RU81561U1 - ELECTRIC POWER INSTALLATION - Google Patents

Abstract

The utility model relates to the field of energy and ecology, to the field of thermal processing of municipal solid waste with the utilization of their energy potential to generate heat and electricity.

The technical result of the utility model is to increase the profitability of processing municipal solid waste to generate electricity.

The technical result is achieved by the fact that in the installation for processing waste, made on the basis of a paired line, the paired line contains the compartments for receiving plastic waste, connected to the converters for processing plastic containing masses into liquid diesel fuel, the converters are connected by a liquid fuel supply system with a dual-zone combustion chamber a gas turbine connected to a pyrogas cleaning apparatus and a gas turbine, one of the outputs of which is connected to a boiler, a diffuser of a dual-zone combustion chamber is connected to uboprovodami with compression of air supply and a node, the second output of the gas turbine connected to an electric generator and an external power consumer, wherein the plasma thermal reactors outputs connected to inputs of pyrolysis cleaning apparatus.

1 s.p.f. 2 ill.

Description

The utility model relates to the field of energy and ecology, to the field of thermal processing of municipal solid waste with the utilization of their energy potential to generate heat and electricity.

There are known schemes for plasma installations and technological complexes in which the gas generated as a result of thermal destruction of household waste is either burned with the subsequent use of high-temperature combustion products to produce steam, or pyrogas after preliminary gas treatment is used as fuel for the operation of diesel or gas turbine generators.

Known pyrolysis power plant containing a plasma processing unit for solid household waste, power supply unit and heat supply, gas purification and gas emission from gas turbine and steam turbine units with an electric generator, a two-circuit waste heat boiler. Based on at least one paired line containing a common unit for primary sorting of municipal solid waste, at least one plasma reactor connected to an afterburner and a water treatment unit. The outputs of the afterburners are connected to the secondary circuit of the recovery boiler. The power supply and heat supply unit is made at least on a paired line containing gas pipelines, gas turbine units with gas turbine electric generators and waste heat boilers. The outputs of gas turbine units are connected to the inputs of the first waste heat boilers, the outputs of which are connected to the inputs of the ejectors, smoke exhausts, and outputs of the second boilers the utilizers are connected in series with the gas purification and the inlets of the ejector exhausters, and the outputs of the ejector exhausters are connected with the input of the gas emission unit. Patent of the Russian Federation for utility model No. 70890, IPC: C10J 3/14, 2008. For work

gas turbines use low-calorie pyrogas, therefore, its efficiency not high enough.

Known power plant containing a plasma processing unit of solid household waste, power supply and heat supply, gas purification and gas emission from gas turbine and steam turbine units with an electric generator. The installation contains a two-circuit waste heat boiler and is based on at least one paired line containing a common unit for primary sorting of municipal solid waste, at least one plasma reactor connected to the afterburner, and a water treatment unit, the outputs of the reactors afterburners are connected to the second circuit of the recovery boiler. The power supply and heat supply unit is made at least on a paired line containing air ducts in which a compressor, a heat exchanger and a gas turbine unit with gas turbine generators are installed in series. The first waste heat boiler, the second waste heat boiler, a steam turbine unit with a steam turbine electric generator, the outputs of the gas turbine units are connected to the inputs of the first waste heat boilers, the outputs of which are connected to the inlets of the exhaust fans, the outputs of the second waste heat boilers are connected in series with the gas treatment and exhaust exits of the exhaust fans, and with the entrance of the gas emission unit Utility Model Patent of the Russian Federation No. 70963, IPC: F23G 5/027, 2008. The disadvantage of the installation is the need for a heat exchanger to heat the working air from high-temperature combustion products of pyrogas. The heat exchanger operates in conditions of high thermal tension, which makes its design expensive and unreliable.

Known power plant containing a plasma processing unit of solid household waste, power supply and heat supply, gas purification and gas emission from gas turbine and steam turbine units with an electric generator. Installation contains

a double-circuit recovery boiler and is based on at least one paired line containing a common unit for primary sorting of municipal solid waste, at least one plasma reactor connected to an afterburner, and a water treatment unit. The outputs of the afterburners are connected to the secondary circuit of the recovery boiler. The power supply and heat supply unit is made on a paired line containing air ducts in which a compressor, a heat exchanger and a gas turbine unit with gas turbine electric generators are installed in series. The first waste heat boiler, the second waste heat boiler, a steam turbine unit with a steam turbine electric generator. The outputs of gas turbine units are connected to the inlets of the first waste heat boilers, the outputs of which are connected to the inlet of the exhaust fans, the outputs of the second exhaust gas boilers are connected in series with the gas purification and the inlets of the exhaust fans, and the outlets of the exhaust fans are connected to the input of the gas exhaust unit. Utility Model Patent of the Russian Federation No. 70962, IPC: F23G 5/027, 2008. The disadvantage of this model is the need to use natural gas, which increases the cost of waste processing (prototype).

