RU2298728C1 - Method and device for burning solid fuel - Google Patents

Abstract

FIELD: combustion apparatus and combustion processes.

SUBSTANCE: method comprises charging the solid fuel, burning fuel on the grate, supplying the primary and secondary air, control of temperature of the flue gases during charging and combustion phases: drying fuel, igniting light agents, burning light agents, and burning out of the coke residue. The temperature is controlled during the burning of liquid fuel and changing in the primary and secondary blowing. The solid fuel is charged during the phase of burning out of the coke residue at the temperature of flue gases exceeding the temperature given at the igniting phase and the phase of burning light agents.

EFFECT: enhanced efficiency.

3 cl, 2 dwg

Description

The invention relates to post-harvest processing of agricultural products, namely to furnaces for grain dryers, and can be used in agriculture, the system of harvesting, in the forest industry.

There is a cyclic method for burning solid fuel [1], in which it is loaded into the chamber, ignited and burned, then reloaded and so on, and focal residues (ash, slag) are periodically removed.

This method is not very suitable for drying grain, as it is characterized by a pronounced cyclical nature of the temperature regime.

A device for its implementation, containing a combustion chamber, a grate, means for loading fuel, moving it along the grate and unloading [1]. This tool does not allow to provide a uniform temperature of the flue gases during cyclic combustion.

A known method of burning solid fuel, including loading it, burning on a grate, supplying primary and secondary air, regulating the temperature of the flue gases during loading and during the phases of combustion: drying the fuel, igniting volatile substances, burning volatile and burning out coke residue.

A device for implementing the known method [2], comprising a housing, a grill, means for loading fuel, removing focal residues.

These method and device in their essence are closest to the claimed and taken as a prototype.

However, the known method allows you to align the temperature profile along the cross section of the combustion chamber by phase control of the combustion processes, but not in time, in addition, it does not allow to organize the operation of the furnace and, accordingly, the dryer on fuel of poor quality, for example, on wood of high humidity, since the temperature of the coolant ( heated air from the air heater) does not reach the minimum values of 60 ... 70 ° C.

An object of the invention is to provide a time-aligned temperature of the flue gases during cyclic loading of solid fuel and ensuring the operation of the device on fuel of poor quality.

The problem is solved due to the fact that in the method of burning solid fuel, mainly wood, including loading solid fuel, burning on a grate, supplying primary and secondary air, regulating the temperature of the flue gases during loading and during the phases of combustion: drying of fuel, ignition of volatile substances, combustion of volatile and burnout of coke residue, according to the invention, the temperature is controlled over time by burning liquid fuel and changing the primary and secondary blast, in addition, loading of TV The solid fuel is carried out in the burnout phase of the coke residue, at a temperature of the flue gases above that set at the ignition and combustion phases of volatiles, the excess of primary blast is reduced in the range α ₁ = 0.8 ... 1.4, and in the burnup phase of the coke residue the excess of secondary blast is increased in the range of α _yy = 1.5 ... 2.2 upon reaching a predetermined temperature, where α _yy is the total excess, and a mound of solid fuel is placed on a lattice in the zone of circulating vortices formed during the combustion of liquid fuel.

The task is also achieved by the fact that in the device for burning solid fuel, comprising a housing, grate, means for loading fuel, removing focal residues, according to the invention, means (a) for loading fuel is located below the liquid burner at a distance of H ₃ .

where L _f - the length of the flame of burning liquid fuel, m;

α _Ф - half the angle of the flare, degrees;

the distance of the top of the fuel embankment from the front wall is L _F / 2.

Comparison of the claimed method with the prototype shows that the new method is that the temperature is controlled over time by burning liquid fuel and changing the primary and secondary blast, in addition, the loading of solid fuel is carried out at the burnout phase of the coke residue, at a temperature of flue gases above a predetermined at the ignition and combustion phases of volatiles, the excess of primary blast is reduced in the range α ₁ = 0.8 ... 1.4, and at the burnout phase of the coke residue, the excess of secondary blast is increased in the range of α _y = 1.5 ... 2.2 upon reaching the set temperature, where α _yx is the total excess, and the solid fuel embankment is placed on a grate in the zone of circulating vortices formed during the combustion of liquid fuel.

Comparison of the claimed device with the prototype shows that the new device is that the means (a) for loading fuel is located below the liquid burner at a distance of N _W.

where L _f - the length of the flame of burning liquid fuel, m;

α _Ф - half the angle of the flare, degrees;

and the distance of the top of the fuel embankment from the front wall is L _F / 2.

Thus, the invention meets the criterion of "novelty."

This method can be implemented only with the proposed constructive solution, thus ensuring the "unity of invention."

