EA046213B1 - METHOD FOR LOW TEMPERATURE PROCESSING OF HOUSEHOLD WASTE - Google Patents

Description

The invention relates to methods for recycling household waste, in particular to methods for recycling waste using the method of plasma-chemical destruction.

There is a known method for processing solid organic waste in a device according to RF patent No. 2741004 (published on January 22, 2021), in which solid organic waste is processed using a high-temperature plasma reactor using water vapor as a plasma-forming gas, with a temperature in the reaction zone of the order of 1600-2000°C through their steam plasma gasification to produce synthesis gas.

The disadvantage of this method is the need for significant heating during implementation, as well as incomplete processing of solid organic household waste, since the result of processing is synthesis gas, which also must be recycled, and, in addition, the impossibility of processing inorganic substances present in household waste.

The technical result to which the invention is aimed is to expand the arsenal of technical means by creating a method that ensures the destruction of household waste at low temperatures comparable to the ambient temperature.

The technical result is achieved in a destruction method in which household waste is fed into the reactor through the inlet, while limiting the flow of atmospheric air into the reactor, which is made in the form of a closed cavity, the inner surface of which is partially or completely conductive and grounded, and onto the electrode introduced high voltage pulses are supplied into the reactor and isolated from this grounded surface, which ensure the formation of corona discharge streamers in the gap between the electrode and the conducting surface of the reactor.

In this case, as is known from the source [1], with each pulse, a large number of streamers appear near the tip of the electrode, which begin to multiply and spread to the grounded conducting surface of the reactor cavity, gradually filling the interelectrode gap and forming a corona discharge. The plasma of the corona discharge streamers affects the water contained in the incoming waste, causing the formation of free radicals when the water molecule Η2Ο^ΌΗ+Η· is destroyed. In addition, other active substances O ₃ , Ο ₂ (;·1ιΔ) are also formed in the reactor under the influence of a corona discharge. H2O2, OH, O( _3P ), NO, HNO2 and HNO3. Corona discharge is also a source of ultraviolet (UV) radiation. These active substances and UV radiation have a destructive effect on any organic and inorganic substances contained in household waste, leading to their complete destruction with the formation of harmless gaseous reaction products - water and carbon dioxide. Inorganic components of household waste are destroyed by acids. The process of oxidation of organic substances in water is a chain reaction [2]. A low-speed chain reaction can be initiated by atmospheric oxygen and ozone. At high speed, the chain reaction is initiated by OH· radicals. That is, the method involves plasma-chemical destruction of both organic and inorganic substances present in the waste.

In one embodiment of the method, the conductive section of the inner surface of the reactor cavity is pre-coated with a layer of water-containing liquid, which promotes the formation of active particles inside the reactor.

Preferably, the gap between the electrode and at least one of the sections of the conductive inner surface of the cavity, or the surface of the aqueous liquid covering this section, is set from the range of 5-50 mm.

Preferably, household waste is fed into the reactor in portions.

Preferably, portions of household waste are fed into the reactor in compressed form, with limited passage of atmospheric air into the reactor.

Preferably, the method reduces the pressure inside the reactor by 0.1-1 Pa compared to atmospheric pressure.

In one of the embodiments of the method, in order to reduce the pressure inside the reactor, a vacuum is created at its outlet.

In fig. Figure 1 shows a vertical cross-section of the reactor in which the claimed method is carried out, where 1 - reactor body with an internal cavity, 2 - inlet, 3 - outlet, 4 - internal surface of the reactor cavity, 5 - conductive sections of the internal surface of the reactor cavity, 6 - pointed electrode, 7 - insulators, 8 - source of high-voltage pulses, 9 tip of the electrode, 10 - conductive bottom of the reactor, 11 - device for dosed supply of recyclable waste, 12 - electrostatic filter with an exhaust air fan that creates a vacuum at the outlet of the reactor.