The technical result of the utility model is to increase the profitability of processing municipal solid waste to generate electricity.

The technical result is achieved by the fact that in the installation for processing waste, made on the basis of a paired line containing a plasma processing unit of waste, a department for receiving and accumulating household waste, at least one plasma reactor, a water treatment unit, a power supply and heat supply unit with a gas turbine and steam turbine installations with electric generators, gas purification and gas emission unit, twin line contains compartments for receiving plastic waste, connected to converters for recycling plastic containing mass into liquid

diesel fuel, converters are connected by a liquid fuel supply system with a two-zone combustion chamber of a gas turbine connected to a pyrogas cleaning apparatus and a gas turbine, one of the outputs of which is connected to a boiler, a diffuser of a two-zone combustion chamber is connected by pipelines to an air supply and compression unit, and a second exit of a gas turbine connected to an electric generator and an external consumer of electricity, and the outputs of the plasma-thermal reactors are connected to the inputs of the pyrogas cleaning apparatus. the dual-zone combustion chamber contains an annular body inside which flame tubes are placed around the circumference, an electric discharge spark plug, a fitting for supplying pyrolysis gas to the main combustion zone and a fitting for supplying liquid fuel to the standby combustion zone are installed on the housing, each flame tube is equipped with a front device with a nozzle and by a swirler, a two-zone chamber contains a diffuser for introducing compressed air; radial holes for supplying are made on each flame tube in the combustion zone of the main fuel air into the main combustion zone and openings to provide air cooling of the walls of the flame tube. The essence of the utility model is illustrated in Fig.1,2.

Figure 1 schematically shows a gas-steam-turbine power generating plant for the plasma-chemical processing of solid household waste with the conversion of polyvinyl chloride materials into liquid fuel, followed by the use of liquid and combustible gaseous products of processing to ensure the efficient operation of gas turbines, where: I is a unit for plasma-thermal processing of waste and receiving combustible processed products; II - gas-steam turbine power unit; III - gas treatment and process control unit.

1 - the department for receiving and accumulating household waste (storage) 2 - the department for receiving plastic waste (storage); 3 - plastic containing waste; 4 - household waste; 5, 6 - plasmothermic reactors; 7 - air supply pipe; 8 - compression unit

(compression) air; 9 - converters for processing plastic containing mass into liquid diesel fuel; 10 - a system for supplying liquid fuel to the combustion chambers of gas turbines; 11 - dual-zone combustion chambers; 12 - apparatus for cleaning pyrogas; 13 - gas turbines with an electric generator; 14 - boilers (waste heat boilers from gas turbines); 15 - water treatment system for powering steam generators for a steam turbine; 16 - water supply to the boilers 14; 17 - steam supply to the steam turbine; 18 - steam turbine with; 19 - an electric generator of a gas turbine 13; 20 - electric generator of a steam turbine; 21 - gas cleaning system; 22 - smoke exhaust; 23 - gas emission pipe with an environmental control system; 24 - a system of automated process control. 25 - access to the consumer of electricity, access to the consumer of heat.

Figure 2 schematically shows a dual-zone combustion chamber, where: 27 - the housing of the combustion chamber; 28 - flame tubes of the combustion chamber; 29 - fitting for supplying pyrolysis gas; 30 - fitting for supplying liquid fuel; 31 - a spark plug; 32 - front-end device with nozzle and swirl; 33 - diffuser input compressed air; 34 - duty combustion zone; 35 - the main combustion zone; 36 - combustion zone of pyrolysis gas; 37 - holes for supplying air to the combustion zone; 38 - holes for supplying cooling air to the walls of the flame tube; 39 - gas collector; 40 - blades of the nozzle apparatus of a gas turbine.

