SU709913A2 - Heat power plant - Google Patents

Description

(5;) THERMAL POWER PLANT

This invention relates to the field of power engineering.

According to the main auth. No. 523243 is known for thermal power installation, in which heating the air entering the boiler is produced in a heater, the supply pipe which through the heating medium is connected to the condensate-heating pipe between the regenerative heaters, and the output one - with the condensate pipeline before the first along the condensate regenerative heater of the low pressure (PND-1), where the condensate cooled in the heater is mixed with the main condensate leaving the turbine condenser. The disadvantage of such a heat power unit is an increase in the irreversibility of heat exchange in the first PND-1 regenerative preheater along the water course during cold time, when a decrease in the air temperature at the inlet to the heater leads to a decrease in the temperature of the water leaving the heater. This water, mixed with the main condensate, lowers the temperature of the water entering the PND-1, increases its temperature head, which causes an increase in irreversibility in the heat exchange process. At the same time, to heat the cooler water discharged from the heater, the heat of the steam that is additionally taken from the PND-1 turbine is consumed,

The aim of the invention is to increase the thermal efficiency of a heat power plant. This is achieved by the fact that in the proposed installation, the discharge line between the heater and the condensate line is additionally connected to the turbine condenser.

The drawing is a diagram of a part of the described thermal power plant, related to the system of regeneration and heating of air in the air heater.

The heater 1 of the installation is connected by a supply line 2 to a condensate line 3 between regenerative heaters 4 and 5, and a discharge line b with a condensate line 3 between the first along the HDPE 7 condenser and the turbine condenser 8. The discharge pipe 6 is additionally connected by a pipe 9 with the condenser 8 of the turbine. As a condensate receiver entering the condenser, a spraying device 10 placed in the vapor space of the condenser, a steam discharger for steam discharges, choke cooling and other devices can be used.

Hot condensate from condensate line 3 flows through supply line 2 to heater 1, where it transfers its heat to air. The condensate cooled in the heaters is fed through the discharge pipe 6 to the condensate line 3 between the HDPE 7 and the condenser 8. In the cold season, when the condensate temperature after the heater becomes lower than the condensate temperature at the entrance to the HDPE 7, the condensate from the heater is discharged to an additional pipeline 9. Condensate, entering through the spraying device 10 into the vapor space of the condenser 8, is heated by the incoming turbulence of the turbine to the temperature of the condensate in the condenser.

The presence of an additional pipeline 9 connecting the output of the heater 1 via condensate with the spraying device 5 10 located in the vapor space of the condenser 8 makes it possible to increase the thermal efficiency of the heat power plant. This is achieved by heating the heating agent in the cold season, partly by the warm exhaust steam of the thermal power plant instead of the heat of steam extracted from the HDPE, i.e. heat zero energy value.

Claims (1)

Invention Formula Thermal power plant according to the author, No. 523243, characterized in that, in order to increase thermal efficiency, the discharge pipe between the heater and the condensate line is additionally connected to the turbine condenser.