SU1276841A1 - Method for operation of thermal power plant - Google Patents

Abstract

The invention relates to a power system and can be used to generate electricity when using natural gas as a fuel. The invention improves the economy by reducing the cost of water treatment. gas hydrates (G). At that, heat of crystallization is removed by the cooling machine 13. Formed by G. pump 17 through 3 24 is fed to the separation-washing device 14. In the latter they are cleaned with water supplied by pump 19 from the battery 11. Purified G are sent to storage 15, and mineralized water shed. During the peak period of the electrical load schedule G from storage 15, pump 18 is supplied to coils 7, where it is decomposed due to the heat of condensation of water vapor and separated in separator B into gas and water. The gas is sent for combustion to the boiler 2, and the water to the city-turbine 10 and then to the accumulator II. From the latter, the water is taken through the open 3 26, it feeds the circulating cooling system. 1 il. From W N5 about: 00

Description

The invention relates to a power system and can be used in thermal power plants.

The purpose of the invention is to increase efficiency by reducing the cost of water treatment.

 The drawing shows schematically a device that implements the proposed method of operation of a thermal power plant.

The device contains a gas pipeline 1, a boiler unit 2, a turbogenerator 3, a condenser 4 connected to a circulating cooling system with a circulating pump 5 and a cooling tower 6, inside of which is placed a coil 7 for decomposing natural gas hydrates, a separator 8, the output of which is connected to a gas turbine 9 and to the hydraulic turbine 10, the output of the latter is connected to the water accumulator 11, the crystallizer 12 with the refrigerating machine 13, the separation-flushing device 14, the storage 15, the pumps 16 to 19, the tank 20 of the blowing water, the valves 21 to 29.

A device that implements the method of operation of a thermal power plant, works as follows.

Natural gas is supplied from the main gas pipeline 1 to the boiler unit 2 for combustion with the generation of water vapor from the water supplied by the pump 16 to the turbogenerator 3, where electric power is produced. In condenser 4, condensation of water vapor occurs by cooling water supplied by a circulating pump 5 of the circulating cooling system, and then re-supply of condensed steam by a 16 B pump of the cooling unit 2. To prevent the formation of mineral deposits, the circulating cooling system is blown and the purge water is pumped through the open valve 21 into the tank 20.

In the period of failure of the electric load graph, the excess of natural gas from gas pipeline 1 through valve 22 and purge water through valve 23 serves to mix and form gas hydrates into the crystallizer 12 and remove heat of crystallization from the refrigerating machine 13. Hydrates formed by pump i through valve 24 serve in separation

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washing device 14, where they are cleaned with accumulated water supplied by pump 19 from accumulator 11. Purified gas hydrates are sent to storage 15, and saline water is discharged through valve 25.

During the peak of the electrical load schedule, gas hydrates from storage 15 are pumped into pump coil 7 by a pump 18, decompose there due to the heat of condensation of water vapor, and are separated into gas and water in the separator 8. Gas is fed to the gas turbine 9, water - to the hydro turbine 10 with the production of additional work in them. The water after the hydro turbine 10 is sent to the accumulator 11, from which, subsequently, through the open valve 26, the circulating cooling system is fed.

Pipelines with the rear, vizkami 27 - 29 serve to push through the water from the tank 20 and the battery 11.

Claims (1)

Invention Formula Method of operation of a thermal power plant by supplying natural gas for combustion to a boiler unit with steam generation, supplying the latter to a turbogenerator with electricity generation, building up steam in a condenser with cooling water supplied from the circulating cooling system with periodic blowing of the latter, reserving natural gas with the formation of gas hydrates and storage of the latter during the period of failure of the electrical load graph, the supply of gas hydrates to the condenser and the decomposition of gas g gas and water, separating them from each other with supplying them respectively to the gas and hydraulic turbines, followed by accumulation of the waste water in the hydraulic turbine at the peak of the electrical load graph, which differs In order to increase efficiency by reducing the cost of water treatment, they accumulate purge water during the period of failure of the electrical load schedule, supply it for the formation of gas hydrates, and purify the latter with accumulated water, which is also used to feed the circulating cooling system. 0 five 0 five