Installation for generating electricity works as follows: Waste is recycled in two streams: containing plastic and 4 - household waste. Waste 3 containing plastic from the drive 2 after preliminary sorting is served in the converter 9, where it is processed into liquid fuel. Household waste 4 from the accumulator 1 after preliminary sorting serves for processing in plasmothermic reactors 5 and 6 (their quantity can be large),

of which the resulting pyrolysis gas is sent for preliminary gas purification in the apparatus 12.

Both types of fuel, both liquid and gaseous, as well as compressed air, are supplied to dual-zone combustion chambers 11, the combustion products of which are used to operate gas turbines 13 and corresponding electric generators 19. Exhausted hot combustion products from gas turbines 13 are fed to boilers 14, in which steam 17 is produced from the water prepared in the water treatment system 15 to produce a steam turbine 16 with an electric generator 20. Electricity and heat are generated in the gas-steam turbine cycle to supply electricity to external consumers and heat 25, 26. The exhaust gases from the boilers 14 pass through the gas cleaning system 21 and are released into the atmosphere in the form of an environmentally friendly gas emission 23. The installation for generating electricity receives commands from the system 24 of automated process control.

The combustion chamber 11 is made of an annular body 27, inside which twelve flame tubes 28 are placed around the circumference. An electric discharge spark plug 31 is installed on the housing 27 of the combustion chamber 11, as well as a nozzle 29 for supplying pyrolysis gas to the main combustion zone 35 and a nozzle 30 for supplying liquid fuel to the standby combustion zone 34. Each flame tube 28 is equipped with a front-end device 32 with a nozzle and a swirl, which provides atomization and mixing of liquid fuel with air. On the housing of each flame tube 28 in the combustion zone of the pyrolysis gas 36, radial openings 37 are made for supplying air to the combustion zone and openings 38 for providing air cooling of the walls of the flame tube 28.

Atmospheric air enters from the diffuser for introducing compressed air 33 into the combustion zone 34, partially washing the heat pipe 28 from the outside, and partially entering the frontal device 32, equipped with a nozzle and swirl, where it mixes with

liquid fuel, forming a fuel-air mixture, ignited using an electric discharge spark plug 31. Liquid fuel, burning in the standby combustion zone 34, provides starting and idling. In the standby combustion zone 34, a diffusion combustion mode is provided for the rich mixture (with an air excess coefficient α <1). The main fuel (pyrogas — up to 80% of the total fuel) is fed into the combustion chamber in the main combustion zone 35, where in the pyrolysis gas combustion zone 36 it is mixed with air entering the flame tube 28 through openings 37. The pyrogas is ignited from the combustion zone 34. In the main combustion zone 35, a lean mixture is homogeneously burned (with an excess air coefficient α> 1) and at a lower temperature, which reduces the formation of nitrogen oxides. Thus, they provide stable burning of the lean mixture. The combustion products are sent to the gas collector 39 and to the blades of the nozzle apparatus 40 of the turbine.

Claims (2)

1. Installation for waste processing, made on the basis of a twin line, containing a plasma processing unit for waste, a compartment for receiving and accumulating household waste, at least one plasma reactor, a water treatment unit, a power supply and heating unit with a gas turbine and steam turbine units with electric generators, gas purification and gas emission unit, characterized in that the paired line contains plastic waste compartments connected to converters for processing the plastic code rusting mass into liquid diesel fuel, the converters are connected by a liquid fuel supply system with a two-zone combustion chamber of a gas turbine connected to a pyrogas cleaning apparatus and a gas turbine, one of the outputs of which is connected to a boiler, a diffuser of a two-zone combustion chamber is connected by pipelines to an air supply and compression unit, the second output of the gas turbine is connected to an electric generator and an external consumer of electricity, and the outputs of the plasma-thermal reactors are connected to the inputs of the pyrogas cleaning apparatus. 2. The waste treatment plant according to claim 1, characterized in that the dual-zone combustion chamber contains an annular body, inside which flame tubes are arranged around the circumference, an electric discharge spark plug, a fitting for supplying pyrolysis gas to the main combustion zone and a fitting for supplying are installed on the housing liquid fuel to the on-burning combustion zone, each flame tube is equipped with a front-mounted device with a nozzle and swirl, a two-zone chamber contains a diffuser for introducing compressed air, on each flame tube in the burning zone I made the main fuel radial holes for the air inlet into the primary combustion zone and openings for air cooling of the flame tube walls.