KR100220622B1 - Incinerating method and device of liquid waste by plasma - Google Patents

Abstract

A method and apparatus for treating liquid waste by plasma is described.

The liquid waste treatment method comprises: a combustion step of burning liquid waste by plasma; Condensing the gas while spraying an alkali solution on the combustion gas generated in the combustion step to recover a certain component of the gas as a salt; Passing the condensed gas through cooling water to condense the gas secondly, and recovering a predetermined component remaining in the gas as a salt; Spraying an alkali solution to the gas that has passed through the cooling water to recover certain components remaining in the gas as salts, the apparatus comprising: a plasma combustion apparatus for generating a combustion gas by burning liquid waste: First alkaline solution injector for injecting alkaline solution into the combustion gas: Tank scrubber containing coolant through which the combustion gas passed through the alkaline solution injector is stored: Salt recovery device for recovering salt contained in the coolant of the santy tank scrubber And a second alkali solution injector for injecting an alkali solution into the combustion gas that has passed through the tank scrubber: an exhaust device for exhausting the combustion gas that has passed through the second alkali solution injector.

Description

Incinerating method and device of liquid waste by plasma

The present invention relates to a liquid waste incineration method and apparatus using plasma, and more particularly, to a liquid waste incineration method and apparatus that can effectively remove the harmful gas generated by incineration.

There are many biological and chemical treatment methods for general wastewater treatment. However, the use of such a method requires extensive treatment facilities and a separate facility for treating sludge generated after treatment. This problem can be solved by the incineration method. Incineration technology usually uses coal fuel, which causes the generation of harmful gases from sludge incineration.

One way to improve this is to treat liquid wastes such as sludge using high energy plasma. The waste treatment method using plasma is a device for thermally decomposing waste in a high temperature flame zone of plasma, and is useful for treating hardly decomposable substances or substances harmful to the human body that cannot be treated with a general incinerator.

1 is a block diagram of a conventional combustion device using coal fuel.

The burner 2 which supplies fuel and steam is installed in the upper part of the combustion chamber 1, and the supply apparatus 3 which waste water is supplied to one side is provided. The flame and water vapor injected by the burner 2 are mixed with the waste water injected from the wastewater supply device 3 to combust in the combustion chamber 1. At this time, the combustion gas generated is discharged by proceeding to the lower portion of the combustion chamber 1, and proceeds to the combustion gas progress passage 1a provided at the lower portion of the combustion chamber 1. This combustion gas passes through the cooling water 5 of the tank scrubber 4 provided in the lower part of the combustion gas flow passage 1a.

The lower end of the combustion gas passage 1a is immersed in the cooling water 5 to a predetermined depth so that the combustion gas is forced through the cooling water 5. At this time, an alkali solution injector 6 for spraying an alkali solution into the combustion gas proceeding to the tank scrubber 4 is located in the combustion gas flow passage 1a so that a predetermined component in the combustion gas is an alkaline solution injection device 6. The combustion gas is condensed while being recovered as a salt while chemically reacting with the alkali solution supplied from

Such condensation of the combustion gas suppresses the pressure rise in the combustion chamber and increases the combustion efficiency in the combustion chamber.

On the other hand, the tank scrubber (4) is provided with a baffle (4a) to guide the gas flow in the cooling water (5), and near the bottom is provided with a salt recovery device (7) to recover the salt from the cooling water and salt The recovered cooling water is circulated back to the tank scrubber (4). And the exhaust apparatus 8 provided in the upper side of the said tank scrubber 4 exhausts the gas which passed the said cooling water. One example of the waste treated by the conventional combustion apparatus as described above has the following components.

ingredient Concentration before treatment Concentration after treatment unit PH 9.0 8.0 PH SO ₄ ^- 26 144 ppm PO ₄ ^- 0.24 0.62 ppm Cl ^- 49,600 44,800 ppm COD _MN 28,000 840 ppm COD _cr 49,790 1,810 ppm Na ⁺ 54,700 61,600 ppm MeOH 5,390 433 ppm Propylene 7,622 584 ppm

The wastewater used in the above experiment was generated during the manufacturing process of hydroxypropyl methylcellulose (HPMC). When the concentration of the wastewater was examined, the concentration of components in the wastewater changed, but the inorganic ions were hardly treated, and the values exceeded the environmental standards. Is still maintained, and thus it can be seen that this general method does not provide complete treatment of the wastewater. In addition, this method requires a secondary treatment as described above, and in particular, a large amount of sludge is generated, which puts a lot of burden on the treatment.

