SE1300228A1 - Energy efficient brick oven stove type - Google Patents

Abstract

The present invention relates to a tiled stove of the tiled stove provided with a device for free access of indoor air to the fireplace, air diffuser and afterburner. The invention is further directed to a combination with a water-borne system consisting of pipes built into the exhaust air ducts for heating water.

Description

Patent application 0700516-8 describes a tiled stove which is equipped with an air diffuser and an afterburner core which increases the efficiency from typically about 60% to about 75%.

Summary of the invention It is therefore an object of the present invention to describe the design of masonry stoves of the tiled stove type with increased efficiency. Another object is to describe tiled stoves of the tiled stove type with improved efficiency through complete combustion of fuel and flue gases. Another object is to describe masonry stoves of the tile stove type in which the combustion takes place in two stages. Another object is to describe tiled stoves of the tiled stove type in which the first stage of combustion takes place by allowing indoor or room air to have free access to the fuel in the fireplace and charring this in a carbon-like process. The most important goal of the invention is to describe the supply of combustion fuel in a controlled manner. Another object of the present invention is to describe tiled stoves of the tiled stove type in which the second stage of combustion takes place by mixing deteriorating outdoor air with flue gases in an annular constriction above the fireplace. Another object of the present invention is to describe tiled stove-type stoves in which a perforated metal ring is placed above the fireplace and through which perforations heated outdoor air is ejected and mixed with incompletely combusted flue gases. Another object of the present invention is to describe masonry stoves of the tiled stove type which give less emissions of environmentally and health hazardous gases, e.g. carbon monoxide to the environment. Another object of the present invention is to describe tiled stoves of the tiled stove type with little or no soot in the fireplace, doors, ducts and chimney. Another object is to describe materials which can be used for building tiled stoves according to the present invention. In one embodiment, the tiled stove is used in combination with water pipes walled into the tiled stove's exhaust air ducts for heating water. In another embodiment of the invention which relates to the conversion of already installed, existing tiled stoves, it is described how supply air to the combustion chamber can be led there through an inlet located under the heating grille.

Tile-type masonry stoves designed in accordance with the present invention are characterized in that they provide such conditions regarding air supply, contact between fuel and air and the ratio between amounts of flue gases and that complete and soot-free combustion is achieved during a combustion time much longer than for existing fireplaces. 4 -7 hours depending on how moist the wood is.

Tiled stoves of the tiled stove type designed according to the present invention are characterized in that they burn at such high temperatures, 700 - 800 ° C, that internal soot hatches of cast iron cannot be used.

Soot fires cannot occur in tiled stoves of the present invention due to the fact that soot is not formed and the safety of the dwellings is thereby increased.

Due to the high combustion temperature, masonry stoves and heat sinks according to the present invention must be placed at a safe distance, de nied by the building standard, from load-bearing wooden crown structures. To remove the risk of fire in the surroundings, the stove should be placed on a heat-insulating material and surrounding walls and ceilings should be protected by a refractory, heat-insulating material such as. FOAMGLAS T4 +, from FOAMGLAS AB.

Detailed description of the invention This invention is based on the principle of the traditional tiled stove with the addition of a device for free access of the interior to the fireplace and of an afterburner system.

Tile stoves, masonry stoves or wood parchment with masonry accumulator tank built according to this invention can be fired with wood, pellets, garbage and more.

Figure 1, which shows the stove in its entirety in a side cross-section and below it an enlargement of the stove part (A), also in a side cross-section, in which the interior fi has free access to the fireplace of the stove describes that a tiled stove with free access of indoor fl to the fireplace and with afterburner system consists of a device for free access of air (1), fireplace (2), lu fi metal diffuser (3), tilu till ducts (4), afterburner above the air diffuser (5), exhaust duct (6), chimney (7), damper for closing the tiled stove (8) and the tiled stove door (9). The drawing shows the construction of the fireplace (2), which has dimensions that depend on the size of the fireplace but which for masonry stoves in homes have the approximate dimensions (width x depth x height) 400x400x600 mm, and the location of the air diffuser (3). The air diffuser is cast into a plate of the same cross section as the fireplace and with a thickness of 150 mm.

