RU2008146136A - METHOD FOR SPRAYING LIQUID FUEL OF A CENTRIFUGAL NOZZLE (OPTIONS), CENTRIFUGAL NOZZLE (OPTIONS), LIQUID FUEL BURNER - Google Patents

Abstract

 1. A method of spraying liquid fuel with a centrifugal nozzle (Option 1), including passing it through a nozzle with preliminary twisting of the flow in the swirl chamber by supplying fuel flows to it along the tangentially located channels in the chamber walls and exposing the fuel jet to the primary and secondary air flows supplied under pressure and with twisting, characterized in that on the path of the flow of fuel flows along the tangentially located channels carry out their additional dynamic acceleration - transform the potential pressure energy into the kinetic energy of the flows (at high-speed pressure), for which they provide a change in the cross-section of flows from larger to smaller towards the entrance to the swirl chamber, and therefore the previously tangentially arranged channels perform a variable section from larger to smaller in the direction of the entrance to the swirl chamber. ! 2. The method of spraying liquid fuel with a centrifugal nozzle according to claim 1, characterized in that they organize the movement of fuel flows in tangentially arranged channels of larger and smaller sections along one axis, for which the channels with larger and smaller sections perform along one axis. ! 3. The method of spraying liquid fuel with a centrifugal nozzle according to claim 1, characterized in that they organize the movement of fuel flows in tangentially arranged channels of a larger cross section and a smaller cross section not on one axis, for which the flows with a smaller cross section are displaced relative to the flows with a larger cross section towards the largest the density of flows, in connection with which previously channels for organizing flows are also performed with an offset of

Claims (28)

1. A method of spraying liquid fuel with a centrifugal nozzle (Option 1), including passing it through a nozzle with preliminary twisting of the flow in the swirl chamber by supplying fuel flows to it along the tangentially located channels in the chamber walls and exposing the fuel jet to the primary and secondary air flows supplied under pressure and with twisting, characterized in that on the path of the flow of fuel flows along the tangentially located channels carry out their additional dynamic acceleration - transform the potential pressure energy into the kinetic energy of the flows (at high-speed pressure), for which they provide a change in the cross-section of flows from larger to smaller towards the entrance to the swirl chamber, and therefore the previously tangentially arranged channels perform a variable section from larger to smaller in the direction of the entrance to the swirl chamber. 2. The method of spraying liquid fuel with a centrifugal nozzle according to claim 1, characterized in that they organize the movement of fuel flows in tangentially arranged channels of larger and smaller sections along one axis, for which the channels with larger and smaller sections perform along one axis. 3. The method of spraying liquid fuel with a centrifugal nozzle according to claim 1, characterized in that they organize the movement of fuel flows in tangentially arranged channels of a larger cross section and a smaller cross section not on one axis, for which the flows with a smaller cross section are displaced relative to the flows with a larger cross section towards the largest the density of the flows, in connection with which the channels for organizing the flows are also previously performed with an offset relative to each other. 4. The method of spraying liquid fuel with a centrifugal nozzle according to claim 1, or 2, or 3, characterized in that the flow of fuel from the nozzle nozzle is carried out according to the principle of "Laval nozzle", which uses a combined nozzle consisting of a tapering and expanding parts ( nozzle with a bell). 5. The method of spraying liquid fuel with a centrifugal nozzle according to claim 4, characterized in that the expanded part of the nozzle is provided with a conical socket in the wall of the boiler. 6. A method of spraying liquid fuel with a centrifugal nozzle (Option 2), including passing it through a nozzle with preliminary twisting of the flow in the swirl chamber by supplying fuel flows to it along the tangentially located channels in the chamber walls and exposure of the fuel jet to the primary and secondary air flows supplied under pressure and with twisting, characterized in that the swirling of the fuel flow is carried out at least two stages, for which the swirling of the fuel flow is carried out sequentially two concentrically arranged chambers twist, since the outer, into each of which fuel is fed through the tangentially positioned channels. 7. The method of spraying liquid fuel with a centrifugal nozzle according to claim 6, characterized in that they provide at least two additional dynamic acceleration on the fuel path when fuel flows are supplied along tangentially located channels, for which the latter perform a variable cross section from larger to smaller in the direction to the entrances to the swirl chambers. 