RU108820U1 - BOILER DUST MANAGEMENT SYSTEM - Google Patents

Abstract

 A boiler dust preparation system containing a raw coal hopper, a feeder, a grinding device, a gas intake window located in the upper part of the boiler furnace, a main air heater installed in the convective gas duct of the boiler, a nozzle for supplying dust to the boiler furnace burner, connected by a dust pipe to the outlet of the grinding device, air burner box connected to the boiler chamber embrasure, and an additional air heater, the air duct of which is connected by an additional air duct m to the outlet of the main air heater of the boiler, and the exit to the inlet pipe of the air box of the burner device, as well as a recirculation smoke exhauster connected by a gas duct to the recirculation gas supply pipe, while the gas path of the additional air heater at the inlet is connected to the gas intake window of the boiler furnace, characterized in that at the outlet, the gas path of the additional air heater is connected to the recirculation gas supply pipe and the inlet of the grinding device.

Description

The utility model relates to a power system and can be used at thermal power plants.

A well-known boiler dust preparation system (RF patent for utility model No. 94313, IPC F23K 1/00, published May 20, 2010 Bull. No. 14) containing a raw coal hopper, feeder, grinding device, gas intake window, located in the upper part of the boiler furnace, main an air heater installed in the convective gas duct of the boiler, a nozzle for supplying dust to the burner device of the boiler furnace, connected by a dust pipe to the outlet of the grinding device, an air box of the burner device connected to the embrasure of the furnace of the boiler, and additional air heating a boiler, the air duct of which is connected by an additional air duct to the main air heater of the boiler, and the output is connected to the inlet of the air duct of the burner device, while the gas path of the additional air heater is connected to the gas intake window of the boiler furnace, and a recirculation smoke exhauster connected by a gas duct to the recirculation gas supply pipe .

A disadvantage of the known dust system is the low efficiency of heating the air in the additional air heater by lowering the temperature of the coolant with an additive of cold recirculation gases in front of the air heater.

The objective of the utility model is to increase the efficiency of the additional air heater by increasing the temperature of the coolant.

The problem is solved in that in a boiler dust preparation system containing a raw coal hopper, a feeder, a grinding device, a gas intake window located in the upper part of the boiler furnace, a main air heater installed in the convective gas duct of the boiler, a nozzle for supplying dust to the burner device of the boiler furnace, connected a dust pipe with the outlet of the grinding device, the air box of the burner device connected to the embrasure of the boiler furnace, and an additional air heater, the air duct inlet of which it is connected with an additional air duct to the main boiler air heater, and the outlet is connected to the inlet of the air box of the burner device, as well as a recirculation smoke exhauster connected by a gas duct to the recirculation gas supply pipe, while the gas path of the additional air heater is connected to the gas intake window of the boiler furnace, according to a useful model, the outlet the gas path of the additional air heater is connected to the recirculation gas supply pipe and to the inlet of the grinding device.

The connection of the gas path of the auxiliary air heater with the recirculation gas supply pipe and the inlet of the grinding device increases the efficiency of the additional air heater by increasing the temperature of the coolant.

The drawing shows a boiler dust preparation system.

The boiler dust preparation system comprises a raw coal hopper 1, a feeder 2, a grinding device 3, a gas intake window 4 located in the upper part of the furnace 5 of the boiler 6, a main air heater 7 installed in the convection duct 8 of the boiler 6, a nozzle 9 for supplying dust to the burner device 10 of the furnace 5 boiler, connected by a dust pipe 11 to the output of the grinding device 3, the air duct 12 of the burner device 10, connected to the embrasure 13 of the furnace 5 of the boiler, and an additional air heater 14, the air duct of which is connected, supplement air duct 15 to the main air heater 7 of the boiler, and the outlet air duct 16 to the inlet pipe 17 of the air duct 12 of the burner device 10, as well as a recirculation smoke exhauster 18 connected by a gas duct 19 to the recirculation gas supply pipe 20, while the gas path inlet of the additional air heater 14 connected to the gas intake window 4 of the furnace 5 of the boiler. According to a utility model, the outlet 22 of the gas path of the additional air heater 14 is connected to the pipe 20 for supplying recirculation gases and the intake of the grinding device State 3.

The boiler dust preparation system operates as follows.

The feeder 2 is turned on, and coal from the hopper 1 enters the grinding device 3 simultaneously with the hot flue gases supplied from the gas intake window 4 of the upper part of the furnace 5 of the boiler 6 through the gas path of the additional air heater 14 to the inlet of the grinding device 3. The raw coal in the grinding device 3 is dried , is crushed and enters through the dust pipe 11 into the nozzle 9 for supplying dust to the burner device 10, into which hot air is supplied through the air duct 16 from the additional air heater 14 to the inlet pipe 17 into air duct 12. The regulation of the air temperature at the inlet to the additional air heater 14 and in the inlet pipe 17 of the air duct 12 is carried out by the addition of cold air (not indicated). The fuel in the burner 10 is mixed with air, ignited and burned out in the furnace 5 of the boiler. The temperature of the gases entering the inlet of the grinding device 3 is controlled by the addition of cold flue gases from the exhaust gas exhaust fan 18 to the supply pipe 20 connected to the outlet 22 of the gas path of the additional air heater 14, which does not reduce the temperature of the flue gases entering the input 21 of the additional air heater 14 , which ensures the solution of the utility model problem.

The proposed dust preparation system of the boiler increases the efficiency of the additional air heater by increasing the temperature of the coolant, the temperature of which is not reduced by the addition of cold recirculation gases.

Claims (1)

A boiler dust preparation system containing a raw coal hopper, a feeder, a grinding device, a gas intake window located in the upper part of the boiler furnace, a main air heater installed in the convective gas duct of the boiler, a nozzle for supplying dust to the boiler furnace burner, connected by a dust pipe to the outlet of the grinding device, air burner box connected to the boiler chamber embrasure, and an additional air heater, the air duct of which is connected by an additional air duct m to the outlet of the main air heater of the boiler, and the exit to the inlet pipe of the air box of the burner device, as well as a recirculation smoke exhauster connected by a gas duct to the recirculation gas supply pipe, while the gas path of the additional air heater at the inlet is connected to the gas intake window of the boiler furnace, characterized in that at the outlet, the gas path of the additional air heater is connected to the recirculation gas supply pipe and the inlet of the grinding device.