RU2297543C1 - Thermal power station operating process - Google Patents

Abstract

FIELD: thermal engineering.

SUBSTANCE: proposed process for operating thermal power station includes steam generation in boiler; to this end fuel and air are supplied to boiler and steam generated in the latter is conveyed to turbine; turbine dump steam is condensed within air condenser due to condensed-steam heat takeoff by air; steam condensation is effected in condenser-type double-section contactless surface heat exchanger; main-section coolant is air supplied to boiler furnace through boiler forced-draft fan; auxiliary-section cooling air is used for heating station powerhouse; air is forced through auxiliary section due to air-cooling system fan draft. Essential part of turbine dump steam heat is conveyed to heating system.

EFFECT: enhanced station reliability and economic efficiency due to reduced capital outlays and power requirement for erecting and operating condenser plant and reduced cost of full-flow condensate deaeration.

1 cl, 1 dwg

Description

The invention relates to the field of power engineering and can be used in thermal power plants.

The analogue is known - the method of operation of a thermal power plant, in which steam is generated in the boiler, for which fuel and air are supplied to the boiler, the steam generated in the boiler is sent to the turbine, after which the exhaust steam is condensed by taking off the heat of the condensed steam by the air supplied to the boiler, the process condensations are carried out in a contact air condenser, which is two impellers of blowers located on a shaft connected to the motor shaft (see a / c RU 2156360 C2 from 09/20/2000). This analogue is adopted as a prototype.

The disadvantage of the analogue and the prototype is its inoperability due to the contradiction of the second law of thermodynamics (the amount of steam that must be condensed to continue the cycle of the station cannot be condensed by the air supplied to the boiler furnace), as well as the reduced reliability and efficiency of the thermal power plant due to high energy losses due to operation of the air condensing unit and due to the increased costs for deaeration of the main condensate of the turbine.

The technical result achieved by the present invention is to achieve the operability of a thermal power plant, adopted as a prototype, by organizing the removal of a significant part of the heat of the exhaust steam of the turbine for the needs of the heating system, as well as increasing the reliability and efficiency of the station by reducing capital and energy costs for construction and operation condensing unit and by reducing the cost of deaeration of the main condensate of the turbine.

To achieve this result, a method of operating a thermal power plant is proposed, in which steam is generated in the boiler, for which fuel and air are supplied to the boiler, steam is sent from the boiler to the turbine, the steam spent in the turbine is condensed in an air condenser by taking off the heat of the condensed steam by air.

The peculiarity lies in the fact that the condensation process is carried out in a two-contact non-contact surface heat exchanger-condenser, the air supplied to the boiler furnace is used as the cooler of the main section, the movement of which is carried out by the draft fan of the boiler, the cooling air of the auxiliary section is used to heat the main station building, and the movement of air through the auxiliary section is carried out due to the draft fan of the air heating system.

A new way of working allows us to achieve the operability of a thermal power plant, adopted as a prototype, by organizing the removal of a significant part of the heat of the exhausted steam of the turbine for the needs of the heating system, as well as increasing the reliability and efficiency of the station by reducing the capital and energy costs for the construction and operation of the condensing unit and reduce the cost of deaeration of the main condensate of the turbine.

Consider an example of the implementation of the claimed method of operation of a thermal power plant.

The drawing shows a diagram of a thermal power plant in which a new method is implemented.

The station contains a boiler 1 with a burner 2, connected by a steam line of a sharp steam to a turbine 3, which is connected by a steam line of the exhaust steam with an air condenser 4, made in the form of a two-section non-contact heat exchanger with the main 5 and auxiliary 6 sections. The main section 5 of the condenser 4 is included in the cooling medium into the suction pipe of the blower fan 7 of the boiler 1, the auxiliary section 6 is connected by an air duct to the suction pipe of the fan 8 of the air heating system of the main building of the station.

Fuel is supplied to the boiler 1 through the burner 2 and the air produced in the boiler 1 is sent to the turbine 3. The steam spent in the turbine is condensed in the air condenser 4. The main condensate of the turbines is returned to the boiler through the turbine regeneration system 1. The air necessary for the boiler to work, the blower fan 7 of the boiler 1 is taken out of the atmosphere, passed through the main section 5 of the condenser 4 and fed into the furnace of the boiler 1. The air of the heating system of the main building of the station is heated by circulating it through the auxiliary section 6 of the condenser 4 p Using the fan 8 of the heating system.

Thus, the new method of operation of the thermal power plant allows to significantly increase the amount of air used to cool the condenser, to exclude the complex kinematic scheme of the rotating blowers from the condensation unit and to significantly reduce the saturation of the main condensate of the turbine with oxygen, i.e. it allows to achieve the operability of the scheme adopted as a prototype, as well as to increase the reliability and efficiency of a thermal power plant by reducing the capital and energy costs for the construction and operation of a condensing unit and by reducing the cost of deaeration of the main condensate of the turbine.

Claims (1)

The method of operation of a thermal power plant, in which steam is generated in the boiler, for which fuel and air are supplied to the boiler, steam is sent from the boiler to the turbine, the steam spent in the turbine is condensed in an air condenser by taking off the heat of the condensed steam by air, characterized in that the condensation process they are carried out in a two-section non-contact surface heat exchanger-condenser, the air supplied to the boiler furnace is used as the cooler of the main section, the movement of which is carried out due to the blowing draft of the boiler fan, the cooling air of the auxiliary section is used for heating the main building of the station, and the air movement through the auxiliary section is carried out due to the draft of the fan of the air heating system.