LV11567B - Method and apparatus for production of heat energy - Google Patents

Abstract

The present invention is related to heating energy production - not from solid fuel, but from wood waste and peat litter.The heating energy production from wood waste or peat litter includes: a) the fuel mentioned above is delivered directly to the combustion chamber using gravitation; b) natural air draught is used for gasification; c) the gas phase is combusted in an elbow-shaped tube and performed using device 1. The device consists of a first stage combustion chamber 3 (the fuel is loaded through the top 2 of the chamber), grate 5, air supply flaps 8, piping 7 and elbow-shaped tube 11, one end 11 of which is a) mounted inside the first stage combustion chamber 3 and its longitudinal axis makes up an angle of less than 90 degrees. Also the proportion of cross section of elbow-shaped tube and the area of the grate is 1:9.The method and the device allow effective and economic use of ecological and clean fuel for domestic and industrial use.

Description

METHOD AND DEVICE FOR HEAT ENERGY

The invention relates to a process for the production of thermal energy from solid fuels, namely heat from wood waste or loose peat.

Due to the high cost of heat energy, cheap local fuel is now a top priority. A good reserve is wood waste (sawdust, sawdust, shavings from felling trees, branches, storm-breaking trees) or loose peat, this fuel is ecologically clean but with low in calories and high in moisture.

in this context, techniques aimed at increasing the energy value of such fuels at minimal cost are constantly evolving.

There are known techniques (as well as devices) for producing thermal energy, in which wood waste or loose peat is incinerated in a one-stage furnace. The fuel is first well dried and milled.These techniques are labor intensive and do not facilitate the full utilization of the fuel's energy potential.

Techniques and devices according to PL no. 284368A, PL no. 283710A, PL no. 85604U, which injects fuel into a single stage furnace via a metering unit, but uses a secondary fan system for air supply and a grate for moving grates to increase combustion intensity.

The disadvantage of these technical solutions is their inefficiency, since the fuel feed through the metering units is hampered by blockages and accumulation on the walls, which must be prevented by hand or vibrators. Gasification of the fuel and combustion of the gaseous phase in the single stage furnace has a negative effect on combustion efficiency as the fuel is incompletely burned and a third auxiliary air supply system is required to intensify the combustion. At the same time, small particles of unburned fuel and ash are blown through the outlet of the furnace.

Also known is a method and device for generating thermal energy from wood waste according to PL 150866, wherein: a) the fuel is introduced into the first stage furnace from above, b) the gas is gasified, c) the gaseous phase is incinerated in the second stage furnace. According to this technical solution, the fuel is burned in two stages, which allows the use of fuel with high humidity, better use of its energy value.

The disadvantage of this solution is its limited application in practice due to the low efficiency of the fuel and the high cost of the thermal energy produced. This is due to the fact that a sophisticated fuel supply system and a secondary fan system for air supply are used to maintain the fuel in the raised state during the final phase of combustion. In addition, the gaseous phase of the fuel enters the second stage furnace via a piping system, which lowers the combustion temperature and necessitates the use of a third fan system for supplying additional air.

The object of the invention is to find a simple, inexpensive and efficient method of obtaining heat energy from wood waste or loose peat, which has no such disadvantages, and a simple device for realizing this method, which can be produced without major expenses in new and existing boiler houses.

This task is solved by a process for recovering thermal energy from wood waste or loose peat by: a) feeding the fuel to the first stage furnace from above, b) gasifying the gas, c) incinerating the gaseous phase in the first stage furnace, and The furnace is fed by gravity, natural gas is used to gasify it, but the gaseous phase is burned in a nozzle of a curved tube. help due to differential pressures on the front and inside of the furnace. This allows the gasification temperature to be lowered and more fuel potential energy released for the final purpose of heating or technological processes. It is also favored by the combustion of the gaseous phase in the nozzle of the bent tube, where the combustion becomes more intense and reaches its maximum temperature in the final stage. The proposed technique is simple and allows you to get the maximum effect.

The invention further relates to a device in which this method is implemented and is set forth in the first paragraph of the invention formula.

