LT5954B - Different biofuels supply and combustion system and it's operation method - Google Patents

Abstract

The invention relates to heating equipment. Invention is for extend functionality and ensure intensive, efficient and cost-effective range of biofuel combustion. For different biofuels transportation from individual containers (2), (3) there are installed transporters (4), (5) connected with the transportation hoses (7), (8) scattering biofuels onto screw conveyor (9), passing biofuel into combustion chamber (6) of the boiler (1 ), which is equipped with heater and the burning fuel mixer (13). Biofuels supply and ignition system operates according to the process control program. The combustion process control equipped with a photocell (14). At the beginning of the combustion process into combustion chamber (6) from container (2) is supplied wood pellets, which will ignite from heater. When the photocell (14) registers the required level of flame, biofuels - wood pellet supply line stops, then starts another biofuel supply line, supplying into the combustion chamber (6) different biofuels, without wood pellets from the tank (3).

Description

The invention relates to a heating technique, namely, to a fuel boiler and to combustion plants and methods.

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Known boiler and solid fuel combustion method described in LT patent no. 4998, TPKK: F 24 H 1/00, publ. February 25, 2003 The boiler consists of the following main parts: protective housing, combustion chamber with lid, air supply pipe with distributor and air draft regulator. The solid fuel combustion method is characterized in that the fuel feeds the air into the combustion chamber via a pipe terminating in an air distributor for ignition. The air distributor rests on the combustion chamber and descends as the amount of fuel collapsed in the combustion chamber decreases. Fuel intensity is set manually or automatically by controlling the throttle control.

In the prior art, an effective result of the combustion process cannot be achieved by combustion of self-propelled fuel and adjustment of the combustion intensity at the throttle.

Also known are the fuel supply and combustion equipment described in LT patent no. 5652, TPKK: F 23 L 1/00, publ. 2010, where a screw conveyor was installed to feed fuel into the combustion chamber.

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The functionality of the known technical solution is limited, and the combustion of fuel in the absence of control of the combustion process cannot be intensive and efficient.

The object of the invention is to extend the functional possibilities and to ensure intensive, efficient and economical combustion of various biofuels.

To achieve the object of the invention, the biofuel feed and combustion system consists of two biofuel tanks, two biofuel feed lines, each consisting of a conveyor arranged between the biofuel tank and a solid fuel boiler slope, a flexible, refractory biofuel transport hose mounted between the conveyor and solid fuel. the lower part of the boiler in front of the combustion chamber. In addition, the lower end of each conveying hose is directed to an internal screw conveyor arranged so that one end is in front of the combustion chamber and the other in the combustion chamber itself, which is also equipped with a heater and combustion fuel mixer mounted on the combustion chamber enclosure the chamber from the ash collection tank. In addition, a blower is provided for blowing and supplying air to the combustion chamber and a photocell to control the combustion process.

Also, for the purpose of the present invention, the inclined conveyors are optionally belted or helical. The central longitudinal axis of the inclined conveyors with the horizontal plane forms an angle of 15 ° -85 °.

Also, for the purpose of the invention, two biofuel tanks are provided, one of which is for one type of biofuel - wood pellets, the other - for various biofuels, except wood pellets.

Also, for the purpose of the invention, biofuel is fed into the solid fuel boiler combustion chamber by metering from two different containers and using separate conveyors, one for feeding wood pellets into one transport hose and another for feeding different biofuels, except wood pellets, into another transport hose. First, the conveyor feeds wood pellets into a single transport hose, which passes through it onto a rotating internal screw conveyor, and from there into a solid fuel boiler combustion chamber, where they are ignited by a heated heater, the fan is turned on and the air is vented. When the wood pellets ignite at the beginning of the combustion process and the photocell detects the occurrence of flame, the wood pellet feeder shuts down. At this point, another conveyor is activated which feeds various biofuels, other than wood pellets, into a different transport hose, through which the biofuel enters the rotating internal screw conveyor, which transports it to the combustion chamber. In addition, if the photocell detects a flame level that is not set, then a conveyor feeding wood pellets from one of the biofuel tanks is activated, and a conveyor feeding biofuels other than wood pellets from another container can shut down or continue to operate as intended by the process. in the management program.

