SU1322002A1 - Method of burning pulverized coal fuel - Google Patents

Abstract

The invention relates to the power industry and makes it possible to increase the economy. Dust pipe 9 and 10 serves the flow of the primary and secondary air mixture. From the front end of the pre-furnace (P) 1, an intensive vortex combustion of the primary mixture is carried out. In this zone, due to the adiabaticity of P 1 and vortex combustion with an air excess factor of 0.1-0.4, a rapid burnout of volatile and smallest particles of coal occurs in small volumes. The products of combustion from the first zone heat coal dust, which enters the second zone with an air excess factor of 0.05-0.2, and expel them from the volatile ones. Partial combustion and gasification processes occur in this zone. As a result, at the exit from P 1 there is a highly reactive dust-gas flow both in temperature and in gas composition. The nitrogenous compounds of volatile coal in P 1 are converted to stable molecular nitrogen. 1 il. sl 7retichish ojdi / x with N3 N3 nepBwHQff a mixture of dmopuwufi air (

Description

The invention relates to energy and can be used in furnaces.

The purpose of the invention is to increase efficiency.

The drawing shows a device for implementing the proposed method.

The device contains a pre-furnace 1 with nozzles 2 and 3 for supplying flows of the primary and secondary air mixture, an outlet nozzle 4 and a lining 5. On the periphery of the pre-furnace 1 is an annular nozzle 6 for supplying tertiary air. A mill 7 and a bunker 8, connected to the dust pipes 9 and 10, are used to supply the air mixture.

The method is implemented as follows.

Dust pipe 9 and 10 serves the flow of the primary and secondary air mixture. From the front end, the pre-furnace 1 conducts an intense vortex combustion of the flow of the primary air mixture G, (0, l-0.4) G, where G, is the primary amount of fuel, G is the total amount of fuel. In this zone, due to adiabaticity of the pre-furnace 1 and vortex combustion with small values of excess air, l-0.4, the fast burning of volatile and smallest coal particles in small volumes proceeds with the formation of CO, CO2, etc.

The second combustion zone is located downstream of the gases after the oxygen is consumed in the first zone. The products of combustion from the first zone heat the coal dust entering the second zone c, 05-0.2, and expel volatile from them. In this zone, partial combustion and gasification processes take place at the exit from the front furnace 1 of a high-temperature aerial mixture with components CO, H2, CLC, CH, Nj in the gas phase.

Editor A. Kozoriz Order 2744/31

VNIIPI USSR State Committee for Inventions and Discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4

The formation of jVO in these processes takes place in adverse conditions. In the first zone, the output level N0 is small due to a small excess of air. Oxides of nitrogen entering the second zone react with nitrogenous volatile radicals with NO and coke.

ten

NO + RN- N2 + ..

(NO + NO-N2 +.

(NO + ...

20

where RN - nitrogen radicals; 15C is carbon.

In addition, in the second zone, the zone of a strong reducing medium, reactions between the radicals RN-RN - y - + ... occur. As a result, at the exit of the pre-furnace 1, there is a highly reactive dust-gas flow both in temperature and in gas composition. The nitrogenous compounds of volatile coal in the furnace 1 are converted into stable molecular nitrogen.

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Claims (1)

Invention Formula Method of burning pulverized coal by feeding a stream of primary aerosol with an excess air ratio, burning it, mixing combustion products with the flow of secondary aerosols and afterburning of the mixture obtained with the addition of air, characterized in that, in order to increase efficiency, the flow of the primary aerosol mixture is twisted, and the coefficients for elimination of air flow are , 1-0.4 in the primary mixture and, 05-0.2 in the secondary mixture. Compiled by E. Languages Tehred I. Veres Corrector A. Ilyin Circulation 494Subscribe