The invention meets the criterion of "inventive step", since a result can be achieved that satisfies the existing need, namely, equalizing the temperature of the flue gases during cyclic loading and increasing the power of the furnace with degraded fuel.

The invention is also "industrially applicable", as it can be used in agriculture.

The invention is illustrated by drawings.

Figure 1 shows a diagram of a General view of the device; figure 2 - the dependence of the temperature of the flue gases during the combustion of firewood (1) and the permissible temperature of the flue gases at the inlet of the air heater (2, 3, 4) from time to time; I, II, III, IV, V - loading of solid fuel (I) and phases of its combustion, respectively, drying, ignition of volatiles, combustion of volatiles, burning out of coke residue.

The device includes a furnace fan 1, a liquid fuel burner 2, a housing 3, a dryer fan 4, a loading hatch 5, a grill (grate) 6, an air heater 7, pipes 8, a temperature sensor 9, a torch 10, a primary 11, a secondary 12 blast, coke residue 13, a mound of firewood 14, heated air 15, circulating vortices 16.

The method is as follows.

The temperature of the flue gases is controlled over time by burning liquid fuel and changing the secondary blast, in addition, the fuel is loaded at the stage of coke residue burning, and the solid fuel mound is placed on a grate in the zone of circulating vortices formed during the combustion of liquid fuel.

The operation of the device is as follows.

Through the hatch 5, a mound of firewood 14 is loaded onto the coke residue 13 to the depth of the chamber L _Ф , the mound is influenced by the circulation vortices 16 generated during the combustion of liquid fuel in the flare 10. The burning rate of solid fuel is changed by the supply of primary air (blast) 11, and the afterburning of coke the remainder 13 by the supply of secondary air (blast) 12. The flue gases enter the air heater 7 and the pipe 8, and the outside air supplied by the fan 4 after heating 15 is directed to the dryer (not shown in the diagram). Since the operation of the dryer is carried out at a constant temperature of the coolant, at the outlet of the air heater using a temperature sensor 9 regulate the flow of liquid fuel into the burner 2, as well as the flow rate of the primary 11 and secondary 12 blast.

As solid fuel burns out, the volume of the embankment decreases and in phase V of the initial volume remains no more than 15 ... 18%, since firewood is ~ 85% composed of volatile substances, in phase V it becomes possible to load the furnace.

A mound of solid fuel is placed on a grate in the zone of circulating vortices. Solid fuel is dried, since in practice the moisture content of freshly harvested firewood is rarely below 30 ... 35%. The circulation vortices of the flue gases generated by burning liquid fuel penetrate the embankment, and from above the embankment is dried from the radiant component of the torch. The circulation vortices are closed at the root of the torch, while in the area of the loading device there is either a small vacuum or a pressure close to atmospheric, but at least during the production verification of the method of ejection of flames and flue gases with a working liquid burner was not observed.

Figure 2 shows a thermogram of the burning of a mound of chips with an equivalent particle diameter of δ = 5 mm with a moisture content of 26% weighing 200 g, obtained in laboratory experiments when simulating combustion with a change in primary and secondary blasting and loading fresh fuel on the coke residue and direct allowable temperature of the flue gases inlet air heater made of carbon steel, with comparable values of the coefficient of heat transfer from the gases to the wall of the air preheater and α _z to the distance from the wall _{in the} α (1), α _r> α _of about 3 ... 5 times (2) and from chromistoni gel steel (α _g ≈α _in ) (3).

The dotted line in phase (V) shows the burning out of the coke residue without loading fuel. During cyclic loading (I) of fresh fuel, a rapid decrease in the temperature of the flue gases was established; the temperature stabilizes during the combustion phase of volatile (IV). After burning most of the volatile flue gas temperature decreases (V). The operation of the furnace device according to curve 1, which is typical for cyclic loading of wet fuel, is not advisable, since the operation of grain dryers at a variable coolant temperature is unacceptable.

In practice, work is organized either using two or more combustion chambers operating alternately, or with frequent loading of solid fuel, however, in the first case, the material consumption of the device increases significantly, in the second, the temperature of the flue gases decreases and the thermal performance of the furnace device deteriorates.

For case (4), it is necessary to additionally burn liquid fuel during all phases, while it is advisable to maintain excesses of primary blast α ₁ = 1.05 ... 1.15 recommended in the reference literature in a liquid burner.

Case (3) is characterized by an excess of the permissible temperature of the flue gases in the volatile combustion phase. If the primary blast is reduced from α ₁ = 1.4 to 0.8, then the stoichiometric balance is violated and, with a lack of oxygen, the volatilization rate of the volatiles decreases, while the temperature of the flue gases decreases to an acceptable temperature, and the remaining phases require the burning of liquid fuel.

