RU2783213C1 - Method for environmentally sustainable recycling of solid household waste at a multi-fuel power complex and apparatus for implementation thereof - Google Patents

Abstract

FIELD: treatment of waste.

SUBSTANCE: group of inventions relates to methods for recycling solid household and industrial waste. The method for environmentally sustainable recycling of solid household waste at a multi-fuel power complex includes recycling organic waste resulting in biogas and humus, and recycling the molten slag into heat insulation materials. The solid household waste is received at a multi-fuel power complex separately at the site for receiving and preparing organic and inorganic waste. Inorganic waste is recycled after grinding at a plasma-chemical recycling plant, and the resulting fuel, biogas, and synthesis gas are used at a thermal power plant to produce thermal energy and electricity. Apparatus for recycling solid household waste includes an organic matter recycling set, a plasma-chemical recycling set, a molten slag recycling set, a biogas purification unit, a CO₂ processing unit, a carbon dioxide production unit, and a catalytic processing unit. The apparatus is equipped with a gas holder for accumulating methane-hydrogen fuel and a gas holder for accumulating low-grade fuel, a gas distribution point of the power plant, a synthesis gas purification and separation unit, and a fuel preparation unit. The outputs of the synthesis gas purification and separation unit and the gas distribution point of the power plant herein are linked with the input of the fuel preparation unit, the output whereof is linked with the gas holder for accumulating methane-hydrogen fuel, and the outputs of the gas holder for accumulating low-grade fuel, the gas holder for accumulating methane-hydrogen fuel, and the gas distribution point of the power plant are linked with the input of the thermal power plant.

EFFECT: transfer of part of the power equipment of traditional thermal power plants to combined fuel combustion, use of renewable power sources at a thermal power plant, and reduction of hazardous atmospheric emissions.

2 cl, 1 dwg

Description

The group of inventions relates to methods for processing solid domestic and industrial waste.

A known method of processing solid household and industrial waste, including the stage of preliminary sorting of waste into organic and inorganic, pyrolysis processing of inorganic waste and processing of organic waste to produce biogas and humus. The pyrogas obtained at the pyrolysis plant is subjected to plasma-chemical processing to obtain synthesis gas and molten slag, while synthesis gas is used to produce energy and fuel, and molten slag is processed into heat-insulating materials, in addition, biogas obtained as a result of processing organic waste is used to produce carbon dioxide and methane, which is used to produce energy and fuel [1].

The reasons preventing the achievement of the technical result indicated below when using the known method, adopted as a prototype, include the fact that the known method does not provide for separate collection of waste for organic and inorganic outside the plant, which significantly increases the area and labor costs. Inorganic wastes are first sent to pyrolysis processing, which complicates the processing process and increases the cycle time.

A known installation for the processing of solid domestic and industrial waste, including a plant for sorting solid domestic and industrial waste, a pyrolysis plant, an organic processing plant, a plasma chemical processing plant, a molten slag processing plant, a biogas purification unit, a synthesis gas production unit, a carbon dioxide processing unit, a carbon dioxide production unit, an energy generation unit and a catalytic processing unit, while the plant for sorting municipal solid waste is connected by product output to the pyrolysis plant and to the organics processing plant, and the output of the pyrolysis plant is connected to the inlet of the plasma-chemical plant processing, the outputs of which are connected to the inputs of the molten slag processing plant, the power generation unit and the catalytic processing unit, and the output of the organic processing plant is connected to the input of the biogas purification unit, the output of which is connected to the input of the carbon dioxide processing unit, the outputs of the Many are connected with the inputs of the carbon dioxide production unit, the synthesis gas production unit, and the power generation unit [1].

The reasons preventing the achievement of the technical result indicated below when using a known device taken as a prototype include the fact that the known device does not allow preparing methane-hydrogen fuel, accumulating methane-hydrogen fuel in a gas tank and using methane-hydrogen fuel at thermal power plants before and above 50 MW, the device also does not allow to accumulate low-calorie fuel (biogas) obtained from organic waste in a gas tank and burn it in combination with other types of fuel at thermal power plants up to and above 50 MW.

