RU2707784C1 - Valve-mixing device of pulsed combustion heat generator - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: valve-mixer device of pulsed combustion heat generator with combustion chamber in the form of cylindrical cavity closed by end wall with through hole on one side and open on the other side contains ignition device and two coaxially made cylinders, which ends by means of common flange are connected to combustion chamber closed end, at that in internal cylinder wall zipper row of dosing holes for fuel gas supply from external cylinder is made, which through hole in wall is communicated with fuel gas supply system through check valve, and hole for air supply from atmosphere through check valve and valve-mixing device into combustion chamber, as well as fan for supply of air into valve-mixer and combustion chamber at start of heat generator. Along axis of inner cylinder there is a rod of flame stabilizer, which swirler is located behind combustion chamber passage hole and forms with its end wall combustion zone, and ignition plug ignition device is installed in threaded hole of boss, welded to side walls of inner and outer cylinders of valve-mixing device in zone between zona a series of dosing openings and closed end wall of combustion chamber symmetrically relative to two closest adjacent dosing holes in wall of cylinder.

EFFECT: invention allows operation of the ignition device in the zone of low temperatures of the valve-mixer device.

3 cl, 2 dwg

Description

The invention relates to energy and, first of all, relates to heat generators of pulsating combustion.

Known valve-mixing device of a pulsating combustion boiler, containing a combustion chamber for gaseous fuel with a cylindrical cavity, a closed end wall with a through hole on one side and open on the other, an ignition device installed in the cavity of the combustion chamber, fuel and air supply devices equipped with receivers with check valves, while the metering holes in the chamber wall of the mixing device are made with a chordal swirl direction (Patent RU No. 2560854, 05/13/2014).

A disadvantage of the known device is the reduction in the service life of the spark plug in the ignition device due to its placement in the cavity of the combustion chamber (high ambient temperatures), moreover, pulsed combustion usually occurs in the "start-stop" mode, when after each shutdown re-ignition system.

A pulsating combustion system is also known, comprising a combustion chamber of a heat generator in the form of a cylindrical cavity, a closed end wall with a through hole on one side and open on the other, the ignition device being placed at the end of two coaxially made mixing device cylinders, the common flange of which is connected to the closed end a combustion chamber, and in the wall of the inner cylinder there is a encircling row of metering holes for supplying fuel gas from the outer cylinder (Patent RU No. 2175422, 02. 02.2001), this device is taken as a prototype.

A disadvantage of the known device is also the deterioration of the serviceability of the spark plug located in one of the highest temperature combustion zone of the combustion chamber.

The technical result, the achievement of which the present invention is directed, is to ensure the operation of the ignition device and, accordingly, the spark plug in the low temperature zone of the valve-mixing device.

The technical result is achieved in that in a valve-mixing device of a pulsed combustion heat generator with a combustion chamber in the form of a cylindrical cavity, closed by an end wall with a passage hole on one side and open on the other, containing an ignition device, and two coaxially made cylinders, the ends of which are by means of a common the flanges are connected to the closed end of the combustion chamber, while in the wall of the inner cylinder there is a girdle of metering holes for supplying fuel gas from the outer cylinder, which through the hole in the wall is in communication with the fuel gas supply system through the check valve, and a hole for supplying air from the atmosphere through the check valve and the valve-mixing device to the combustion chamber, as well as a fan for supplying air to the valve-mixing device and the combustion chamber when starting the heat generator, it is new that along the axis of the inner cylinder there is a flame stabilizer rod, the swirl of which is located behind the passage opening of the combustion chamber and forms with its end face combustion zone, and the spark plug of the ignition device is installed in the threaded hole of the boss welded to the side walls of the inner and outer cylinders of the valve-mixing device in the zone between the encircling row of the metering holes and the closed end wall of the combustion chamber, symmetrically with respect to the two adjacent metering holes located in the cylinder wall.

Also in the wall of the inner cylinder, an additional hole is made for the fan to supply air to the valve-mixing device and the combustion chamber when starting the heat generator.

Also, the flame stabilizer rod is mounted on the thread in the cover for axial movement and is equipped with a centering belt with cutouts.

The analysis of the prior art cited by the applicant has made it possible to establish that there are no analogs characterized by sets of features identical to all the features of the claimed valve-mixing device of a pulsating combustion heat generator. Therefore, the claimed technical solution meets the condition of "novelty."

The results of the search for known solutions in the art in order to clarify the features that match the distinctive features of the claimed technical solution from the prototype have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed technical solution on the achievement of the specified technical result is not revealed.

Therefore, the claimed technical solution meets the condition of patentability "inventive step".

The claimed technical solution can be implemented at engineering enterprises and used in pulsed combustion heat generators to heat the coolant in heating systems for process media, for example, process gas in gas distribution stations and in various heating devices. Therefore, the claimed technical solution meets the condition of patentability "industrial applicability".

In FIG. 1 shows a structural diagram of a valve-mixing device for a pulsating combustion heat generator; FIG. 2 is a cross-sectional view of a valve-mixing device along the encircling row of metering holes and the boss with a spark plug.

The valve-mixing device 1 of the pulsating combustion heat generator 2, the combustion chamber 3 of which is made in the form of a cylindrical cavity 4, closed by an end wall 5 with a through hole 6 on one side and open 7 on the other, contains an ignition device 8 and two coaxially made cylinders: internal 9 and outdoor 10.