8. The method of spraying liquid fuel with a centrifugal nozzle according to claim 6 or 7, characterized in that the flow of fuel from the nozzle nozzle is carried out according to the principle of "Laval nozzle", for which a combined nozzle consisting of a tapering and expanding part (nozzle with a bell) is used . 9. The method of spraying liquid fuel with a centrifugal nozzle according to claim 8, characterized in that the expanded part of the nozzle is provided with a conical socket in the wall of the boiler. 10. A method of spraying liquid fuel with a centrifugal nozzle, including passing it through a nozzle with preliminary twisting of the flow in the swirl chamber by supplying fuel flows to it along the tangentially located channels in the chamber walls and exposing the fuel jet to primary and secondary air flows supplied under pressure and with twisting, characterized in that the flow of secondary air is organized with constant dynamic acceleration by ensuring its multi-stage narrowing along the entire route At the same time increasing the amount of movement, for which secondary air is supplied through spiral channels with a cross section from a larger diameter to a smaller one located in a plane perpendicular to the nozzle axis, through a tangential tapering nozzle of the secondary air supply system, the casing of which is made in the shape of a “snail”, reduce the cross section of the air flow while moving it both in a circle (along the “snail” shell) and from the periphery to the center (from the shell through the supply channels of the air flow swirling chamber) Further tightening of the chamber to the fuel spray area (along the conical tip). 11. The method of spraying liquid fuel with a centrifugal nozzle according to claim 10, characterized in that the twisting of the secondary air is carried out before it is fed into the spray zone in the swirl chamber located in the housing of the secondary air supply system coaxially with it and the axis of the nozzle. 12. The method of spraying liquid fuel with a centrifugal nozzle according to claim 10 or 11, characterized in that the swirling stream of secondary air is fed into the boiler cavity according to the principle of "Laval nozzle" through a tapering conical nozzle type nozzle concentrically located relative to the nozzle, while the most narrowed part a stream of secondary air is placed at the base of the funnel of the atomized fuel. 13. A centrifugal nozzle (Option 1), comprising a spray head consisting of a union nut, a sleeve with a central channel for supplying liquid fuel, a gasket, a distribution washer for supplying fuel to the annular channel of the swirler, a fuel swirl containing a twisting chamber in the form of a hollow flat cylinder , on the working side connected to the nozzle, and the fuel supply channels in the swirl wall, located tangentially to the side of the swirl chamber, as well as the device supplying fuel for spraying, characterized in that the union nut, sleeve, distribution washer and swirl are made in the form of a single cylindrical body-body of the nozzle with internal cylindrical coaxially located and interconnected cavities, including a swirl chamber, and tangentially located fuel supply channels into the swirl chamber in the housing walls are made variable cross section from larger to smaller in the direction of the entrance to the twisting chamber (i.e., made in the form of nozzles). 14. The centrifugal nozzle according to claim 13, characterized in that the tangentially located channels of larger and smaller sections are made on the same axis. 15. The centrifugal nozzle according to claim 13, characterized in that the tangentially located channels with a smaller cross section are displaced along the axis relative to the channels with a large cross section in the direction of the flow of higher density. 16. The centrifugal nozzle according to any one of paragraphs.13-15, characterized in that its body is installed in a glass with the formation of a cylindrical channel between them for supplying fuel with support in the swirl chamber through tangentially located channels, connected to the inlet by channels in the housing wall with a cylindrical coaxially located cavity in the housing for fuel entering it through the Central channel of the device that supplies fuel for atomization. 