RU2047046C1 - Method for combustion of pulverized solid fuel in furnace - Google Patents

Abstract

FIELD: pulverized fuel combustion. SUBSTANCE: cool air flow is fed to furnace between air-coal mixture and hot air flows. EFFECT: improved conditions for fuel combustion. 2 dwg

Description

 The invention relates to a furnace technique and can be used in coal dust combustion systems.

Known methods of burning solid pulverized fuel, containing the operation of heat treatment (preheating) of pulverized fuel (coal dust) by the combustion products of auxiliary fuel up to 600-800 ^about With subsequent displacement of it with hot air at the outlet of the burner into the combustion chamber [1]
Known methods of burning pulverized solid fuel by feeding highly concentrated air mixtures into the burners with a ratio of conveying air and pulverized solid fuel by mass 1: (20-60) [2 and 3]
The prototype of the proposed method and the basic option for comparison is the method of burning pulverized solid fuel [4]
The prototype method, although it is effective in terms of reducing the yield of nitrogen oxides, but does not allow reaching the level of basic environmental characteristics, for example, or TP-87 class boilers.

 To achieve the basic environmental characteristics of boilers, a method for burning pulverized solid fuel by supplying highly concentrated air mixtures to the burners with a ratio of conveying air and pulverized solid fuel by mass of 1: (20-60) with its subsequent displacement with the flow of hot air supplied to the burner exhaust ducts is proposed: at the same time, part of the air is fed into the furnace without preliminary heating by an intermediate stream between the central stream of highly concentrated air mixture and the peripheral stream of mountains which air.

 Figure 1 shows the technological scheme of the proposed method for burning pulverized solid fuel.

 Concentrated air mixture is fed into the furnace of boiler 1 through the central channel 2 of the burner.

 At the same time, the air heated in the heater 3 enters the burner hot air channel 4, and the cold air in addition to the heater 3 is supplied to the burner cold air channel 5.

 Thus, three flows separately enter the furnace: a peripheral stream of hot air, a central stream of highly concentrated aerosol, and an intermediate stream of cold air.

 In other words, part of the air necessary for burning fuel is supplied to the burners without preliminary heating in the convective heating surfaces of the boiler in the form of a jet, covering the flow of the air mixture before it enters the furnace.

 The effect of suppressing nitrogen oxides is achieved by cooling the initial portion of the flame and by shifting the ignition boundary of the fuel from the burner cut. All this creates the conditions for deeper gasification of coal dust at the stage preceding ignition, which provides favorable conditions for the conversion of bound nitrogen of fuel into molecular nitrogen.

 The proposed method for the combustion of pulverized solid fuel was tested at one of the boilers of the Izhevsk TPP-2. The test results are shown in figure 2, which shows comparative graphs of the output of nitrogen oxides in the organization of the input of highly concentrated air mixture according to the prototype method (I) and with the supply of cold air by an intermediate stream between the air mixture and hot air (II).

 The test results show that the transfer of the boiler to the combustion of a highly concentrated air mixture with the introduction of a cold air stream intermediate between the air mixture and hot air flows provides a decrease in the yield of nitrogen oxides by 20-25 %.At the same time, there is no deterioration in the conditions of fuel burnout due to its deeper preliminary gasification.

Claims (1)

 METHOD FOR COMBUSING DUSTY SOLID FUEL IN A HEAT PUMP by feeding highly concentrated air mixtures to the burners with a ratio of conveying air and pulverized solid fuel by mass 1 (20 60) followed by mixing the air mixture with a stream of hot air supplied to a separate burner channel, characterized in that between the air flows and hot air into the furnace is supplied with a stream of cold air.

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