The ends of these cylinders through the flange 11 are connected to the closed end wall 5 of the combustion chamber 3. In the side wall 12 of the inner cylinder 9 there is a girdle row 13 of metering holes 14 for supplying fuel gas from the outer cylinder 10, which is in communication with the system through the hole 15 in the side wall 16 supply of fuel gas through the non-return valve 17. In the wall 12 of the inner cylinder 9 also has a hole 18 for supplying air to the valve-mixing device 1 from the atmosphere through the non-return valve 19. To start the heat generator, use Nattilator 20 for supplying air directly to the cylinder 9 through an additional hole 21 in the wall 12.

Along the axis of the inner cylinder 9, a rod 22 of the flame stabilizer 23 is placed, a swirl 24 which is located behind the passage 6 of the combustion chamber 3 and forms a combustion zone 25 with its end wall 5. For the axial movement of the stabilizer rod 23 to regulate the combustion regimes in the combustion chamber 3 the stem 22 is mounted in the cap 26 on the thread and is provided with a centering belt 27 with cutouts. The spark plug 28 of the ignition device 8 is installed in the threaded hole of the boss 29 welded to the side walls 12 and 16 of the cylinders 9 and 10, respectively, in the zone 30 between the encircling row 13 of the metering openings 14 and the closed end wall 5 of the combustion chamber 3 symmetrically with respect to the two adjacent metering holes 31 from the herring row 13 of the holes 14 in the wall 12 of the cylinder 9 (section AA in FIG. 2).

In this case, the electrode 32 of the spark plug 28 is located in the inner cylinder 9 between the rod 22 and the wall 12 of this cylinder in the stream of pre-mixed fuel-air mixture at the entrance to the combustion zone 25.

The valve-mixing device of the pulsating combustion heat generator operates as follows. To start the heat generator 2, voltage is supplied to the spark plug 28 and the air is supplied to the cylinder 9 by the fan 20 and the fuel gas is supplied through the check valve 17 and the hole 15 to the cylinder 10. From the cylinder 10, the fuel gas through the metering holes 14 enters the cylinder 9, where it is mixed with an air stream forms a fuel-air mixture flowing through a swirl 24 into the combustion zone 25. At the same time, in the ignition device 8, the spark plug 28 located in zone 30 behind the metering holes 31 ignites the pre-mixed fuel the willow-air mixture, while forming locally along the current stream behind the location of the electrode 32, the combustion zone is carried by the stream into the combustion zone 25 of the combustion chamber 3 and ignites the fuel-air mixture.

In the flow region of the fuel-air mixture from row 13 of metering holes 14 to swirl 24 of stabilizer 23 there is no combustion, because the turbulent combustion rate is much lower than the flow rate in the inner cylinder 9, therefore, the spark plug 28 operates in the cold zone of the valve-mixing device 1 and is not subjected to thermal loads, ensuring reliable operation of the heat generator 2 for the assigned resource.

After starting, turn off the fan 20 and the spark plug 28, and the heat generator 2 switches to pulsed combustion with a given resonator system of the combustion frequency, when the intake cycles through air and gas check valves 19 and 17 alternate, igniting the fuel-air mixture in the combustion chamber 3 with closing valves and exhaust gases from the combustion chamber 3, followed by rarefaction in it and the opening of valves 19 and 17 for the next inlet of fuel gas and air.

The organization of the air supply to the valve-mixing device 1 through an additional hole 21 directly to the cylinder 9 after the check valve 19 made it possible to optimize the size of the fan 20 and use it only at the start of the heat generator 2. Installing a stabilizer 23 on the thread in the cover 26 of the valve-mixing device 1 makes it possible its axial movement to regulate the start of the heat generator 2 and sustainable combustion in zone 25.

Claims (3)

1. The valve-mixing device of a pulsating combustion heat generator with a combustion chamber in the form of a cylindrical cavity, closed by an end wall with a passage hole on one side and open on the other, containing an ignition device and two coaxially made cylinders, the ends of which are connected to the closed end of the chamber through a common flange combustion, while in the wall of the inner cylinder there is a encircling row of metering holes for supplying fuel gas from the outer cylinder, which through the hole in the wall is generalized to the fuel gas supply system through a non-return valve, and a hole for supplying air from the atmosphere through a non-return valve and a valve-mixing device to the combustion chamber, as well as a fan for supplying air to the valve-mixing device and the combustion chamber when starting the heat generator, characterized in that along the axis of the inner cylinder there is a flame stabilizer rod, the swirl of which is located behind the passage opening of the combustion chamber and forms a combustion zone with its end wall, and the spark plug This device is installed in the threaded hole of the boss welded to the side walls of the inner and outer cylinders of the valve-mixing device in the area between the encircling row of metering holes and the closed end wall of the combustion chamber symmetrically with respect to the two adjacent metering holes located in the cylinder wall. 2. The valve-mixing device according to claim 1, characterized in that an additional opening is made in the wall of the inner cylinder for supplying air to the valve-mixing device and the combustion chamber when the heat generator is started, 3. The valve-mixing device according to claim 1, characterized in that the flame stabilizer rod is mounted on a thread in the cap for axial movement and is equipped with a centering belt with cutouts.

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