UA28075U - Method for utilization of solid household waste - Google Patents

Abstract

A method for utilization of solid household waste (SHW) that includes waste loading to thermo-reactor, start heating of waste in reactor without inflow of free oxygen to temperature of 1500-1650 DEGREE C due to Joule's heat, with discharge of gaseous products of thermo-destruction of SHW from lower zone of thermo-reactor and discharge of melted mineral components of waste as slag through lower tap hole, at that solid carbon deposit in common with volatile and liquid products of thermo-destruction of organic components of SHW are burned at temperature of 800-1800 DEGREE C to CO2 and H2O, and gases formed just from burning zone one directs to gasification of carbon for production of generator gas.

Description

Description of the invention

The useful model belongs to the field of communal economy, in particular, to methods of disposal of solid 2 household waste (SWW) and can also be used for the processing of toxic chemicals, industrial, medical and other waste.

A known method of industrial processing and disposal of solid household waste from production and consumption.

The initial solid waste is heated in a closed reactor without air access to 17002 by contacting it with the gaseous coolant supplied to the reactor, consisting of carbon monoxide, hydrogen and water vapor, previously heated to this temperature outside the reactor. Due to the thermochemical processes that take place in the reactor, solid waste of almost any composition is processed without preliminary preparation.

After all, the implementation of this method does not allow using the energy potential of waste directly in the reactor to implement the process itself. And the use of a coolant consisting of components obtained artificially and heated to 17002С outside the reactor requires significant additional energy consumption, which significantly reduces

Process efficiency.

The method of waste disposal is also known | Declaration patent of Ukraine for utility model Mo13629, IPC

E23055/027, op. 01.04.2006), which includes loading waste into a thermal reactor, heating the waste in the reactor without access to free oxygen to a temperature of 1500-1650 with the destruction of the organic part into simple 720 components and filtering the destruction products before discharge from the reactor through a layer of lumpy electrically conductive heat carrier heated by electric current to a temperature of 1427-2727, removal of destruction products from the reactor, supply of gaseous constituent products of thermal destruction with the help of a compressor to a vortex installation, in which gas flows are divided into cold and hot, and hot gas is directed to the reactor, ov 8 the cold one is sent for consumption, while the temperature of the cold gas is provided at the level of 400-1002С. WITH

The column of waste loaded into the reactor is heated due to the current passed through a layer of lump graphite placed on the bed.

As a result of heating graphite to a temperature of 1427-27272С in the column of waste contained in the pyrolysis chamber, a thermal field is formed with a temperature that monotonically decreases from the bottom to the top along the height of the column.

Thermal destruction of the organic part of the waste begins in the upper part of the pyrolysis mine at a temperature of about 2002C with the release of volatiles that move from top to bottom in a direct flow with the mass of waste. aw!

Passing successive sections with increasing temperature, complex organic components are decomposed into simpler ones, and the higher the temperature, the simpler the compounds. 09

The process of complete decomposition of waste into molecular components ends at a temperature of about 12002 s with the production of Н», О»5, Mo, SiO, З, Ро and a solid carbon residue С.

At temperatures above 12002C, active gasification of carbon occurs with moisture vapor and waste oxygen with the generation of CO and H." "

The obtained gaseous products of pyrolysis are filtered through a graphite layer and removed from the reactor at the level of the lower zone of the layer, and the molten mineral components in the form of slag are continuously released through the lower jet. m The operation of rapid gas cooling is provided, which is carried out with the help of a compressor and a vortex installation, in which the flow of gas is divided into cold and hot. Cold gas is sent for consumption, and hot gas is sent back to the penetration zone.

This method, as the closest in technical terms, is accepted as a prototype. After all, this method of waste disposal has the following disadvantages: o - the endothermic process of thermochemical processing of solid waste is energetically provided only by an external source, which is electricity, which causes a low and final coefficient of use (in the heat potential of waste and loss-making profitability of the process; -1 50 - artificial cooling of the gas produced from solid waste using a compressor and a vortex plant reduces the coefficient of utilization of the energy potential of waste; sl - moisture vapor (H2O), which is an integral material component of the initial solid waste, when the energy gas is used further, must be removed from the gas flow as a harmful ballast , which reduces the utilization ratio of the material resource of waste.

The useful model is based on the task of improving the method of disposal of household waste, in which, by fully releasing the thermal potential of solid waste directly in the reactor with the subsequent targeted use of the physico-chemical properties of the products formed, the endothermic process of thermochemical processing of waste is energetically ensured and the utilization ratio of material and the energy potential of solid waste, and due to this, the efficiency and profitability of the process increases. 60 The problem is solved by the fact that in the method of disposal of solid household waste (SWW), which includes loading waste into a thermoreactor, initial heating of waste in the reactor without access to free oxygen to a temperature of 1500-165092С7 due to Joule heat, removal of gaseous products of thermal destruction of solid waste from the lower zone of the thermoreactor and the release of molten mineral components of waste in the form of slag through the lower fly, according to a useful model, the solid carbon residue in combination with volatile and liquid products because the thermal destruction of organic components of solid waste is burned at a temperature of 800-18002С to CO" and NOO, and the gases formed , directly from the combustion zone is sent to carbon gasification for the production of generator gas.

Features that coincide with the essential features of the claimed useful model: - loading of waste into the thermoreactor; - initial heating of waste in a thermoreactor without access to free oxygen to a temperature of 1500-1650920 due to Joule heat; - removal of gaseous products of thermal destruction of solid waste from the lower zone of the thermoreactor; - release of molten mineral components of waste in the form of slag through the lower fly. 70 Signs by which the method of disposal of solid household waste, which is claimed, differs from the prototype: - solid carbon residue in combination with volatile and liquid products of thermal destruction of organic components of MSW are burned at a temperature of 800-18002С to CO" and NgO; - the formed gases are sent directly from the combustion zone to carbon gasification for the production of generator gas.