Also, in order to achieve the object of the invention, when the wood pellets catch fire and the flame starts at the beginning of the combustion process, the heater switches off and only switches on when the set flame level is not restored within a specified time. and the agitator operates periodically according to the process control program in the case of combustion in the combustion chamber.

The invention is illustrated in the drawings. FIG. 1 - the basic scheme of feeding biofuel into a solid fuel boiler. FIG. 2 - the principle scheme of feeding biofuel to the combustion chamber of a solid fuel boiler.

Biofuel (biofuel - fuel from biomass and waste) supplied for heating in solid fuel boiler 1 is stored in tanks 2, 3. Capacity 2 is intended for storing one type of biofuel - wood pellets. Capacity 3 is for various biofuels except wood pellets. For transporting biofuel from the tanks 2, 3 to the solid fuel boiler 1 and for dosing between the tanks 2, 3 and the solid fuel boiler 1, optional belt or screw conveyors 4, 5 are provided. The central longitudinal axis of the conveyors 4, 5 is 15 ° -85. ° angle. Flexible, refractory biofuel transport hoses 7, 8 are provided for transporting biofuel from the conveyors 4, 5 to the combustion chamber 6 of the solid fuel boiler. The lower ends of the transport hoses 7, 8 are directed to an internal screw conveyor 9 for the fuel. 6. An internal screw conveyor 9 is arranged in the lower part of the solid fuel boiler 1 so that one end thereof is in front of the combustion chamber 6, under the lower parts of the hoses 7, 8 and the other end is inside the combustion chamber 6. Duct 10 is provided in the combustion chamber 6 to provide the combustion process and to supply air to the combustion chamber 6 when the fan is blown (not shown). (not shown in the drawing). The heater is designed for the ignition of biofuel - wood pellets at the beginning of the combustion process and also for the ignition of biofuels in the event of an emergency in the combustion process. A combustible biofuel mixer 13 is fitted to the combustion chamber 6 shroud 11 which separates the combustion chamber 6 from the ash collection tank 12. A photovoltaic cell 14 is provided for tracking the combustion process to a defined flame level and for recording the resulting flame.

The various feed and combustion systems for biofuels work as follows.

It uses various wastes for biofuel combustion in solid fuel boilers, forest and agricultural, food, catering, biodegradable waste (garden waste, paper, cardboard) such as straw, peat, rapeseed, flaxseed, sunflower, poultry manure pellets, various grains and their husk, beans, peas, lupine seeds, pips of various stone fruits (cherries, cherries, olives, plums), shells and shells of various nuts, wood chips, wood and sunflower briquettes, as well as coal pellets.

Various biofuel feeds to the solid fuel boiler and combustion system are automated. It operates under a process management program. From the container 2, the conveyor 4 feeds the biofuel - wood pellets into the intestine 7. The wood pellets are dosed through the hose 7 onto a rotating internal screw conveyor 9 which feeds the wood pellets into the combustion chamber of the solid fuel boiler 1. for example, 5s-20mins, and when the air duct 10 enters the combustion chamber 6, wood pellets are ignited from the heater. When the wood pellets are lit and the photocell 14 is lit, the required flame level set in the process control program switches off the heater and also the transporter 4. At this point, the transporter 5 and various biofuels other than wood pellets are fed into the intestine from batch 8. a spill on a rotating internal screw conveyor 9 which feeds the biofuel into the combustion chamber 6. The on-going combustion process is captured by the photocell 14. If the photocell 14 captures a lower flame level than that set for various biofuels except wood pellets, then the conveyor 4 is activated. feeding the biofuel - wood pellets from the container 2. In this case, when the conveyor 4 starts, the conveyor 5 may continue to operate, but may also shut down. It depends on the process control program you are running. Due to the damp, inferior quality, the flame levels of various biofuels, with the exception of wood pellets, are generally below the proper flame level. In this case, it is necessary to feed dry, better quality biofuels - wood pellets - to the combustion chamber 6 for a smooth, intensive and efficient combustion process. In the case of biofuel combustion to prevent the formation of slag, the agitator 13 is activated from time to time to mix the combustible fuel as scheduled in the process control program.