The method is implemented using a reactor, which is made in the form of a closed housing 1, the bottom of which 10 is made conductive and grounded, while an electrode 6 with a tip 9 is inserted into the housing 1, directed towards the conductive bottom 10 of the housing 1 and isolated from this bottom 10. Through inlet 2 of housing 1 from the device for dosed supply of recyclable waste 11 supplies a portion of compressed waste, while limiting the passage of atmospheric air into housing 1. High-voltage pulses are supplied to electrode 6 from source 8, while, as is known from

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Claims (8)

source [1], with each pulse, near the tip 9 of the electrode 6, a large number of streamers appear, which begin to multiply and spread to the conductive bottom 10 of the housing 1, gradually filling the interelectrode gap and forming a streamer corona discharge. The corona discharge plasma affects the water contained in the incoming waste, causing the formation of free radicals when the water molecule Η2Ο^ΌΗ+Η· is destroyed. In addition, other active substances O3, O2(a|A) are formed in the reactor under the influence of a corona discharge. H2O2, OH, O(3P), NO, HNO2 and HNO3. Corona discharge is also a source of ultraviolet (UV) radiation. In this case, almost all the energy of plasma electrons is spent on the creation of these active particles by dissociation, excitation of electronic states, as well as rotational and vibrational levels of the gas located in the reactor in which a streamer corona discharge is created, and does not cause any significant heating. These active substances and UV radiation have a destructive effect on any organic and inorganic substances contained in the processed waste, leading to their complete destruction with the formation of harmless gaseous reaction products - water and carbon dioxide. Inorganic components of waste are destroyed by acids. The process of oxidation of organic substances in water is a chain reaction [2]. A low-speed chain reaction can be initiated by atmospheric oxygen and ozone. At high speed, the chain reaction is initiated by OH· radicals. That is, the device carries out plasma-chemical destruction of both organic and inorganic substances present in the waste. In this case, the temperature of the housing 1 and the gases leaving the outlet 3 is close to the ambient temperature. In fact, all the energy of electrical impulses is spent on the formation of active particles, which significantly accelerate the natural oxidation reactions of household waste. And gaseous destruction products enter the outlet of the reactor. Thus, the declared technical result is achieved in the form of the development of a method for plasma-chemical destruction of both organic and inorganic substances present in household waste at a temperature close to ambient temperature. 1. A method for low-temperature processing of household waste, characterized in that household waste is fed into the reactor through the inlet, while limiting the flow of atmospheric air into the reactor, which is made in the form of a closed cavity, the inner surface of which is partially or completely conductive and grounded, and An electrode inserted into the reactor and isolated from this grounded surface delivers high-voltage pulses that ensure the formation of corona discharge streamers in the gap between the electrode and the conductive surface of the reactor. [1] . Aristova N.A., Piskarev I.M., Ivanovsky A.V., Selemir V.D., Spirov G.M., Shlepkin S.I. Initiation of chemical reactions under the influence of an electric discharge in a solid dielectric - gas - liquid system. // Journal of Physical Chemistry. 2004. T. 78. No. 7. P. 1326-1331. 2. The method for low-temperature processing of household waste according to claim 1, characterized in that the conductive section of the inner surface of the reactor cavity is pre-coated with a layer of water-containing liquid. [2]. Piskarev I.M. Redox processes in water initiated by an electrical discharge above its surface. // Journal of General Chemistry. 2001. T. 71. Issue 10. S. 1622. CLAIM 3. The method for low-temperature processing of household waste according to claim 1, characterized in that the gap between the electrode and at least one of the sections of the conductive inner surface of the cavity is set from the range of 5-50 mm. 4. The method for low-temperature processing of household waste according to claim 2, characterized in that the gap between the electrode and the surface of the water-containing liquid covering the conductive area of the inner surface of the cavity is set from the range of 5-50 mm. 5. The method for low-temperature processing of household waste according to claims 1-4, characterized in that household waste is fed into the reactor in portions. 6. The method for low-temperature processing of household waste according to claim 5, characterized in that portions of household waste are fed into the reactor in compressed form, with limited passage of atmospheric air into the reactor. 7. The method for low-temperature processing of household waste according to claims 1-6, characterized in that the pressure inside the reactor is reduced by 0.1-1 Pa compared to atmospheric pressure. 8. The method for low-temperature processing of household waste according to claim 7, characterized in that a vacuum is created at the outlet of the reactor. -