The above features are the essence of a useful model, as they are necessary and sufficient to achieve a technical result.

The technical essence of the useful model is explained by the drawing (Fig. 1).

Initially, the thermal regime in the reactor is ensured by the use of electric heating: the release of Joule heat in the heat generation zone does not depend on either the morphological or the elemental composition of solid waste.

Thermal destruction of the organic part of the waste begins in the upper zone at a temperature of about 2009С with the release of volatile oils and heavy hydrocarbons. Passing from top to bottom successively areas with a monotonously rising temperature, organic components, both those in solid form and those formed as a result of destruction - liquid and gaseous phases, undergo further decomposition into simpler and simpler components. The process of complete decomposition of organic matter into molecular components basically ends at a temperature of about 12002 with the production of H», O», Mo, Si», Z II and solid carbon residue C. -

Next, air is blown into the high-temperature (212002) zone of the reactor to burn the carbon residue according to the reaction:

SiOov3.31M2-СО23.31Mon407kJ/mol, (1).

This raises the temperature in the combustion zone to 1700-18002C, and from that moment it becomes a source of M) heat, which ensures the process of thermochemical processing of MSW. Electric heating of the lower zone of the reactor now serves only to stabilize the operating mode and, mainly, for uninterrupted melting of the mineral components of solid waste and their removal in the form of slag. at

Combustion products of the energy components of MSW-H 20 and CO -M2- are removed directly from the combustion zone of the reactor and fed to the lower zone of the gas generator filled with a carbon nozzle, for example,

With coke. In connection with the use of coke as an active filler of the gas generator, it is worth mentioning that carbon filters are considered to be the most effective and also the most expensive means of protection against dioxins in gas purification schemes of new generation waste processing plants. The advantage of coke filler is the fact that chemical processes are carried out in the gas generator, which ensure the utilization of high-temperature physical heat and the use of the chemical properties of gases formed in the combustion zone:

Si-СО2-2С0-161.5 kJ/mol, (2). c) with SinoOo-CoOZHNO-118.7 kJ/mol, (3). z» The enthalpy of primary gases (CO 5, NiO, Mo), heated to a temperature of 18002С, exceeds the total endothermic effect of reactions (2, 3), and fresh portions of coke reduce the temperature of the generator gas (СОН M») to 200-400 - the permissible temperature for feeding into the firebox of an energy boiler. The steam produced in the boiler is used directly for the needs of the population, or after passing through another stage of transformation, it is turned into electricity. o Thus, in the end, waste processing according to the proposed method is reduced to almost complete utilization of energy (Н»5, С) and material (HO slag) potentials of MSW. o According to the described method, any organic waste can be processed, including particularly dangerous - and 20 polyvinyl chlorides for traditional burning (bottle containers, etc.), and any, even low-grade coal can be used instead of coke. sl The declared temperature range is aimed at providing the gases discharged from the combustion zone with a reserve of heat, necessary for the implementation of endothermic reactions of the reduction of the oxide components of the gas - СО 5 and НО in

CO and H" in full. 29 The lower temperature 8002 is the limit below which the carbon gasification process practically does not go. c The upper temperature 18002 is the limit, heating above which causes an unreasonable overconsumption of primary energy carriers, since the enthalpy of gases heated to the specified temperature and removed from the combustion zone with a sufficient degree of reliability already exceeds the thermal potential necessary for the complete recovery of CO 5 and NO. because the possibility of implementing the described method is illustrated by the following examples.

In accordance with the given sequence of actions implementing the proposed method, disposal is carried out

solid waste at the characteristic values of the declared temperature range.

The table shows the indicators characterizing the proposed method. because the Table

Indicators characterizing the proposed method

Mop/p |Gas temperature Gas composition after Electricity consumption, in the combustion zone, "From the gas generator, 95 kW g/t of solid waste and 111 oviavv 003 5|7vyu 00 pick up yaav 00030 po ovtaya ms6 tyu 0038 ml to tvo zara yayu

It can be seen from the table that the practical process of carbon gasification in the gas generator begins at 80020. Below this temperature, the formation of He and CO does not occur.

In terms of energy consumption, the gas temperature at the outlet of the lysis reactor is optimal, which is 17009: with high quality generator gas, the electricity consumption for the process is minimal.

A temperature of 18002C allows to obtain high-quality gas with acceptable electricity consumption.

A further increase in temperature (18502) does not increase the quality of gas, although electricity consumption increases.

Based on the given data, the temperature of 170026 is the priority temperature for the combustion zone in the pyrolysis reactor, and at the same time, the 2o temperature of the gases leaving the reactor.

Claims (1)

The formula of the invention The method of disposal of solid household waste (SWW), which includes loading waste into a thermoreactor - initial heating of waste in the reactor without access to free oxygen to a temperature of 1500-1650 °C due to Joule heat, removal of gaseous products of thermal destruction of solid waste from the lower zone of the thermoreactor and the release of molten mineral components of waste in the form of slag through the lower fly, which is characterized by the fact that the solid carbon residue in combination with volatile and liquid products of thermal destruction of organic components of solid waste is burned at a temperature of 800-1800 C to CO" and NO, and gases that formed, directly from m of the combustion zone are directed to carbon gasification for the production of generator gas. "c) (ee) p - and? name) (ee) («c) -i sl 60 b5