The essence of the invention lies in the use of a fuel mixing unit intended for the preparation of methane-hydrogen fuel and its subsequent accumulation in a gas tank, from where methane-hydrogen fuel will be supplied to a thermal power plant for combined combustion of fuels in modernized power equipment (power boiler, hot water boiler, gas turbine plant , waste heat boiler); gas tank for accumulating low-calorie fuel (biogas) from where low-calorie fuel (biogas) will be supplied to a thermal power plant for combined combustion of fuels in modernized power equipment (power boiler, hot water boiler, gas turbine plant, waste heat boiler).

EFFECT: conversion of part of the power equipment of "traditional" thermal power plants to combined combustion of fuel; use of renewable energy sources at a thermal power plant; increasing the efficiency of a thermal power plant; reduction of harmful emissions into the atmosphere.

The specified single technical result in the implementation of a group of inventions according to the object - the method is achieved in that the method of environmentally friendly processing of municipal solid waste at a multi-fuel energy complex includes the stage of processing organic waste to produce biogas and humus, the biogas obtained as a result of processing organic waste is used to produce carbon dioxide and methane, which is used to generate energy, synthesis gas is used to generate energy and fuel, and molten slag is processed into thermal insulation materials.

The peculiarity lies in the fact that the reception of municipal solid waste to the multi-fuel energy complex is carried out separately at the site for the reception and preparation of organic and inorganic waste, inorganic waste, after grinding, is processed at the plasma-chemical processing unit, in addition, the resulting fuel, biogas and synthesis gas is used at a thermal power plant to produce heat and electricity.

The specified single technical result in the implementation of the group of inventions on the object - the device is achieved by the fact that the device for environmentally friendly processing of municipal solid waste at the multi-fuel energy complex includes an organic processing plant, a plasma-chemical processing plant, a molten slag processing plant, a biogas purification unit, a CO ₂ processing, carbon dioxide production unit, catalytic processing unit.

The peculiarity lies in the fact that biogas enters the gas tank for the accumulation of low-calorie fuel, from where it will be supplied to a thermal power plant; the synthesis gas purification and separation unit produces hydrogen, which enters the fuel preparation unit, in addition, methane (natural gas) from the gas distribution point of the power plant enters the fuel preparation unit. The prepared fuel enters the gas holder for the accumulation of methane-hydrogen fuel, from where it will be supplied to the thermal power plant; thermal power plant is a multi-fuel one, to which fuel is supplied from a gas tank for accumulating low-calorie fuel, a gas tank for accumulating methane-hydrogen fuel and a gas distribution point of the power plant.

The essence of the group of inventions is illustrated by a drawing, which shows a diagram of a device that implements the claimed method.

The method is carried out using a device, including: site 1 for receiving and preparing organic and inorganic waste; installation 2 for plasma-chemical processing; unit 3 for purification and separation of synthesis gas; fuel preparation unit 4; gas distribution point 5 of the power plant; gasholder 6 for accumulating methane-hydrogen fuel; thermal power plant 7; block 8 catalytic processing; plant 9 for processing molten slag; plant 10 for processing organic matter; block 11 biogas purification; block 12 processing CO ₂ ; block 13 receiving carbon dioxide; gas holder 14 for accumulating low-calorie fuel.

The outputs of the unit 3 purification and separation of synthesis gas and gas distribution point 5 of the power plant are connected to the input unit 4 of the fuel preparation. The output of the fuel preparation unit 4 is connected to the gas holder 6 for accumulating methane-hydrogen fuel. The outputs of the gas tank 14 for accumulating low-calorie fuel, the gas tank 6 for accumulating methane-hydrogen fuel and the gas distribution point 5 of the power plant are connected to the input of the thermal power plant 7.

The claimed group of inventions is implemented as follows.

