SU1460361A1 - Method of relieving a central heating/power plant - Google Patents

Abstract

Invention m. used on fossil-fired power plants. The purpose of the invention is to reduce metal consumption and provide deeper unloading. The air in the air heater 2 is heated with flue gases, and in the heater 13 with steam from the boiler 1, the reduced steam is supplied from the heater 7 to the consumer 12. During the failure of the solar loads, the air heater is disconnected by air and gases and increases the steam consumption to the heater 7. Steam choking is performed in front of the heater. The supply of fresh steam to the heater 7 and the disconnection of the air heater 2 allow, with a minimum load of the boiler, to further reduce the load of the turbine. The method makes it possible to increase the maneuverability of the installation and, due to a decrease in the vapor pressure in the heater 7, to reduce the metal intensity. 1 il .. / yi (L S

Description

FIELD OF THE INVENTION The invention relates to a power system and can be used at heat and power plants, operating at organic toppi,

The purpose of the invention is to reduce metal consumption and provide deeper unloading.

The drawing shows a schematic diagram of a combined heat and power plant for the Q implementation of the proposed unloading method.

The combined heat and power plant contains coils 1 with an air preheater 2 connected by air 3 and gas 415 to boiler 1, bypasses 5 and 6 through, air and gases of preheater 2, installed on air bypass 5 by peak air heater 7, the temperature of the hot air. At the same time, in order to protect against intense low-temperature corrosion and to avoid a fire-hazardous situation, the air heater 2 is switched off both on the gas side and on the air side. The flue gases are passed through the bypass 6, instead of air heater 2 is heated in the peak heater 7 and through the heater bypass 5 the bodies 2 are sent to the boiler 1, the steam from the peak heater 7, significantly cooled, serves the consumer 12 heat.

It conducts unloading of the combined heat and power unit with the T-180-130 turbine. During normal operation of the unit, the main heater 13 heats the air.

wired on the heating side 8 through re-20 to lOO-llO C and in the air preheating and cooling unit 9L 2 to 360 ° C, the consumer 12 is heated to the main steam line 10 and the outlet ports supply steam from the extraction line 16

pipelines 11 - to the consumer of the 12th turbine with a flow rate of 300 T / h,

heat, as well as the main heater 13, installed on the air path 25 3 to the bypass 5 through the air flow and communicated by the steam extraction line 14 with the turbine 15, Heat consumer 12 is also connected to the heat line 16 When the heat and power plant unloads, the air heater 2 is turned off and air heating from 100-110 to 360 ° C is carried out in a peak heater 7 at a pressure of reduced steam of 1.0-1.5 MPa, after which steam

steam turbine 15, equals consumer 12 to heat.

a common exhaust 17 with a capacitor 18,

To burn fuel, boiler 1 is supplied via air trust 3 with hot air, which is subsequently heated in the main heater 13 and air preheater 2. Air in air preheater 2 is heated by flue gases from boiler 1, which enters through the gas path 4, From boiler 1 fresh steam is supplied through the main steam line 10 to the turbine 15, from the steam part steam is supplied through the heat extraction selection line 16 to the consumer 12 heat, and the rest to the condenser 18, the air in the main heater 13 is heated by the heat of the selected steam from 14 inii selection turbine 15, the minimum clock electron trichesyuth loads for the purpose of an additional reduction of the electrical power in excess of the limited allowable discharge condition of the steam boiler 1 via the pressure-reducing cooling

the temperature of the hot air. At the same time, in order to protect against intense low-temperature corrosion and to avoid a fire-hazardous situation, the air heater 2 is switched off both on the gas side and on the air side. The flue gases are passed through the bypass 6, the air instead of the air heater 2 is heated in the peak heater 7 and the bypass 5 of the heater 2 is sent to the boiler 1, the steam from the peak heater 7, significantly cooled, serves the consumer 12 heat.

It conducts unloading of the combined heat and power unit with the T-180-130 turbine. During normal operation of the unit, the main heater 13 is heated

When the combined heat and power plant is unloaded, the heater 2 is disconnected and the air is heated from 100-110 to 360 ° C in a peak heater 7 at a pressure of reduced steam of 1.0-1.5 MPa, after which steam is supplied. Fresh steam is supplied from the main steam line 10 to the peak heater 7 and switching off the air preheater 2 allows, with a minimum allowable load of the boiler 1, to be further understood. increase turbine load by 10 MW,

The method of unloading the combined heat and power plant makes it possible to increase the maneuverability of the installation and, by reducing the vapor pressure in the peak heater 7, to reduce the metal consumption.

Claims (1)

Invention Formula Unloading method testoelectrocentre-. by transferring the turbine to the condensation mode, heating the air in the air heater with gases and in the heater with steam from the boiler, as well as supplying the reduced steam from the heater to the consumer, characterized in that, in order to reduce metal consumption and provide deeper unloading,