SU1268870A1 - Boiler installation of thermoelectric plant - Google Patents

Description

This invention relates to power engineering and can be used in a combined heat and power plant.

The aim of the invention is to reduce nitrogen oxides in the exhaust gases of the energy boiler and to increase the efficiency of fuel combustion in the peak boiler by cooling the combustion products in the furnace of the energy boiler with the exhaust gases of the peak boiler and heating the air supplied to the combustion in the furnace in the energy boiler.

The drawing shows schematically the boiler plant of the combined heat and power plant.

The boiler plant of the combined heat and power plant contains an energy boiler 1 with a furnace 2 and a peak boiler 3 with a furnace 4. The energy boiler 1 is equipped with an air heater 5 connected by a bypass duct 6 with a furnace 2. Peak boiler 3 is equipped with a flue gas duct 7 connected to the chimney 8. The furnace 4 The peak boiler 3 is connected to the bypass duct b by means of duct 9, and the furnace 2 of the power boiler 1 is connected to the flue gas duct 7 by means of the gas duct 10.

The power boiler 1 is equipped with an exhaust duct 11 connected to the chimney 8. The ducts 7 and 11 are equipped with smoke exhausters 12 and 13, respectively. The furnaces 2 and 4 have fuel supply 14 and 15, respectively. The duct 10 is equipped with a gate 16, bypassing the line 17 with a smoke exhauster 18. On the duct 7 a gate 19 is mounted. The upper part of the furnace 2 is connected to the furnace 4 by a duct 20.

The installation works as follows.

For combustion, the furnaces 2 and 4 through the ducts 6 and 9 respectively supply air heated in the air heater 5 of the energy boiler 1. The gases cooled in the boilers 1 and 3 are discharged through the ducts 11 and 7 respectively into the chimney 8.

In this case, part of the gases cooled in the peak boiler 3 from the duct 7 through the duct 10 is fed to the furnace 2, cooling the combustion products therein and thereby reducing nitrogen oxides in the energy boiler 1. The heat of the gases supplied from the peak boiler 3 to the energy boiler 1 allows It is not necessary to heat a larger amount of air in the air heater 5 than is required for burning fuel in furnace 2 of power boiler 1. Excess hot air is used to burn fuel in furnace 4 of peak boiler 3, which makes it more efficient to burn fuel. In this case, there is no need to recirculate own flue gases in the energy boiler 1 to suppress nitrogen oxides and to install an air preheater in the peak boiler 3. To reduce the nitrogen oxides in the peak boiler 3, it is fed into its furnace 4 from the top part of the furnace 2 of energy boiler 1. part of the gases through the flue 20. The gases are fed through the flue 20 also in the absence of fuel supply to the furnace 4 through the fuel supply 15.

Claims (1)

Invention Formula The boiler plant of the combined heat and power plant contains energy and peak boilers with fireboxes, the first of which is equipped with an air heater connected by a bypass air duct to the furnace of the energy boiler, and the second with an exhaust duct connected to a chimney, so as to reduce nitrogen oxides in gases of the energy boiler and increase of the fuel combustion efficiency in the peak boiler, the furnaces of the peak and energy boilers are additionally connected to the bypass duct and the gas duct, respectively.