RU2639461C1 - Fuel burning rate adjustment method and the oven, where this method is implemented - Google Patents

Abstract

FIELD: heating system.SUBSTANCE: oven contains the combustion chamber for placing and igniting the fuel, as well as the chamber for the collection and removal of volatile combustion products, at the top equipped with the pipe for removal of volatile combustion products into the atmosphere, the casing of the combustion chamber is designed as the closed volume, with the process hole in the lateral vertical wall for the air intake and the combustion products exhaust, equipped with the adjusting gate valve, performed with the possibility to change the process hole throat. The combustion chamber is connected through the process hole to the chamber for collecting and removing the volatile combustion products, which has the hole for the air supply in it.EFFECT: simplification of the fuel burning rate adjusting process, increase the safety of use.2 cl, 1 dwg

Description

The invention relates to methods and devices for burning fuel, mainly for domestic needs, and can be used to create furnaces with adjustable fuel burning intensity and self-regulation of a given burning intensity.

The prior art method for adjusting combustion dynamics using a combustion chamber [RU 2478807, C2, F02C 9/00, F02K 3/00, 04/10/2013], which includes the operation of obtaining operating frequency information for many individual engine compartments, determining variations of operating information frequency, at least between two individual compartments, determining the average value, at least partially, based on the variation, as well as determining whether the average value exceeds at least one working threshold value and engine control, which s modify at least one of the operating frequency, if at least one operating threshold has been exceeded.

The disadvantage of this method is the relatively narrow scope, since the method is designed to effectively control the intensity of fuel combustion in engines having many individual compartments.

The closest in technical essence to the proposed one is the method [RU 2162193, C1, F23N 5/00, F23N 3/00, F23B 7/00, 01/20/2001] burning solid fuel in a boiler with lower blast and adjusting the total air flow according to oxygen content in flue gases, and the air flow is also regulated in accordance with the static air pressure in the channel of the lower blast nozzle.

A feature of the method is that the air flow is regulated by the common air and lower blast regulators based on the signals of the oxygen content and static pressure sensors, and the pressure level is maintained by the lower blast regulator, and when it reaches full opening, by the general air regulator.

The disadvantage of the closest technical solution regarding the method is its relatively high complexity, since the air flow is regulated in accordance with both the oxygen content in the flue gases and the static air pressure in the channel of the lower blast nozzle, which makes it necessary to simultaneously determine the oxygen content in the flue gases and determine the static air pressure in the channel of the lower blast nozzle using appropriate analyzers and sensors and complicates the choice of regulatory impact on two parameters, which can be multidirectional.

The problem that is solved in the proposed invention regarding the method is to create a simple method for regulating the intensity of fuel combustion in the furnace and providing self-regulation of the air supply to maintain a given intensity.

The required technical result is to simplify the method.

The problem is solved, and the required technical result is achieved by the fact that to adjust the burning rate of the fuel placed and set on fire in the combustion chamber, into which air is supplied to keep the fuel burning and from which the combustion products are removed, according to the invention, the combustion chamber is made in the form of a closed volume with technological hole in its vertical side wall for supplying air to the combustion chamber and output from the combustion chamber of combustion products, while the technological hole for supplying ozduha into the combustion chamber and out of the combustion chamber of combustion products is provided with a latch, which is adjusted by changing the position resolution processing opening passage section.

Furnaces for burning fuel for various, mainly domestic, purposes are also known.

In particular, a furnace is known [RU 68654, C1, F24B 1/28, 11/27/2007] containing a furnace, an oven, a smoking cabinet, a chimney and a chimney in one housing, the furnace and a smoking cabinet being interconnected by a chimney connected to a chimney pipe, the furnace is provided on both sides with additional air ducts, each made in the form of a flat container, one of the walls of which is the wall of the furnace, and the other wall of one of them is the outer wall of the stove, and the other wall of the tank located inside the stove is the wall of the chimney, and the tanks are equipped with ver them and lower holes, while the upper holes of one duct are made with the possibility of air coming out, and the upper holes of the second duct located inside the stove are made with the possibility of air entering the upper part of the furnace, in addition, the furnace is equipped with two internal dividing walls, one of which is installed horizontally and connected to the upper part of the duct located inside the stove, and the other is installed vertically between the oven and the smoking chamber, in addition, the oven is installed Applicants' above the bottom of the stove body with the possibility of passing the flue gas around the oven, with a turn direction of the flue gas movement through 360 °.

The disadvantage of this technical solution is the relatively high complexity and relatively narrow functionality that does not allow you to adjust the intensity of fuel combustion.

Closest to the technical nature of the proposed device is a device [RU 2162193, C1, F23N 5/00, F23N 3/00, F23B 7/00, 01/20/2001], containing a furnace with an input to the burner and a nozzle of the lower blast, gates installed in the nozzle duct and the common air duct connected to it, wherein one of the gates is connected to the lower blast controller consisting of actuators and a control unit, and the second gate is connected to a common blast controller consisting of an actuator and control unit, while the control unitsKnit one another and are connected to a static pressure sensor, installed at the nozzle inlet, and the sensor of the oxygen content in the flue gases is established at the outlet of the furnace.

The burning of solid fuel in this device is carried out with the measurement of the oxygen content in the flue gases by the sensor, according to the readings of which the excess oxygen behind the furnace is maintained at a predetermined level by changing the supply of total air through the air duct by the control unit using a gate control mechanism. The corresponding sensor measures the static air pressure in the nozzle of the lower blast and the signal from the sensor enters the control unit, which maintains the static pressure at a predetermined level using the mechanism and the gate by changing the flow rate of air supplied through the duct to the nozzle.

