RU59734U1 - ENERGY COMPLEX - Google Patents

Abstract

The utility model relates to the field of energy, more specifically, to combined energy complexes that use products of the combustion of hydrocarbon fuels to operate gas turbine plants in combination with other devices and can be used as an alternative source of thermal and electric energy in the operation of low-grade coal and oil shale deposits by underground gasification. The problem to be solved is the creation of an environmentally friendly energy complex designed for the efficient production of electric and thermal energy on the basis of enterprises using underground gasification technology for coal and shale. Additional tasks are reducing the cost of heat and electricity produced, ensuring high reliability, equipment payback and reducing capital costs for creating a standard complex. This problem is solved in that in an energy complex containing a device for burning coal gasification products, a gas turbine unit and a low-grade heat recovery system, according to a utility model, the complex additionally contains at least two high-temperature regenerative heat exchangers equipped with a switching system for cyclic heating of their nozzle during the combustion of products of underground coal gasification and nozzle cooling when purging with atmospheric air, at the inlet of regenerative heat exchange The installation of devices for burning gasification products and a compressor for supplying air were installed, while the output of the regenerative heat exchangers in the nozzle heating mode is connected to the input of the flue gas purification unit from sulfur and carbon dioxide compounds, and in the nozzle cooling mode, to the input of the first stage of the gas turbine for operation the heat content of the air heated in the regenerative heat exchanger, and the gas turbine is loaded on the first electric generator, the output of its last stage is connected to the air duct inlet a steam-turbine circuit generator, the steam turbine of which is loaded on the second electric generator, and the air duct output of the steam generator is connected to the input of the low-potential heat recovery system of the exhaust air.

In addition, the flue gas purification unit from sulfur and carbon dioxide compounds may contain a rotary converter filled with an aqueous solution of milk of lime to purge flue gases through it and subsequently use precipitated calcium carbonate and gypsum. In addition, the low potential heat recovery system for the exhaust air may include a bubbler for heating water in the heating line and a unit for utilization of its kinetic energy. Description on 5 l., F-la from 3 pp, fig. On 1 l.

Description

The utility model relates to the field of energy, more specifically, to combined energy complexes that use products of the combustion of hydrocarbon fuels to operate gas turbine plants in combination with other devices and can be used as an alternative source of thermal and electric energy in the operation of low-grade coal and oil shale deposits by underground gasification.

Known gas turbine unit operating on solid fuel and containing a gasifier, a combustion chamber, a gas turbine, a compressor and heat exchangers (see RF patent No. 2044145, IPC F 02 C 3/00, bull. 26, 1995)

The disadvantages of the known gas turbine installation include a relatively low overall efficiency. installations associated with the lack of systems and units of the steam-turbine circuit for the utilization of low-potential heat of flue gases.

The closest technical solution to the proposed one is an energy complex containing a device for burning coal gasification products, a gas turbine unit and a low-grade heat recovery system (see RF patent No. 30863, IPC 7 F 02 C 1/00, bulletin 10, 2003 - prototype).

The disadvantages of such an energy complex are its relatively low efficiency due to insufficient utilization of the heat content of the fuel used, as well as the inability of the device to operate on underground gasification of coal and shale with low calorific value with a significant content of sulfur compounds and other toxicants in them.

The problem to be solved is the creation of an environmentally friendly energy complex designed for the efficient production of electric and thermal energy on the basis of enterprises using underground gasification technology for coal and shale. Additional tasks are reducing the cost of heat and electricity produced, ensuring high reliability, equipment payback and reducing capital costs for creating a standard complex.

This problem is solved in that in an energy complex containing a device for burning coal gasification products, a gas turbine unit and a low-grade heat recovery system, according to a utility model, the complex additionally contains at least two high-temperature regenerative heat exchangers equipped with a switching system for cyclic heating of their nozzle during the combustion of products of underground coal gasification and nozzle cooling when purging with atmospheric air, at the inlet of regenerative heat exchange The installation of devices for burning gasification products and a compressor for supplying air were installed, while the output of the regenerative heat exchangers in the nozzle heating mode is connected to the input of the flue gas purification unit from sulfur and carbon dioxide compounds, and in the nozzle cooling mode, to the input of the first stage of the gas turbine for operation the heat content of the air heated in the regenerative heat exchanger, and the gas turbine is loaded on the first electric generator, the output of its last stage is connected to the air duct inlet a steam-turbine circuit generator, the steam turbine of which is loaded on the second electric generator, and the air duct output of the steam generator is connected to the input of the low-potential heat recovery system of the exhaust air.