This creates a constriction, narrowing, which should be directly above the fireplace and at a distance of about 50 to 70 cm from the grille on the bottom of the fireplace, by the passage between the fireplace and the brzer firebox with a diameter equal to the diameter of the inner diameter of the diffuser ring, typically about 100-300 mm. The thickness of the lure is between 70 - 150 mm. The conditions between the gap opening for access of combustion air, the transverse side of the air diffuser, the fireplace and the afterburning chamber are such that conditions for flue gas velocity, preheating of the flue fi and thorough mixing of flue gas nd with optimal gases are optimal for complete, unburned but combustible material in the flue gases in the ether combustion chamber.

The ducts for supplying heated outdoor air (4 in the drawing) to the air diffuser (3 in the drawing) are made of double-sheathed flue gas pipes made of steel with an inner diameter of 63 mm, e.g. flue gas pipes from Westsflex in Mölndal, start in the space under the heating grille and are built into the rear wall of the fireplace and have a length of about 2 meters, which means that the valve is heated up to at least 250 OC. In tiled stoves designed according to known technology, there are no ducts for heating the supply fi.

Combustion in a tiled stove according to this invention with a fireplace of the size 400x400x60O mm, ie a size that would be suitable for heating an ordinary villa, and with an opening for the entry of a combustion hat fi of 30 mm that leads into a space under the fire grille that is 70 mm high, see enlarged view of fire grate and space under fire grate in figure 1, can proceed as follows: A. 15 kg of frozen apple wood in the form of a large lump and 3 kg of waste wood were placed in the fireplace. The wood was lit with briquettes. 3 hours into the combustion / gasification process, the entire fireplace is filled with a glowing mass of fuel and the combustion / gasification takes place without soot or visible smoke formation.

During this time, the hearth was not touched or shaved.

B. Six hours after the fire was lit, pure white ash remained. During this time, the hearth was not touched or shaved. No hint of soot could be seen anywhere in the fireplace itself, on the glass door or in the entrances to the drain pipes (6).

From the column (1) and the space under the fireplace (1), the combustion hatch is led through the heating grate to the wood in the fireplace (2). During combustion, burnt and incompletely burned flue gases are led through a metal air diffuser (3). In the lu fi spreader (3) the gases are mixed with a few ends. The fennel infin was now obtained at 250 ° c in the direction of the snow (4) adjacent to the fireplace (2), in which the temperature should be between 650 and 850 ° C measured with sensors placed in the front wall of the fireplace at 10 cm above the upper edge of the diffuser ( 10). In the hearth itself, the temperature is higher and amounts to over 1100 OC two hours after the damper is closed. The flue gases flowing through the chimney (7) have a temperature between 95 and 105 OC which is measured with a sensor placed in the chimney wall (1 1). When cooling the flue gases to below 95 OC, condensation water is formed which can damage chimney walls and soot hatches. 6-7 hours after the start of the fire, a very small amount of white ash remains and the damper (8) closes.

C. Two hours after closing the damper, the temperature sensor shows a temperature of 1100 OC. Two days after the damper is closed, the sensors show a temperature of 60 - 100 ° C. In tiled stoves and masonry stoves not built according to the instructions of the present invention, the temperature sensors would show a temperature of 20-30 ° C.

That the combustion took place under these conditions soot-free is realized by the fact that the inside of the glass door for the fireplace was completely free of soot. No soot could be seen in the fireplace or the smoke passages either.

In tiled stoves and masonry stoves not built according to the instructions of the present invention, the inside of the glass door, the fireplace and the flues would be heavily sooted.

Soot fires can not occur during combustion because they occur soot-free.

For comparison and to simulate the process in an ordinary tiled stove, a combustion has been made in a masonry stove where 80% of the opening (4 in the figure) into the space under the heating grid has been blocked again.

A. 15 kg of frozen apple wood in the form of three large round logs and 3 kg of waste wood were placed in the fireplace. The wood was lit with bouquets. 3 hours into the combustion / gasification process, you could see that the clubs burned but during strong soot and smoke formation. During this time, the hearth was not touched or shaved.

