate highly toxic waste, and there is no risk of poisoning when it is finally discharged.

[0018] Another advantage of the present invention is that the waste treatment equipment provided by it heat-treats at high temperature to completely dissociate highly toxic waste and does not require oxygen, so PCDD is discharged during the discharge process. Can be prevented.

Another advantage of the present invention is that the total size is relatively small because the waste treatment equipment capable of completely dissociating the highly toxic waste it provides does not require a large volume.

Another advantage of the present invention is that the provided waste treatment device heats the electric plasma by the electric plasma torch and the reaction to completely dissociate the waste, and the waste treatment device has only a power source. You can start it just by turning it on,
No separate preheating or continuous operation is required.

Although the gist of the present invention has been described with reference to the relatively ideal embodiments as described above, the above description does not limit the scope of the present invention. Those skilled in the art of this kind should be able to make various replacements and modifications immediately from the above description, and therefore, the claims also include the replacements and modifications within the spirit and scope of creation of the present invention. .

[Brief description of drawings]

FIG. 1 is a schematic view of a waste treatment device of the present invention.

FIG. 2 is a cross-sectional view of a second waste treatment device in the waste treatment device of the present invention.

[Explanation of symbols]

 10 ... Waste treatment device 11 ... Electric plasma torch machine 12 ... Electric plasma groove 14 ... Waste transport device 17 ... Collection container 20 ... Outlet pipe 22 ... Sensitive type Electric plasma heating device 23 ………… Outer tube 25 ………… Sensing coil 26 ………… Electric plasma duct 28 ……… Inner tube 29 ………… Cooling passage 30 ……… Inlet tube 32 ……… Outlet tube 40 ... Cooling device 44 ... Filtration device 46 ... Reactor 50 ... Vacuum pump 60 ... Chimney

 ─────────────────────────────────────────────────── ───Continued from the front page (72) Inventor Quo Qin Chan Taiwan 31015 Taiwan 1 Sinchu Chun Tung Chun Singh Eardy Section 4 Number 195 (72) Inventor C Tsun Tseng Taiwan 31015 Taiwan Xinchu Ju Tung Chun Shin Eardy Section 4 Number 195 (72) Inventor Jain-Sheng Wan Taiwan 31015 Taiwan Xinchu Chutung Chun Singh Earldi Section 4 Number 195

Claims (10)

[Claims] 1. A treatment device comprising a first treatment device and a second treatment device, which is provided for dissociating toxic wastes,
The first treatment device for heating toxic waste is equipped with a high temperature electric plasma heating device placed in the groove,
A waste transport device is provided in the groove, which directs toxic waste to the electric plasma heating device to convert it into liquid residue and gas; 2 Treatment equipment is equipped with a sensitive electric plasma heating device, which produces sensitive plasma and takes the waste gas one step further to destroy and dissociate it, making it suitable for safe discharge in post-treatment. A waste treatment device that dissociates the waste. 2. The waste product according to claim 1, wherein the electric plasma heating device in the first treatment device is an electric plasma torch, and is used for heating and dissociating toxic waste products. Processing equipment. 3. The groove used for placing the electric plasma heating device is an airtight low vacuum groove, so that toxic waste is dissociated under a condition of oxygen deficiency. The waste treatment device according to claim 2. 4. The electric plasma sensitive heating device has an inner tube for containing an electric plasma gas therein, and further, a sensitive coil is circulated over the outer tube outside the inner tube. 4. A waste product according to claim 3, wherein said sensitive heating device is provided with a radiation frequency power supplier for sending electric power to said sensitive coil, thereby converting electric plasma gas into sensitive heated electric plasma. Processing equipment. 5. A step forward, comprising a cooling and aftertreatment device and a vacuum pump, the cooling and aftertreatment device being used for cooling the waste air treated by the second treatment device and for removing fine particles and acidic substances. The vacuum pump allows the treatment equipment to maintain a certain predetermined pressure and allows the waste air treated by the cooling and aftertreatment equipment to be discharged or introduced into the storage equipment, and finally the treatment equipment. The waste treatment apparatus according to claim 4, wherein the generated waste air is discharged or stored. 6. A first processing device used to heat toxic waste, and a second processing device connected to the first processing device and used to collect the discharged exhaust air and a vacuum pump. The first treatment device is equipped with a high temperature electric plasma heating device placed in a groove, and a waste transport device is provided in this groove to send toxic waste into the electric plasma heating device. The electric plasma treatment device is an electric plasma and is used for heating and dissociation of toxic wastes, and the groove for containing the electric plasma heating device is an airtight low A vacuum groove that dissociates toxic waste under conditions of oxygen deficiency, and a discharge pipe is provided in this low vacuum groove to discharge the waste gas into this groove;
The processing device is equipped with a sensitive electric plasma heating device,
As a result, a sensitive electric plasma is generated and the waste air is advanced one step to destroy and dissociate it so that it is suitable for safe discharge in the post-treatment. In addition to being used for putting in,
Further, a sensitive coil is circulated on the outer tubular body outside the inner tubular body, and a radiation frequency power supplier is provided in the sensitive heating device to supply electric power to the sensitive coil. The plasma gas is converted to a sensitive heating electric plasma; the vacuum pump causes the treatment equipment to maintain a certain predetermined pressure, and the waste air treated by the cooling and post-treatment equipment is taken into the exhaust or storage equipment. A processing device capable of dissociating toxic waste gas, which is characterized in that it discharges or stores the processed waste finally. 7. A waste treatment method comprising the following steps: (a) transporting waste gas into a groove containing a high temperature electric plasma heating device, and (b) using the high temperature electric plasma heating device. Heat-treating the waste to turn it into waste, and (c) sequestering the waste and generating a responsive electric plasma to dissociate the electricity one step into a plurality of fine particles, thus Make it suitable for safe discharge. 8. The waste treatment method according to claim 7,
It is characterized in that step (b) therein is taken one step further and includes the following steps: (b1) In the electric plasma heating device, the toxic waste is heated by an electric plasma torch to dissociate it. . 9. The waste treatment method according to claim 8,
It is characterized in that step (b1) therein is further advanced to include the following steps: (b2) The heat treatment of the waste gas is performed in a low vacuum groove, and the toxic waste is depleted of oxygen. Dissociate under the condition of. 10. The waste treatment method according to claim 9, wherein step (b2) therein is advanced one step to transport the waste air from the groove to the inner pipe body.
3) is included; step (c) goes one step further, and the radiation frequency power is supplied from the radiation frequency power siplier to the sensitive coil wound around the outer tube body outside the inner tube body, and the inner tube is also provided. It is characterized by including the step (c1) of capturing the electric plasma gas in the body, and generating a thermoelectric plasma inside the body, thereby further advancing to destroy and dissociate the waste air.