UA20205U - Method for burning solid fuel in furnace with boiling bed - Google Patents

Abstract

Method for burning solid fuel in furnace with boiling bedr includes supply of primary air flow to under-furnace section of the furnace, and secondary one û in pulsing flow over fuel layer. Supply of primary and secondary air flows is performed from one air source, in pulses, with possibility of displacement of pulses of air flows in phase and pulses amplitude control. Supply of secondary pulse flow is performed simultaneously with air suction from under-grid section of furnace, at that portion of air that comes through suction is smaller that portion of air flow being supplied.

Description

Description of the invention

The useful model refers to the field of energy and can be used to intensify the combustion process 2 in furnaces with a fluidized bed.

There is a known method of layered burning of solid fuel by supplying the primary air flow through the fuel layer, and the secondary air flow above the layer, across the flow of combustion products from the layer |1). The disadvantage of this method is that the relative velocities of the particles carried by the gas flow over the layer are small and the forced washing of these particles by the gas flow is practically absent, which leads to a decrease in the intensity of fuel combustion. 70 The closest in terms of technical compatibility and the result that can be achieved (prototype) is the layer burning method of solid fuel, which includes the supply of the primary air flow through the fuel layer, and the secondary air flow through a pulsed flow over the fuel layer transversely to the output flow of combustion products from the layer (21.

This method increases the efficiency of burning solid fuel and reduces the removal of particles from the combustion zone.

The disadvantage of this method is that the supply of primary and secondary flow is carried out simultaneously from two 12 different sources, which makes it difficult to regulate the flow in phase and amplitude, as well as the absence of pulsations of the primary air flow.

The basis of the useful model is the task of increasing the intensification of the combustion process in furnaces with a fluidized bed due to an increase in the forced flow of oxygen to the burning surface of the entrained particles.

The problem is solved due to the fact that in the method of burning solid fuel in a fluidized bed furnace, which includes the supply of primary air flow into the under-grate part of the furnace, and the secondary air flow by a pulsating flow over the fuel layer, according to a useful model, the supply of primary and secondary air flows are carried out from one air source in pulses with the possibility of shifting the pulses of the air flows in phase and adjusting the amplitude of the pulsations, and the supply of the secondary pulse flow is carried out simultaneously with the suction of air from the under-grate part of the furnace, while the proportion of air that is sucked out is smaller than the proportion of the air flow that is supplied . what

The use of this method will significantly increase the efficiency of the solid fuel combustion process in furnaces with a fluidized bed.

The essence of the useful model is explained by the drawing, which shows the layout of the equipment for the implementation of the method of burning solid fuel in a furnace with a fluidized bed. at

The equipment for carrying out the method includes a furnace 1 with an air distribution grid 2, which divides the furnace into a sub-grid part C and a super-grid part 4, a fan 5 with an inlet channel 6, a device for creating pulsating air flows 7, connected through a shutter 8 with a damper 9, air line 10 of the primary air flow, air line 11 of the secondary air flow, air line 12 Ha") with a throttle 13, installed in the line between the sub-lattice part C of the furnace 1 and the damper 8.

З The method of burning solid fuel in a furnace with a fluidized bed is carried out as follows: p

When solid fuel is burned in the furnace 1 with a fluidized bed, the primary air flow is supplied to the sub-lattice part C through the air main 11, and the secondary air flow is supplied to the super-lattice part 4 above the fuel layer through the air main 12. In this case, the air flow is supplied from one " source air, fan 5, through a device for creating pulsating air flows 7, which divides 50 air flow into primary and secondary with a phase shift of pulsations. Moreover, the supply of the primary flow to the sublattice part of Z is carried out when the main line 12 is blocked by the shutter 8, and the supply of the secondary pulse

I" of the flow into the superlattice part 4 is carried out simultaneously with the suction of air by the fan 5 from the sublattice part Z through the air line 12 through the throttle 13. At the same time, the pulsation amplitude is regulated by the damper 9, which covers the inlet channel 6 of the fan 5. Moreover, the throttle 13 regulates the proportion of air, which is sucked from the under-lattice part Z in such a way that it is smaller than the proportion of the air flow that is supplied to it. av | Impulse supply of primary and secondary air flows shifted in phase, and air suction from the sub-lattice part of the furnace with simultaneous supply of secondary air flow over the fuel layer ensures better mixing of combustible gases and particles of removal with air, thanks to the forced inflow of air! 20 oxygen to the burning surface of the particles, which leads to an increase in the intensification of the combustion process.

Sources of information sl 1. Thermal engineering reference book. M.: "Znergy". -1976, vol. 2, p. 404. 2. A.S. USSR Mo1112175, cl. E2385/02, Bull. Mo33, 1984. p

Claims (1)

The formula of the invention The method of burning solid fuel in a furnace with a fluidized bed, which includes the supply of a primary air flow into the under-grate part of the furnace, and a secondary air flow by a pulsating flow over the fuel layer, which differs 60 by the fact that the supply of primary and secondary air flows is carried out from one air source in pulses with the possibility of shifting the pulses of air flows in phase and adjusting the amplitude of pulsations, and the supply of the secondary pulse flow is carried out simultaneously with air suction from the under-grate part of the furnace, while the proportion of air that is sucked out, a smaller share of the supplied air flow. b5