17. The centrifugal nozzle according to claim 16, characterized in that the device supplying fuel through the central channel is made in the form of a non-standard bolt fastening the housing and the glass and equipped with a fitting for connecting the liquid fuel supply hose. 18. The centrifugal nozzle according to claim 17, characterized in that the rear wall of the twisting chamber is formed by a fifth, backed screw, connecting the thread to the housing inside it. 19. A centrifugal nozzle (Option 2), comprising a spray head consisting of a union nut, a sleeve with a central channel for supplying liquid fuel, a gasket, a distribution washer for supplying fuel to the annular channel of the swirler, a fuel swirl containing a swirl chamber in the form of a hollow flat cylinder , from the working side connected to the nozzle, and the fuel supply channels in the walls of the swirler, located tangentially to the side of the swirl chamber, as well as the device that supplies fuel for spraying, characterized by m, that the union nut, sleeve, distribution washer and swirl are made in the form of a single cylindrical body-body of the nozzle with coaxial internal cylindrical cavities for various purposes, including a swirling chamber, and the swirling chamber of liquid fuel is made of at least two stages in the form of two concentric located cylindrical cavities separated by a cylindrical wall, with a tang made to supply fuel to both twisting chambers in the housing and in the cylindrical wall ntsialno located channels. 20. The centrifugal nozzle according to claim 19, characterized in that for additional dynamic acceleration of the fuel flows along the tangentially arranged channels for at least one of the swirling chambers, for example, the central one, these channels are made of variable cross-section from larger to smaller in the direction of the entrances to twisting chamber. 21. The centrifugal nozzle according to claim 19 or 20, characterized in that its body is installed in a glass to form a cylindrical channel between them for supplying fuel with a support in the swirling chamber through tangentially located channels, connected at the entrance to the channels in the wall of the body with a cylindrical coaxially arranged cavity in the housing for fuel entering it through the Central channel of the device that supplies fuel for atomization. 22. The centrifugal nozzle according to claim 21, characterized in that the device supplying fuel through the central channel is made in the form of a non-standard bolt fastening the housing and the glass and equipped with a fitting for connecting the liquid fuel supply hose. 23. The centrifugal nozzle according to claim 22, characterized in that the rear wall of the twisting chamber is formed by a fifth, backed screw, connecting a thread to the housing inside it. 24. A liquid fuel burner, including primary and secondary air supply systems equipped with its swirling devices, a centrifugal nozzle installed concentrically to air supply devices, and a flange for connecting the burner to the boiler front, characterized in that the secondary air supply system includes a secondary air swirling chamber installed to the zone of spraying liquid fuel in a plane perpendicular to the axis of the nozzle, coaxially with it, connected to a blower fan, consisting of a housing, a centrifugal fan in the form of a “snail”, containing a tangentially located tapering nozzle with a connecting flange at the end, which provides dynamic acceleration of the secondary air at the inlet, a secondary air swirl device made in the form of an insert nozzle mounted in the housing coaxially with it and rigidly fixed, assembled from guide vanes forming tangentially located channels for uniformly supplying secondary air to the center of the chamber with simultaneous dynamic acceleration of it And guide cone for supplying secondary air to the combustion zone to ensure its dynamic acceleration, connected on one side to the camera body twisting of secondary air, on the other hand provided with a device (e.g., a flange) for connecting to the front of the boiler. 25. A liquid fuel burner according to claim 24, characterized in that the tangentially located channels between the blades of the nozzle-insert for supplying secondary air are made of variable cross-section from larger to smaller in the direction of its movement. 26. A liquid fuel burner according to claim 24 or 25, characterized in that the nozzle is mounted concentrically with axial movement in a pipe, which is mounted concentrically with axial movement in a cylinder mounted concentrically and rigidly connected to a primary air supply chamber installed concentrically and separated a blank partition in the secondary air supply device from the side opposite to the conical guide nozzle and is equipped with a nozzle for connection to a blower fan, etc. This tube and the cylinder are provided with windows for guiding the primary air into the liquid fuel spray zone and the pipe at the inlet to this zone is provided with inside axial grooves swirls. 27. A liquid fuel burner according to claim 26, characterized in that the nozzle axial movement device consists of a split conical sleeve, mounted on the nozzle at the end closest to the fuel supply point, sloping towards this end and provided with a lock nut, while the conical sleeve together with the nozzle made movable in a coaxial hole with conical walls of the pipe end nut. 28. The liquid-fuel burner according to claim 27, wherein the nozzle axial movement device consists of a second split sleeve mounted on the pipe at the end closest to the fuel supply to the nozzle, sloping towards this end and provided with a lock nut, wherein the conical sleeve together with the pipe and the nozzle rigidly installed in it are made movable in a coaxial hole with the conical walls of the cylinder end nut.