RU2114357C1 - Domestic waste incinerator - Google Patents

Abstract

FIELD: heat-power engineering; incinerators. SUBSTANCE: incinerator is provided with waste-heat boiler having furnace and tail heating surfaces which ensure continuous generation of thermal energy. Mounted in front of waste-heat boiler is smoke exhauster which delivers flue gases from incinerator boiler to furnace of waste-heat boiler for reheating through burning of combustible gas; waste-heat boiler is provided with ammonia solution supply plant. EFFECT: complete combustion; enhanced stability of generation of thermal energy. 1 dwg

Description

 The invention relates to a power system, and in particular to devices for burning urban household waste, which is low-grade fuel.

 There is a known technological scheme for burning household waste, including a receiving and unloading device with a receiving hopper and a crane, an incinerator with a furnace and tail heating surfaces, devices for cleaning gases from suspended impurities, a chimney (for example, V. Levin. Use of solid household waste in power supply systems. - M., Energoizdat, 1982, p. 46-50).

 A disadvantage of the known device is the low degree of purification of flue gases, as well as the lack of stability in generating steam for its own and external consumers.

 The closest to the invention in technical essence and the achieved result is a device for burning household waste, containing a receiving and unloading compartment with a receiving hopper and a crane, a waste incinerator with a furnace unit and a water economizer, a gas treatment unit, a chimney (ibid., P. 50 - 56).

 A disadvantage of the known device is the low degree of purification of the most harmful to the environment chemical burnout contained in the flue gas, as well as the lack of stability in the production of steam for internal and external consumers, depending on the quality of household waste during the year.

 These disadvantages are eliminated in the proposed device.

 The essence of the invention lies in the fact that a device for burning household waste, comprising a receiving and unloading compartment with a receiving hopper, a waste incinerator with a furnace and tail heating surfaces, gas cleaning equipment (purifying flue gases from suspended impurities, hydrogen chloride and fluoride, and sulfur oxides), the chimney is equipped with a recovery boiler with a furnace and tail heating surfaces, which ensures the constancy of the generation of thermal energy by the device, while in front of the recovery boiler A smoke exhauster is installed in the rum, forcing flue gases from the incinerator into the furnace of the recovery boiler for re-heating them by burning combustible gas. In addition, the recovery boiler is equipped with an installation for injecting ammonia solution into the flue gases to clean them of nitrogen oxides.

 The invention is illustrated in the drawing, which shows a process diagram of a device for burning household waste.

 A device for burning household waste contains a receiving and unloading compartment 1 with a receiving hopper 2, in the upper part of which there is a clamshell bridge crane 3 with a control panel 4, which ensures that the household waste bins 5 of the incinerator boiler 6, equipped with a combustion device and a water economizer.

The waste incineration boiler is connected through a gas duct to an absorber 7 for chemical cleaning of gases, connected via a flue gas line with a gas cleaning device for purifying flue gases from suspended impurities 8. The device for burning household waste is equipped with a waste heat boiler 9 with a water economizer for it and an air heater for incineration in the furnace of the incineration boiler. The incinerator boiler 6 is equipped with a blower fan 10, and in the waste heat boiler 9 in one of the gas ducts, an ammonia solution injection system 11 for neutralizing NO _{x is} provided.

 A smoke exhauster 12 is installed in front of the waste heat boiler 9 along the gas duct from the gas cleaning device 8, which ensures the required aerodynamic conditions of the exhaust flue gas path and provides a constant amount of generated steam for internal and external consumers or electricity using turbo-generators 13 and 14. Flue gases cleared of harmful substances are released through the chimney 15 into the atmosphere.

 A device for burning household waste is as follows.

 Solid household waste delivered by garbage trucks is stored in a receiving bin. Bulky waste is taken from the total mass of household waste brought and transferred by crane 3 to a special compartment in the receiving hopper, and then, after crushing in the crushing plant, they are mixed with the remaining waste in the same receiving hopper 2.

With the help of a clamshell crane 3, household garbage enters the consumables 5 of the incinerator boiler 6, from where it is thrown with the help of appropriate feeders onto the inclined-repellent grate (not shown) of the furnace, where it is burned (at t> 1340 ^o C) in the presence of primary air with a temperature of up to 400 ^o C. The combustion products enter the combustion chamber of the incinerator, after thoroughly mixing in a narrow section with secondary air (t> 400 ^o C). In the afterburner, where the temperature is automatically maintained at not lower than 850 ^o C and the residence time of the flue gas in it is at least 2 s, the products of incomplete combustion of waste products are burnt and the chlorine and fluorine-containing substances are decomposed. Therefore, flue gases leave the combustion chamber, without practically having in their composition chemical underburning and such harmful substances as dioxins and furans.

 From the last duct of the incinerator, the flue gases are sent to the absorber 7, where they are purified from oxides of sulfur, hydrogen fluoride and hydrogen chloride, which are harmful to the environment, using specially prepared lime milk.

 After the absorber, flue gases enter the static four-field electrostatic precipitator of the gas cleaning device 8, where they are cleaned of dust and fly ash. To increase the efficiency of trapping the smallest particles of dust and ash, flue gases are coagulated before entering the electrostatic precipitator in order to enlarge these particles, which is very important for the process of trapping them in an electric field.

 Both of these gas cleaning devices (absorber and electrostatic precipitator) are highly efficient with cleaning ratios of 98 and 99.8%, respectively.

To ensure the generation of a constant amount of steam, necessary for internal and external consumers, as well as for the normal operation of steam turbine generators 13, 14, regardless of the quality of household waste throughout the year, a waste-heat boiler is included in the composition of each production line 9. Turning on the waste-heat boiler The technological incineration scheme also has other advantages:
reheating of flue gases coming from the incinerator to a temperature> 850 ^o C to ensure greater reliability in eliminating the most environmentally harmful chemical burn in the flue gas, as well as to prevent the formation of dioxins and furans in the "cold" ducts after the incinerator ;
taking into account that flue gases from the incinerator boiler are supplied to the waste heat boiler, cleaned in the absorber of sulfur oxides, hydrogen fluoride and chloride, which are very corrosive, it became possible to install a water heater in the waste heat boiler to heat the primary and secondary air necessary for burning household garbage; moreover, this heating will utilize the heat of the flue gases leaving the recovery boiler;
With the installation of the recovery boiler, it became possible to organize an injection of ammonia solution in one of the flues inside the boiler in order to purify the flue gases from nitrogen oxides.

 Flue gases purified from harmful substances are emitted through the chimney 15 into the atmosphere.

 The incineration boiler and the waste heat boiler are interconnected by automatically maintaining the required total constant steam capacity. This makes it possible to consider that the incinerator is a reliable source of electricity for consumers.

To ensure stabilization of the process of burning household waste at low values of calorific value (<1700 kcal / kg), to achieve a temperature in the afterburner> 850 ^o C in order to eliminate underburning of waste and prevent the formation of dioxins and furans, as well as for the operation of recovery boilers technological scheme, fossil fuel (gas or fuel oil) is used.

Claims (1)

 A device for burning household waste, comprising a receiving and unloading compartment with a receiving hopper, an incinerator boiler with a furnace and tail surfaces for heating, gas cleaning equipment, a chimney, characterized in that it is equipped with an additional boiler - a utilizer with a furnace and tail surfaces for heating, which ensures constancy heat energy generation, while a smoke exhauster is installed in front of the recovery boiler, which injects flue gases from the incinerator into the furnace of the recovery boiler for and reheat via combustion of fuel gas, in addition, the waste heat boiler is provided for setting the input of ammonia solution.