RU2007149396A - METHOD FOR REDUCING EMISSIONS OF NITROGEN OXIDES BASED ON PLASMA STABILIZATION OF DUST AND COAL FLOW COMBUSTION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of reducing emissions of nitrogen oxides during the flaring of coal dust in a boiler, including the supply of pulverized coal mixtures into the main burners with an excess air coefficient αg <1, ignition and combustion of coal in the furnace, and the remaining air supply with α> 1 necessary for complete combustion coal into the furnace above the main burners, characterized in that in part of the burners (mainly not more than 10% of the total number of main burners), the coal aerosol is ignited by plasma. ! 2. The method according to claim 1, characterized in that the plasma torches equip the burners of the lower tier. ! 3. The method according to claim 1, characterized in that the ignition of coal by plasma is carried out in additionally installed burners and located in the plane of the lower tier of the main burners. ! 4. The method according to claim 1, characterized in that the ignition of coal by plasma is carried out in additionally installed burners and located below the plane of placement of the main burners of the lower tier. ! 5. A plasma dust-coal burner containing a thermochemical fuel preparation chamber, the inner surface of which has a cylindrical shape, a coal dust mixture supply dust pipe to this chamber, a plasma torch mounted on the side surface of the thermochemical fuel preparation chamber at its inlet, a pipe for the thermochemical fuel preparation chamber, in which this plasmatron is installed, and the secondary air channel, characterized in that a part of the inner wall of the chamber of thermochemical preparation, bordering the pipe, lnyayut as a flat surface, and the output end of the plasma torch is arranged in the same plane as the flat surface of the inner wall to

Claims (5)

1. A method of reducing emissions of nitrogen oxides during the flaring of coal dust in a boiler, including the supply of pulverized coal mixtures into the main burners with an excess air coefficient α _g <1, ignition and combustion of coal in the furnace, and the remaining air supply with α> 1 necessary for complete burning coal into the furnace above the main burners, characterized in that in part of the burners (mainly not more than 10% of the total number of main burners), the coal aerosol is ignited by plasma. 2. The method according to claim 1, characterized in that the plasma torches equip the burners of the lower tier. 3. The method according to claim 1, characterized in that the ignition of coal by plasma is carried out in additionally installed burners and located in the plane of the lower tier of the main burners. 4. The method according to claim 1, characterized in that the ignition of coal by plasma is carried out in additionally installed burners and located below the plane of placement of the main burners of the lower tier. 5. A plasma dust-coal burner containing a thermochemical fuel preparation chamber, the inner surface of which has a cylindrical shape, a coal dust mixture supply dust pipe to this chamber, a plasma torch mounted on the side surface of the thermochemical fuel preparation chamber at its inlet, a pipe for the thermochemical fuel preparation chamber, in which this plasmatron is installed, and the secondary air channel, characterized in that a part of the inner wall of the chamber of thermochemical preparation, bordering the pipe, lnyayut as a flat surface, and the output end of the plasma torch is arranged in the same plane as the flat surface of the inner chamber wall.