The disadvantage of the closest technical solution for the device is its relatively high complexity, since the air flow is regulated in accordance with both the oxygen content in the flue gases and the static air pressure in the channel of the lower blast nozzle, which makes it necessary to use appropriate analyzers and sensors to simultaneously determine the oxygen content in flue gases and determining the static air pressure in the channel of the lower blast nozzle, as well as regulators and Additional mechanisms with a complex design for the implementation of the regulatory impact on two parameters, which can be multidirectional.

In addition, the known technical solution has a relatively low safety, since carbon is heated when burning fuel and, not finding oxygen for combustion, leaves the combustion chamber through a chimney into the pipe and burns at its outlet when it is connected to oxygen, so the pipe heats up, and at its exit, combustion zones and escaping sparks may occur, which causes a fire hazard. In addition to this, it should be noted that the known technical solution does not provide for the possibility of a quick termination of the fuel combustion process, for example, in emergency situations. It also reduces the safety of the device.

The problem that is solved in the proposed invention regarding the device is to create a furnace with a simple design for regulating the intensity of fuel combustion and self-regulation of a given intensity of combustion, as well as increased safety of use.

The required technical result is to simplify the device and increase the safety of use.

The problem is solved, and the required technical result is achieved by the fact that in a furnace containing a combustion chamber for accommodating and burning fuel, as well as a chamber for collecting and removing volatile combustion products, provided in the upper part with a pipe for removing volatile combustion products into the atmosphere, according to the invention the housing of the combustion chamber is made in the form of a closed volume equipped with a technological hole in the vertical side wall for air supply and exhaust of combustion products, equipped with an adjustment valve, with the possibility of changing the cross section of the technological hole, while the combustion chamber is connected through the technological hole with a chamber for collecting and removing volatile combustion products, which has an opening for supplying air to it.

The furnace, which implements the proposed method of adjusting the intensity of fuel combustion with self-regulation of a given intensity of combustion, is presented in the drawing in section.

The furnace contains a combustion chamber 1 for placement and ignition of fuel, as well as a chamber 2 for collecting and removing volatile combustion products, equipped in the upper part with a pipe 3 for removing combustion products into the atmosphere.

In addition, in the furnace, the housing of the combustion chamber 1 is made in the form of a closed volume, equipped with a technological hole 4 in the side vertical wall, equipped with an adjustment valve 5, which is capable of changing the passage section of the technological hole 4. A feature of the proposed furnace is that the combustion chamber 1 is connected through a technological hole 4 with a chamber 2 for collecting and removing volatile combustion products, which has a hole 6 for supplying air to it.

The drawing also shows: fuel - 7, the flow of combustion products - 8, the flow of air entering the combustion chamber - 9.

The furnace, which implements the proposed method for adjusting the intensity of fuel combustion with self-regulation of a given intensity of combustion, is used as follows.

The fuel 7 is placed in the chamber 1 and ignited, for example, through a technological hole.

Combustion products having a higher temperature rush up, and a stream of 8 volatile combustion products leaves the combustion chamber 1 into the chamber 2 through the upper part of the technological hole 4 provided with a previously extended adjustment valve 5. Further, the combustion products flow through the pipe 3 into the atmosphere. A rarefaction is created in the combustion chamber 1, as a result of which oxygen enriched air enters the chamber 1 through the lower part of the process opening 4 in the form of a stream 9 from the chamber 2, in which there is an opening 6 for supplying air from the atmosphere to it. With a fully open technological hole 4, the combustion of fuel 7 is as intense as possible. Reducing the flow cross section of the technological hole 4 using the control valve 5, the combustion rate decreases due to the fact that the flows passing through the hole 4 are self-regulating, in this case they decrease in power. Thereby, the combustion intensity is adjusted without impairing its characteristics, in particular, a predetermined intensity due to self-regulation.

In the proposed design of the furnace, due to the fact that the heated carbon cannot leave the combustion zone (chamber 1) outside due to the closed design of the combustion chamber 1, all combustion occurs only in it, and the pipe 3 serves only for the output of combustion products and combustion not happening. This significantly increases the safety of the use of furnaces of the proposed design in relation to known furnaces. In addition, the pipe 3 can be cleaned even while the fuel is burning, and the stove can be extinguished at any time during the combustion process, even if there is fuel residue, completely closing the valve. The reverse thrust effect is also excluded when the flame “pops out” of the furnace. In the proposed design, the maximum that will happen is only the emission of smoke, and the flame will immediately go out. All this significantly increases the safety of the proposed device.

Thus, in the proposed invention, the required technical result is achieved with respect to the method, which consists in simplifying the process of adjusting the intensity of fuel combustion, and regarding the device - its simplification while ensuring self-regulation of a given intensity of combustion and increasing the safety of use.

Claims (2)

1. The method of adjusting the intensity of the combustion of fuel, based on the adjustment of the air supply to the combustion chamber of the fuel, characterized in that the combustion chamber is made in the form of a closed volume with a technological hole in its vertical side wall for supplying air to the combustion chamber and the output of combustion products from the combustion chamber while the technological hole for supplying air to the combustion chamber and the output from the combustion chamber of the combustion products is provided with a valve, the position of which regulates the size of the passage through the change of position of a technological hole. 2. The furnace for implementing the method of adjusting the rate of combustion of fuel according to claim 1, comprising a combustion chamber for storing and burning fuel, as well as a chamber for collecting and removing volatile combustion products, provided in the upper part with a pipe for removing volatile combustion products into the atmosphere, characterized in that the housing of the combustion chamber is made in the form of a closed volume, equipped in the side vertical wall with a technological hole for air supply and removal of combustion products, equipped with an adjustment valve made with the ability to change the bore of the technological hole, while the combustion chamber is connected through the technological hole with a chamber for collecting and removing volatile combustion products, which has a hole for supplying air to it.

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