On the other hand, the waste treatment method by the plasma is simply provided with a plasma combustion furnace, can improve most of the above problems. Conventionally, in order to treat liquid waste using plasma, vaporize the liquid waste in a preheating line surrounding the reactor to recover heat from the reactor and then, together with the plasma from the plasma torch, It is intended to be injected into.

Conventionally, a reaction gas in which air, water vapor, and nitrogen gas are mixed is injected into a plasma generating chamber in a plasma torch to generate plasma by a high voltage applied to a cathode and an anode provided in the plasma generating chamber, and to spray the plasma into the reactor. Meanwhile, waste is injected into the inlet side of the reactor into which the plasma is injected, that is, downstream of the plasma, so that the plasma and the waste are mixed and decomposed in the reactor.

The conventional plasma combustion method can solve most of the problems in the combustion method using fossil fuels, but there is a need for countermeasures because there is a concern about an increase in pressure caused by a large amount of combustion gas and a decrease in combustion efficiency.

The present invention is to treat the liquid waste, the liquid waste by plasma that can process the liquid waste more efficiently than the conventional plasma combustion method while reviving the advantages of the combustion method using the fossil fuel and the combustion method by the plasma. Its purpose is to provide a treatment method and an apparatus thereof.

1 is a schematic configuration diagram of a conventional liquid waste treatment apparatus using coal fuel.

2 is a schematic configuration diagram showing an embodiment of a waste incineration apparatus according to the present invention.

In order to achieve the above object, a liquid waste treatment method using plasma of the present invention comprises: a combustion step of burning a liquid waste by plasma; Condensing the gas while spraying an alkali solution on the combustion gas generated in the combustion step to recover a certain component of the gas as a salt; Passing the condensed gas through cooling water to condense the gas secondly, and recovering a predetermined component remaining in the gas as a salt; And spraying an alkali solution to the gas that has passed through the cooling water to recover certain components remaining in the gas as salts.

In order to achieve the above object, a liquid waste treatment apparatus using plasma of the present invention includes: a plasma combustion apparatus for generating a combustion gas by burning a liquid waste: a first alkali solution spraying apparatus for injecting an alkali solution into the combustion gas: an alkali solution Tank scrubber in which the coolant through which the combustion gas passed through the injector passes is stored: A salt recovery device for recovering salts contained in the coolant of the santy tank scrubber: A second injecting an alkali solution to the combustion gas passing through the tank scrubber Alkaline solution injector: An exhaust device for exhausting the combustion gas passed through the second alkali solution injector.

In the present invention, the alkali solution is preferably at least one of NaOH and KOH.

Hereinafter, a preferred embodiment of a liquid waste treatment method by plasma according to the present invention with reference to the accompanying drawings.

2 is a schematic configuration diagram of an apparatus for treating liquid waste by plasma according to the present invention.

Referring to FIG. 2, a first combustion gas progress path through which combustion gas passes through a lower portion of a plasma combustion device 30 including a plasma torch 10 and a liquid waste injector 20 for spraying a high temperature plasma flame ( 40) is provided, and the first alkaline solution spraying device 41 is provided. A tank scrubber 50 is provided in the lower portion of the combustion gas progress path 4 to store the coolant 51 through which the combustion gas passes. The salt in the coolant 51 is recovered on one side of the tank scrubber 50, and the coolant is The salt recovery apparatus 60 which circulates through the tank scrubber 50 is provided. The tank scrubber 50 is provided with a baffle 52 for guiding combustion gas passing through the cooling water 51. On the path through which the combustion gas passing through the cooling water 51 is discharged, that is, the second combustion gas traveling path 70 is provided on one side of the tank scrubber 50, and the second alkaline solution spraying device 71 is provided. The exhaust device 80 is provided thereon.