B. Six hours after the fire was lit, remnants of unburned wood could be seen. During this time, the hearth was not touched or shaved. A lot of soot could be seen in the fireplace, on the glass door or in the entrances to the drain pipes (6). The soot on the glass door was scraped off and weighed. 2.7 grams of soot could be scraped off the glass, 350x350 mm, on the inside of the door. No soot could be scraped off the inside of the door during the fire with an unblocked opening for combustion air 6-7 hours after the start of the fire, a dark gray ash and unburned wood amounting to about 10% of the original amount remains and the damper (8) is closed.

C. Two hours after closing the damper, the temperature sensors show a temperature of 500 ° C. Two days after the damper is closed, the sensors show a temperature of about 30 OC.

When constructing stoves according to the present invention, it is important to use materials that can withstand the unusually high temperatures, up to 1200 - 1500 ° C, which are achieved in masonry stoves according to the present invention, such as Sairset mortar from Holger Eldfast, refractory stone Bjuf SX from Höganäs or Åheims Olivine from Norway and stainless steel fi ber ME-446 from Holger Eldfast.

The key to the present invention is the size of the opening for the entry of indoor air into the space under the grate and the size and design of this space. In ordinary tiled stoves, ie. the round or square ones that you see in mainly older houses and farms, there is no grate at all but the fuel is at the bottom of the fireplace. There is thus no space under the place where the fuel burns. It is therefore not possible to supply the fuel inneluñ from below through a grid. There are other types of stoves that have a space under the grate in the fireplace where there is an ashtray, but they have much poorer combustion efficiency than the stove according to the present invention. The reason for this is partly that the opening for admitting indoor air to the fireplace is too small because the ashtray blocks most of the opening and partly because the design of the space under the grille is completely different compared to the design of the space in the present installation.

According to the invention, indoor air flows in through a gap with a height of 15 mm to 700 mm and down the sloping front wall of the space and is then forced up through the grille into the fireplace. This flow pattern, which is necessary for the efficient combustion achieved with the present invention, is impossible to achieve in stoves with a conventional design of the space under the grate of the fireplace.

The sizes of the opening for the entry of the interior and of the space under the grille depend, of course, on the size of the fireplace. In the experiments above, the fireplace held about 15 kg of wood, which is typically stoves in ordinary villas. Efficient combustion according to the present invention was achieved with an opening of 30 mm and a size of the space under the grate of 400x400x70 mm - the distance between the grate and the bottom of the space was thus 70 mm.

A stove according to the present invention can also be used in industrial applications, for example to utilize the energy content of packaging materials and waste wood. Such an industrial stove would have a fireplace that holds 150 to 200 kg of fuel. The opening for indoor air to such a stove would have a height of 300 mm and the surface under the grille would have the dimensions 700 (height) x650 (width) x1 500 (depth).

Claims (9)

Patent claims A tiled stove of the tiled stove type with a device for air diffusers and a fire chamber characterized by a fixed gap opening for the introduction of indoor air to a space under the grate of the fireplace which has an inward-sloping front wall. Air diffuser according to claim 1 located in the bottom of the combustion chamber and so far up in the fireplace where flames reach the farthest and soot is formed. 3.. Air diffusers according to claims 1 and 2 located in the bottom of the airbrush chamber and at a distance from the bottom of the fireplace of 50 - 70 cm. Lu fi spreader according to claims 1 to 3 consisting of a hollow ring of metal with an inner diameter of 100 to 300 mm and a thickness of 70 to 150 mm provided with a large number of outlet holes for injecting lu fi into the afterburning chamber. Tile stove according to claims 1 to 4, characterized in that the temperature in the fireplace during combustion exceeds 700 ° C. Tile stove according to Claims 1 to 4, characterized in that the time for burning the fuel in a fully loaded fireplace exceeds four hours. Tile stove according to Claims 1 to 4, characterized in that the supply air is heated to at least 250 ° C before it is mixed with the flue gases in the area around and just above the air diffuser. Tile stove according to Claims 1 to 4, characterized in that the temperature of the flue gases in the chimney is at most 110 ° C. Tile stove according to claims 1 to 4, characterized in that water pipes are mounted in connection with the exhaust air ducts for heating water for water-borne heating systems.