The main advantage of the presented technical solution is that the system design allows efficient combustion of any biofuel, even moist and of inferior quality, while maintaining a continuous intensive and efficient combustion process and obtaining cheap heat energy. This is influenced by the installation of two biofuel feed lines, which ensure constant feeding of one or another type of biofuel to the combustion chamber of the solid fuel boiler and constant control of the ongoing combustion process. In addition to using wood pellets for fueling different biofuels, it significantly reduces fuel consumption.

Claims (8)

1. A different biofuel feed and combustion system comprising fuel feed and combustion zones, characterized in that it consists of two biofuel tanks (2), (3), two biofuel feed lines each consisting of a conveyor (4) / ( 5), inclined between the biofuel tank (2) / (3) and the solid fuel boiler (1), the flexible, fire-resistant biofuel transport hose (7) / (8) located between the conveyor (4) / (5) and the solid the lower part of the fuel boiler (1) in front of the combustion chamber (6); furthermore, the lower end of each conveying hose (7), (8) is directed to an internal screw conveyor (9) arranged so that one end thereof is in front of the combustion chamber (6) and the other end is in the combustion chamber (6) where also provided with a heater and a combustion fuel mixer (13) mounted on a cover (11) of the combustion chamber (6) separating the combustion chamber (6) from the ash collecting vessel (12); in addition, a fan (for blowing and feeding the combustion chamber (6) through a duct (10)) and a photocell (14) for controlling the combustion process. Various biofuel feed and burn system according to claim 1, characterized in that the inclined conveyors (4), (5) are optionally belt or helical. 3. Various biofuel feed and combustion system according to claim 1, characterized in that the central longitudinal axis of the inclined conveyors (4), (5) has an angle of 15 ° to 85 ° with the horizontal plane. 4. The system for feeding and burning various biofuels according to claim 1, characterized in that one container (2) is dedicated to one type of biofuel - wood pellets, the other (3) - to various biofuels, except wood pellets. 5. A method for feeding and burning biofuels to a combustion zone by means of a conveyor and regulating the combustion process by means of a control element, characterized in that the biofuel is fed from two different tanks into the combustion chamber (6) of the solid fuel boiler (1). 2), (3) and uses two conveyors for feeding, one (4) for feeding biofuel from the container (2), the other (5) from the container (3); furthermore, from the container (2), the conveyor (4) feeds only the wood pellets by dosing into the transport hose (7), through which the wood pellets in turn enter the rotating internal screw conveyor (9) feeding the wood pellets to the combustion of the solid fuel boiler (1). a chamber (6) in which the wood pellets are ignited from the heated heater, the fan (13) being turned on and the air being supplied to the duct (10); in addition, when wood pellets ignite at the beginning of the combustion process and the photocell (14) detects the occurrence of flame, the wood pellet feeder conveyor (4) shuts down and the conveyor (5) turns on to feed from the container (3) various biofuels other than wood pellets. on a rotating internal screw conveyor (9) for transporting the biofuel to the combustion chamber (6); in addition, if the photoelectric cell (14) captures a flame level that is not set, the conveyor (4) feeding from the container (2) is activated, and the conveyor (5) feeding from the container (3) can shut down or continue to operate, as provided in the process management program. 6. The method of operating a different biofuel feed and combustion system according to claim 5, characterized in that when the wood pellets are ignited and the flame starts at the beginning of the combustion process, the heater is switched off and on only when the flame level is not restored within a specified time. 7. The method of operating a different biofuel feed and combustion system according to claim 5, characterized in that the fan is still operating for 5 seconds to 20 minutes after the onset of the initial flame. 8. A method of operating a different biofuel feed and combustion system, characterized in that the blender (13) operates periodically according to a process control program in the combustion chamber (6) during combustion of the fuel.