The waste applied in this example is a component as described in the prior art, namely wastewater generated in the production of HPMC. Such wastewater is completely pyrolyzed and induces a very fast chemical reaction due to the heat generated by the plasma in the plasma combustion apparatus 30 and the reactivity of the plasma gas itself. In this process the organics are converted to CO2, N2, H2O, the inorganics are in the form of molten salts, for example Na + reacts with CO2 to Na2CO3, and POx (e.g. PO2) and SOx (e.g. SO4-) Is reacted with Na + and CO2 to recover Na2SO4, Na2PO3, Na2CO3.

The residual gas in the combustion gas generated in the above process is condensed by NaOH and KOH injected from the first alkaline solution injector 41 while passing through the first combustion gas traveling path 40, for example, Na +. , Cl-, SO4 are recovered with NaCl, NaOH, KCl, Na2SO4.

Then, the residual gas is condensed once again while passing through the tank scrubber 50, and a certain component is recovered in the form of salt again, and these salts are recovered by the salt recovery device 60 and the salt recovery device 60 The cooling water 51 which passed through is collect | recovered by the tank scrubber.

The gas that has passed through the tank scrubber 50 passes again through the second combustion gas traveling path 70 and is condensed again by the alkaline solution injected by the second alkaline solution injector 71 and the remaining components Once again reacted chemically and recovered in salt and other forms.

In addition, the exhaust device 80 finally discharges the gas passing through the second combustion gas traveling path 70 to the atmosphere.

The wastewater treated through the above process and the components of the gas generated therefrom and their contents are shown in Table 2 below.

Discharge gas ingredient content ingredient content NaCl 8-9% N ₂ 80-81% Sulfate na 0.004% O ₂ 7-8% Na (OH) ₂ 0.3% CO ₂ 11-12% Na ₂ PO ₃ Tr CO 10 ppm or less Na ₂ SO ₄ Tr PO _x 1 ppm or less Na ₂ CO ₃ 3-5% SO _x 5 ppm or less Organic matter 0 % NO _x 10 ppm or less

The wastewater treatment method of the present invention is very advantageous in terms of thermal efficiency as compared with the prior art. In other words, when the waste is processed at a temperature of more than 1200 degrees Celsius in the furnace, the available heat is about 20% when the existing coal fuel is used, whereas in the plasma combustion apparatus of the present invention, the energy efficiency is very high because it is about 80% or more. . In addition, in terms of generation of pollutants caused by fuel, it is possible to prevent the generation of SOx and NOx by using only gas and electric energy such as steam, air, etc., compared to the existing method of using coal fuel. Compared to the plasma combustion method, pollution of exhaust gases and effluents can be dramatically lowered. The present invention is well suited for treatment of general wastewater, as well as polychlorinated biphenyls (PCB), heavy metal-containing wastewater, and the like.

Claims (6)

A combustion step of burning the liquid waste by a plasma combustion device; Spraying the first alkali solution on the combustion gas generated by the combustion device by using the first alkali solution spraying device to condense the combustion gas firstly while recovering a certain component of the combustion gas as a salt; Passing the condensed combustion gas through a tank scrubber in which cooling water is stored and condensing the combustion gas with the cooling water in a second manner; Spraying a second alkaline solution on the combustion gas passing through the cooling water of the tank scrubber by a second alkaline solution spraying device to recover a predetermined component remaining in the combustion gas as a salt; And an exhausting step of exhausting the combustion gas by the exhaust device. The method of claim 1, wherein the condensing of the secondary liquid further comprises recovering a salt remaining in the secondary condensed combustion gas as a salt. The liquid waste treatment method according to claim 1 or 2, wherein the alkaline solution comprises at least one of NaOH and KOH. A plasma combustion apparatus for generating a combustion gas by burning liquid wastes; A first alkali solution injector for injecting a first alkali solution into the combustion gas; A tank scrubber in which cooling water passing through the combustion gas passing through the first alkali solution injector is stored; A second alkali solution injector for injecting a second alkali solution into the combustion gas passing through the tank scrubber; And an exhaust device for exhausting the combustion gas passing through the second alkali solution injector. The liquid waste treatment apparatus according to claim 4, further comprising a salt recovery device for recovering the salt contained in the cooling water of the tank scrubber, recovered from the combustion gas. The liquid waste treatment apparatus of claim 4 or 5, wherein the first and second alkali solutions comprise at least one of NaOH and KOH.

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