Site 1 for receiving and preparing organic and inorganic waste receives organic and inorganic waste of III, IV, V hazard class. After sorting at site 1 for receiving and preparing organic and inorganic waste, inorganic (combustible) waste after grinding (up to 3-5 mm) is fed to installation 2 for plasma-chemical processing operating in the temperature range of 2500-5500 ° C, guaranteeing almost complete transformation of the original feedstock into synthesis gas (hereinafter synthesis gas). In block 3 of purification and separation of synthesis gas, synthesis gas is sent to the Venturi scrubber, and then to the column for cooling, cleaning from dust, hydrogen chlorine and other impurities. The purified synthesis gas exits through the spray column and is sent to a wet electrostatic precipitator for finer purification. Two streams leave the block 3 for purification and separation of synthesis gas, the first one leaves hydrogen with a purity of at least 98% and enters the fuel preparation block 4, which also receives natural gas from the gas distribution point 5 of the power plant, to form methane-hydrogen fuel with hydrogen content in the range of 15-20% of the total volume, synthesis gas exits the second stream, which enters the 8 catalytic processing unit to produce ethanol. Methane-hydrogen fuel from the fuel preparation unit 4 enters the gas tank for accumulating methane-hydrogen fuel 6 under high pressure. From the gas holder 6 for the accumulation of methane-hydrogen fuel, the fuel is supplied to the thermal power plant 7 for the combined combustion of fuels in the modernized power equipment (power boiler, hot water boiler, gas turbine plant, waste heat boiler) and generating electricity and heat energy. The end product of the plasma-chemical plant 2 will be a neutral molten slag, which is fed to the plant 9 for the processing of molten slag. In terms of its chemical composition, molten slag is close to natural basalt, from which heat-insulating materials are made using bulky equipment.

Organic waste in an amount of up to 30% of the total mass received at the site 1 for the receipt and preparation of organic and inorganic waste is sent to the installation 10 for the processing of organic matter. Organics enters a ball water mill, which is supplied with water from a fecal tank. Further, the material in the form of crushed pulp is heated to a temperature of 70-90°C through heat exchangers with network water coming from a thermal power plant 7. The hot pulp enters the biogas generator, where the fermentation process takes place at a temperature of 54-55°C with the release of methane gas and removal excess water and sedimentation of silt. The sludge enters the wormhole, the cassettes of which are placed in a room heated from a thermal power plant 7. Cassettes are filled with boxes with a worm, which processes all the sludge in the box, after which it is partially selected, dried and packed for sale at feed mills. The sludge converted into biohumus is dried and sent for sale as a biological fertilizer.

Biogas after the installation 10 for the processing of organic matter enters the biogas purification unit 11, where it is mainly purified from hydrogen sulfide and ammonia. Next, biogas with a methane content of up to 55-60%) enters the CO ₂ processing unit 12, the separated carbon dioxide enters the carbon dioxide production unit 13, where carbon dioxide is prepared for the needs of the chemical industry, metallurgy and agriculture in the form of technical carbon dioxide. Biogas with a methane content of 70-98% enters the gas holder 14 for the accumulation of low-calorie fuel. From the gas holder 14 for accumulating low-calorie fuel, the fuel is supplied to the thermal power plant 7 for the combined combustion of fuels in the modernized power equipment (power boiler, hot water boiler, gas turbine plant, waste heat boiler) and generating electricity and thermal energy. Thus, thermal power plant 7 is multi-fuel with the possibility of using fuel obtained from renewable energy sources.

Literature

1. RF patent for utility model No. 2570331, publ. 12/10/2015.

Claims (2)

1. The method of environmentally friendly processing of municipal solid waste at a multi-fuel energy complex, including the processing of organic waste to produce biogas and humus, the processing of molten slag into heat-insulating materials, characterized in that the acceptance of municipal solid waste to a multi-fuel energy complex is carried out separately at the site for receiving and preparation of organic and inorganic waste, inorganic waste after grinding is processed at a plasma-chemical processing unit, and the resulting fuel, biogas and synthesis gas are used at a thermal power plant to produce heat and electricity. 2. A device for environmentally friendly processing of municipal solid waste at a multi-fuel energy complex, including an organics processing plant, a plasma-chemical processing plant, a molten slag processing plant, a biogas purification unit, a CO ₂ processing unit, a carbon dioxide production unit, a catalytic processing unit, different by the fact that it is equipped with a gas tank for accumulating methane-hydrogen fuel and a gas tank for accumulating low-calorie fuel, a gas distribution point of the power plant, a synthesis gas purification and separation unit and a fuel preparation unit, while the outputs of the synthesis gas purification and separation unit and the gas distribution point of the power plant are connected to the input fuel preparation unit, the output of which is connected to the gas tank for accumulating methane-hydrogen fuel, and the outputs of the gas tank for accumulating low-calorie fuel, gas tank for accumulating methane-hydrogen fuel and gas distribution The power point of the power plant is connected to the input of the thermal power plant.

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