A device for generating thermal energy from wood waste or loose peat comprising a fuel loading hopper, a first stage furnace grate, an air supply system, a second stage furnace, and wherein the loading hopper is provided as a continuation of the first stage furnace according to claim 2. for the upper part, the air supply system consists of a shut-off duct with a slider and the second stage furnace is formed by a nozzle with a curved tube, one end of which is fixed to the first stage furnace so that its longitudinal axis forms an angle less than 90 ° discharged outside. The ratio of nozzle cross-sectional area to grid area is 1: 9; such an embodiment of the present invention solves the object of the present invention, since the combustion of the gaseous phase in the nozzle of the curved tube enables the auxiliary air supply to be dispensed with. The introduction of fuel directly into the first stage furnace makes it possible to dispense with pre-sorting of the fuel.

The invention is further illustrated by the drawings, in which:

1-fig- longitudinal section _{of a} device used as a furnace assembly _;

2. - the same appliance as a water heating or steam boiler,

FIG. - the same unit in a unit with water heating or steam boilers in existing boilers.

The appliance consists of a separate unit 1, which is used as a furnace assembly (l.fig) or as a water heating boiler (fig. 2) or in combination with existing water or steam boilers (fig. 3).

Further, the proposed device for carrying out the patented process comprises a loading hopper 2 formed as a continuation of the upper part of the first stage furnace 3. The furnace 3 is formed by a fireclay brick deck 4. The grate 5 is rigidly mounted at the bottom of the furnace and consists of a grate 6 which forms a truncated cone shape. Underneath the grille 5 is a built-in duct 7 with sliders 8. An ashtray 9 is installed at the bottom of the furnace 3, but has a door 10 on its side wall.

On the opposite side of the furnace 3 is a curved tube nozzle 11 having one end 11a located inside the furnace 3 and the end 11b being discharged outside and having all the necessary and well-known means for later connection (not shown). If the appliance is used as a boiler for water heating (fig. 2), the upper part (up to the level of the grate grid) is covered by water casings 12 and 13 which form a channel 14 with each other.

When used in an assembly with water heating or steam boilers 16 in current boilers, it is mounted on supports 15 in pit 17 (fig. 3).

The following is a description of the method implementation. Fuel with known loading methods is introduced into tank 2. After opening door 10, the fuel is ignited by a torch. When the shutters 8 are fully open and the pressures on the front and inside of the furnace 3 are different, the air moves vigorously through the conduit 7 through the fuel layer to the grate 5. Moving further toward the nozzle 11, the air promotes intense combustion of the bottom. At the end of the nozzle 11a, which is oriented at an optimum angle with respect to the direction of air movement, there is intense combustion of the gaseous phase of the fuel. In addition, the gaseous phase, traveling up the nozzle, stops in its path against the screen formed in the bend of the tube and is intensely burned in the nozzle portion 11b. The 1: 9 ratio of the cross-sectional area of the nozzle of the curved tube to the grid area of the grid was chosen experimentally. this execution of the second stage of the furnace for you (in the form of a nozzle 11) and its position relative to the furnace 3 make it possible to intensify the combustion of the fuel without forced air supply by a complex fan system using only natural air supply.

The amount of fuel injected into the combustion process decreases and moves downwards continuously, with the upper layer pressed on to the middle layer, which gradually heats up and dries. This allows the use of fuels with a relative humidity of up to 60%. The hollow grate 5 design in the form of a hollow cone allows the combustible fuel to slide down without additional vibration, and the resulting ash (about 1%) is freely crushed through the grates 6 in the ash tank 9.

The patented technical solution is made in batches and has technical documentation.

Claims (4)

INVENTION FORMULA A process for recovering thermal energy from wood waste or bulk peat comprising: a) feeding said fuel to a first stage furnace from above, b) gasifying the fuel, c) incinerating the gaseous phase in a second stage furnace, characterized in that: a. a) said fuel is injected into the first stage furnace by gravity, b) gasification is effected by natural additional air supply, c) the gaseous phase is burned in a nozzle of a bent pipe. 2. A device for generating thermal energy from wood waste or loose peat consisting of a loading hopper, a first stage furnace grate, an auxiliary air supply system and a second stage furnace, characterized in that the loading hopper is formed as a continuation of the first stage furnace; the air supply system consists of a shut-off duct with a slider and a second-stage furnace is formed by a nozzle with a curved tube, one end of which is attached to the first-stage furnace and the other end is vented to the outside. 3. A device according to claim 2, characterized in that the longitudinal axis of the curved tube located inside the first stage furnace forms an angle of less than 90 ° with the longitudinal axis of this furnace. Device according to claim 2, characterized in that the ratio of the cross-sectional area of the curved tube nozzle to the grid area of the grid is 1: 9.