SU1695052A1 - Method of preparation of pulverized coal fuel for burning - Google Patents

Abstract

The invention relates to energy can be used in boiler units in which solid fuel is burned, and improves the efficiency of the boiler unit. the exhaust air from the first dust collector passes as a working agent successively through all the connected dust systems, and before each of them the exhaust air under Shine 1 Il. SL with me

Description

The invention relates to energy and can be used on boiler units in which solid fuels are burned.

There are known methods for preparing a pulverized coal fuel for combustion by supplying air from an air heater and solid fuel to the dust system, obtaining an air mixture and exhaust air supplying the air mixture to the burners, and exhaust air to the waste burners.

The closest in technical essence and the achieved result to the proposed method is the preparation of pulverized coal fuel for combustion in a boiler with several dust systems, by supplying fuel and working agent to each dust system, grinding the fuel and producing pulverized coal mixture and exhaust air.

The disadvantages of this method are low efficiency, due to the high proportion of exhaust air in the air balance of the boiler, and the instability of the supply of exhaust air into the furnace, determined by the number of operating dust systems.

The aim of the invention is to increase the efficiency of the boiler

This goal is achieved by the fact that according to the method of preparing pulverized coal for combustion in a boiler with several dust systems, feeding fuel and a working agent into each dust system, grinding the fuel and producing a pulverized coal mixture.

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ha, the exhaust air from the first dust system is passed as a working agent successively through all the included dust systems, and before each of them the exhaust air is heated,

The drawing shows the scheme of the boiler plant for the implementation of the proposed method.

The boiler plant contains dust systems 1-3, having mill fans 4, mills 5, separators b, cyclones 7, inlet gates 8, output gates 9, gates 10. All dust systems 1-3 are connected to a common collector 11, to which in between the dust systems are connected to nozzles 12 for the supply of coolant. At the outlet, the collector 11 is connected by pipelines 13 to waste burners 14 of the furnaces 15.

An example implementation.

The boiler unit TPP-210 has three dust systems 1-3 with ball drum mills 5 W-50A with a capacity of 50 tons of dust per hour. As a drying and ventilating agent in the first dust system 1, air with a temperature of 600 K drawn from the air heater of the boiler is used, the flow rate which is 11.4 kg / s. The exhaust air temperature at the outlet of the first gas system 1 is 400 K. For the first dust system 1, hot gas in the amount of 2.25 kr / s is added to the exhaust air stream, bringing the temperature of the working agent to 600 K. Further, this air with concentration

dust 8-9% is directed to the entrance of the next dust system 2, after leaving which it is reheated and sent to the third dust system 3. Dust concentration

in the exhaust air that is injected into the waste burners of the boiler furnaces, the efficiency of the cyclone of the latter along the air of the dust system is determined. The boiler plant can operate with three, two or one unit. The mode of operation is set by gates 8, 9 and 10.

Sequential inclusion of several dust systems over the working air agent will increase the efficiency

boiler unit due to improved boiler air conditions by reducing the proportion of mill air in the air balance of the furnace by 2-3 times, as well as reducing electricity consumption on its own

needs.

Claims (1)

The invention of the method of preparing pulverized coal fuel for combustion in a boiler with several dust systems by supplying fuel and a working agent to each dust system, grinding the fuel and obtaining pulverized air mixture and exhaust air flows, In order to increase efficiency, the exhaust air from the first dust system is passed as a working agent sequentially through all the included dust systems, and before each of them the exhaust air is heated. / ABOUT 7J TO / 2 10 E4. -r-W 77 / I / 7, 4Zln i F Ng 9 pg lNg t-Ig 7 j 15 77 / I / 7, 4Zln r t and