For part of the ignition phase, the combustion phase of the volatile and for part of the burnout phase of the coke residue, the temperature is higher than permissible. Therefore, without changing the optimal value of α ₁ = 1.3 ... 1.4, it is advisable to increase α ₂ in the amount of α _w to 2.2, at which the flue gases will be diluted and their temperature will accordingly decrease.

The measurement intervals α ₁ = 0.8 ... 1.4 and α _yx = 1.4 ... 2.2 were established experimentally and are optimal precisely for the cyclic method of burning wood, as they allow relatively quickly (no more than 15 .. .20% of the phase interval time) adjust the flue gas temperature using temperature sensor 9.

The location of the liquid burner above the solid fuel embankment is advisable for the following reasons: when burning liquid fuel, circular circulating currents occur, directed to the mouth of the torch and, if a solid fuel embankment is placed in their path, drying is carried out and, accordingly, the consumption of liquid fuel is reduced. In the area of the loading device (hatch), a vacuum will occur and the emission of the flame of the torch and flue gases is prevented when the hatch is open, which will allow loading of fuel.

It is impractical to direct the torch into the embankment due to a decrease in the intensity of combustion and mechanical losses of liquid fuel. The upper cut of the hatch (s) for loading fuel into the device must correspond to the height of the embankment on the grate N _n and be at a distance from the liquid burner N _s = N _p -N _n . Assuming that the top of the mound of solid fuel is located at a distance from the front wall of the furnace device L _f / 2, where L _f is the length of the flame, the value of N _s can be expressed

where α _f - half the angle of the flare.

Firewood loading of the device can be carried out not only from the front wall, as shown in figure 1, but also from the side walls, if the width of the furnace is greater than the length of the firewood.

Placing the center of the embankment at a distance from the front wall of more than L _f / 2 is impractical due to the decrease in height H _n and the complexity of servicing the device.

Example. The SPS "Leninskoye" in the Perm Region checked the invention when drying wheat grains on a SOCC-4 core dryer. The SOCC-4 combustion device was equipped with a pneumomechanical liquid burner and a firewood manhole below the burner.

The operation of the furnace device provides a temperature of the coolant supplied to the dryer, 80 ... 100 ° C. But when working on liquid fuel, the quality deterioration and the conditions of low outdoor air temperature were ~ 55 ° С, and the grain temperature at the outlet of the dryer was 35 ... 37 ° С, instead of 43 ... 45 ° С, which delayed the process drying and reduced dryer performance. When burning wood according to the specified method with the recommended parameters of the embankment during cyclic loading, it was possible to increase the power of the furnace from 0.35 ... 0.4 to 0.5 ... 0.55 MW and achieve a time-uniform temperature of the flue gases and coolant: achieved grain heating temperature 43 ... 44 ° С.

The loading cycle was 50 ... 55 min, 25 and 50 kg of firewood were loaded at a time, when loading on the hearth of the furnace, the height of the burning coke residue did not exceed 0.1 ... 0.15 m, the loading cycle was 5 ... 10 min, firewood diameter - 100 ... 150 mm, length 1.1 m, humidity 30 ... 35%, embankment height ~ 0.5 m, α _f ~ 26 deg.

Information sources

1. P.S. Mamykin, K.K. Shooters. Furnaces, furnaces and dried refractories. Sverdlovsk 1050, p. 311.

2. Pat. RF number 2237834, 10.10.2004.

Claims (3)

1. A method of burning solid fuel, mainly firewood, including loading solid fuel, burning on a grate, supplying primary and secondary air, controlling the temperature of the flue gases during loading and during the phases of combustion: drying the fuel, igniting volatile substances, burning volatile and burning out coke residue, characterized in that the temperature is controlled over time by burning liquid fuel and changing the supply of primary and secondary blast when burning solid fuel, in addition, the fuel is loaded are at the burnout phase of the coke residue. 2. The method of burning solid fuel according to claim 1, characterized in that at a temperature of the flue gases above a predetermined temperature in the ignition and combustion phases of volatiles, the excess of primary blast is reduced in the range α ₁ = 0.8 ... 1.4, and in the burnout phase the coke residue increases the excess of secondary blast in the range of α _yy = 1.5 ... 2.2 upon reaching the set temperature (where α _yy is the total excess), in addition, a mound of solid fuel is placed on a grate in the zone of circulating vortices formed during combustion liquid fuel. 3. A device for burning solid fuel, comprising a housing, grate, means for loading fuel, removing focal residues, characterized in that the means (a) for loading fuel are located below the liquid burner at a distance

where L _f - the length of the torch of burning liquid fuel, m; α _f - half the angle of the flare, deg, and the distance of the top of the fuel embankment from the front wall is L _f / 2.

Images