In addition, the flue gas purification unit from sulfur and carbon dioxide compounds may contain a rotary converter filled with an aqueous solution of milk of lime to purge flue gases through it and subsequently use precipitated calcium carbonate and gypsum.

In addition, the low potential heat recovery system for the exhaust air may include a bubbler for heating water in the heating line and a unit for utilization of its kinetic energy.

The use of a high-temperature regenerative heat exchanger in the proposed energy complex for cyclic heating of its nozzle during the combustion of underground coal gasification products and cooling of the nozzle when purging with atmospheric air allows the use of efficient equipment for triggering the enthalpy of heated air in series in gas turbine and steam turbine units. The presence in the energy complex of the necessary systems for cleaning the working fluid and the deep utilization of low-grade heat leaving the installation of air in the aggregate allows us to achieve the above objectives.

Figure 1 presents the block diagram of the energy complex.

The complex contains two high-temperature regenerative heat exchangers 1, 2, equipped with a switching system (not shown) for cyclic heating of their nozzle during the combustion of underground coal gasification products and cooling of the nozzle when purging with atmospheric air. At the inlet of the regenerative heat exchangers 1, 2, devices 3 for burning gasification products and a compressor 4 for air supply are installed. The output of the regenerative heat exchangers 1, 2 in the nozzle heating mode is connected to the input of the exhaust gas purification unit 5 from sulfur and carbon dioxide compounds, and in the nozzle cooling mode, to the inlet of the first stage of the gas turbine 6 to trigger the heat content of the air heated in the regenerative heat exchanger.

The gas turbine 6 is loaded on the first electric generator 7, the output of its last stage is connected to the input of the air path of the steam generator 8 of the steam turbine circuit 9, the steam turbine 10 of which is loaded on the second electric generator 11, and the output of the air path of the steam generator 8 is connected to the input of the low-grade heat exhaust system, comprising a bubbler 12 for heating water in a heating line (not shown) and a unit 13 for utilizing its kinetic energy, which is loaded onto a third electric generator 14.

The steam-turbine circuit 9 also contains a circulation pump 15 and a condenser 16. The devices 3 for burning coal gasification products are equipped with a system (not shown) for enriching the oxygen necessary for burning air, and a dust-coal filter 17 is installed at the inlet of the gasification products supply path to the devices 3.

The flue gas purification unit 5 for sulfur and carbon dioxide compounds may contain a rotary converter (not shown) that is filled with an aqueous solution of milk of lime to purge flue gases through it and then use precipitated calcium carbonate and gypsum.

The energy complex operates as follows.

Figure 1 shows the schematic part of the energy complex when the input of the regenerative heat exchanger 2 of the heated air supply is connected to the air compressor 4, and the output is connected to the input of the gas turbine 6. In this case, the second regenerative heat exchanger 1, which is in the heating mode of its nozzle, is connected to an inlet with a device 3 for burning gasification products, and at the outlet, with an inlet of a flue gas purification unit 5 from sulfur and carbon dioxide compounds.

In the next phase of the cycle, heat exchangers 1 and 2 are changed according to the connection diagram with a gas turbine 6 and a purification unit 5 using a known switching system.

Products of underground gasification of coal or shale come periodically through a dust filter 17 to the inlet of one of the devices 3 for burning them. At the same time, air enriched with oxygen is supplied to the burner device 3 at the heat exchanger 1 in the required amount to heat the nozzle to temperatures of about 1600 C. The burned gasification products that have given their heat to the nozzle of the heat exchanger 1, go to the inlet of the cleaning unit 5 at a low temperature and then are discharged into the atmosphere at a temperature of about 35 C.

At the same time, atmospheric air through a compressor 4 enters the heat exchanger 2 for the heat of the previously heated nozzle and at a temperature of about 1500 C it first enters the inlet of the first stage of the gas turbine 6, and then through the steam generator 8 of the steam turbine circuit 9 - to the input of the low-potential heat exhaust gas recovery system comprising a bubbler 12 for heating water in a heating line (not shown) and a unit 13 for utilizing its kinetic energy. For a gas turbine to operate in an oxidizing environment, the turbine blades must have a protective coating.

The power is taken from the gas turbine 6, from the steam turbine 10 and from the block 13 for utilization of the kinetic energy of the exhaust air, respectively, by means of the first 7, second 11 and third electric generators 14. The heat energy of the low-grade heat of the exhaust air from the complex is selected using a bubbler 12 for heating water in a heating line. An additional increase in the efficiency of the energy complex is achieved through the use of valuable products precipitating in the converter of purification unit 5 in the form of calcium carbonate and gypsum, which can be used, for example, in the production of cement.

The effectiveness of the proposed energy complex can be estimated as follows. Currently, the Russian Federation is facing an acute problem of saving domestic consumption of natural gas and other types of hydrocarbon fuels. At the same time, the coal industry has unique experience in developing off-balance resources of a number of operating pools located in energy-deficient regions of the Russian Federation and neighboring countries. The relatively low calorific value of underground coal gasification products (up to 900 kcal / cubic meter) and severe contamination with sulfur compounds and other toxicants limit the large-scale use of this fuel in modern energy systems.

The proposed energy complex eliminates these limitations and provides the possibility of cost-effective large-scale production of environmentally friendly heat and electric energy. The parameters of the working fluid ensure the operation of the gas turbine in hot air with efficiency up to 40 percent and operation of the steam turbine circuit with efficiency up to 42 percent, with total efficiency about 60 percent, which is 1.5-1.7 times higher than the efficiency typical coal thermal power plants.

Utilization of the heat content and kinetic energy of the air leaving the complex allows you to get additional commercial heat for the heating of houses and industrial enterprises and an additional amount of electricity.

Ecological safety of the energy complex is achieved by bubbling the flue gases through a solution of calcium hydroxide, leading to the precipitation of a mixture of gypsum with limestone, suitable for disposal in the production of aluminite cement.

For an energy complex with a consumption of 2.5 billion cubic meters per year of gas from an underground coal gasification enterprise, with a calorific value of 950 kcal / cubic meter and the indicated parameters of air heating in a regenerative heat exchanger, the capacity of a gas-air turbine will be about 105 MW, a steam turbine - about 66 MW. At the same time, the production of commercial heat reaches 633,000 Gcal / year. At the same time, capital investments, including the construction and installation of the complex, amount to $ 1,320 million, and the payback taking into account gas savings does not exceed two years. It should be noted that the main equipment production of the proposed energy complex is reliably mastered and produced in the Russian Federation.

Claims (3)

1. An energy complex comprising a device for burning coal gasification products, a gas turbine installation and a low-grade heat recovery system, characterized in that the complex additionally contains at least two high-temperature regenerative heat exchangers equipped with a switching system for cyclic heating of their nozzle during the combustion of underground products coal gasification and nozzle cooling when purging with atmospheric air; devices for combustion are installed at the inlet of regenerative heat exchangers gasification products and a compressor for supplying air, while the output of the regenerative heat exchangers in the heating mode of the nozzle is connected to the input of the flue gas purification unit from sulfur and carbon dioxide compounds, and in the cooling mode of the nozzle it is connected to the input of the first stage of the gas turbine to trigger the heat content of the heated in the regenerative an air heat exchanger, wherein the gas turbine is loaded on the first electric generator, the output of its last stage is connected to the inlet of the air path of the steam generator of the steam turbine circuit, rovaya turbine which is loaded in the second generator, and the output of an air path connected to the inlet of the steam generator system the low-grade waste heat of exhaust air. 2. The energy complex according to claim 1, characterized in that the flue gas purification unit from sulfur and carbon dioxide compounds contains a rotary converter filled with an aqueous solution of milk of lime to purge flue gases through it and subsequently use precipitated calcium carbonate and gypsum. 3. The energy complex according to claim 1, characterized in that the low-potential heat recovery system for the exhaust air contains a bubbler for heating water in the heating line and a unit for utilization of its kinetic energy.