This invention relates to burners. More especially but not exclusively the invention relates to burners for use in making cement, for lime-burning, for metal reduction or use in lime recovery kilns in paper-making. The invention is not so limited.
GB2310037 describes a range of burners where individual gas nozzles are adjustable. The nozzles in each case are spheres with an axial bore. The nozzles are retained in a tip. In some embodiments the sphere is held in the desired configuration by a grub screw passing through the nozzle and engaging the sphere. In some embodiments the tip terminates in a male screw threaded portion on which is screwed a nut having an inwardly directed flange. Trapped between the end of the pipe and the flange of the nut is a seating cylinder and a nozzle holder. The seating cylinder is provided with a flange which abuts the end of tip. The other end of seating cylinder has a seat for the spherical nozzle. The nozzle holder has an inwardly directed flange such that the nozzle can be trapped between the inwardly directed seat of the nozzle holder. The nozzle holder has, also, an outwardly directed flange by means of which it is trapped between the nut and the tip. By tightening the nut the nozzle can be held in a desired position. By loosening the nut the nozzle can be adjusted. In other embodiments the nozzles are retained by a plate with a plurality of holes in it each hole somewhat smaller than the diameter of the nozzles. The end of the burner is provided with a plurality of holes in which the nozzles are received. The nozzles are trapped between the plate and the end of the burner. A screw threaded fastener passes through the plate and into the body of burner thereby allowing the nozzles to be adjusted and then held in position. This arrangement suffers from several disadvantages. After being used for some time the various screw threaded portions will become difficult to move following exposure to heat, particulate matter and oxidizing conditions. Furthermore the adjustment means are accessible only from within the burner. Accordingly it is only possible to adjust the burner when it is not in use. Additionally it can be difficult accurately to align nozzles. As a result optimisation can become difficult and time consuming.
The invention seeks to provide a burner where individual nozzles, especially gas fuel nozzles are adjustable even while the burner is in use.
According to the invention there is provided a burner comprising a burner body having a burner chamber with a backing plate and having a burner element received in the burner chamber, the burner element having a plurality of gas nozzles for supplying gas into the burner mounted therein for rotational movement such that the direction of gas exiting the gas nozzle can be adjusted wherein means for rotating the gas nozzles are provided on the backing plate and wherein releasable means for retaining each gas nozzle in a plurality of rotational configurations is provided outside the burner chamber. The retaining means can be provided on the backing plate. Each gas nozzle can comprise a cylindric section having an elliptical face and a gas passage formed in the face. One or more, and preferably each gas nozzle is provided with a tell-tale visible from outside the burner indicating the rotational position of the nozzle in the burner. The burner can further comprise means for supplying solid fuel to the burner. The burner can further comprise non-rotatable means for supplying gas into the burner. According to the invention there is further provided a method of burning a gaseous fuel comprising the steps of passing a mixture of inflammable gas and an oxidising agent through a burner of the invention and combusting the mixture.
Embodiments of the invention will be described by way of non-limiting example by reference to the accompanying figures of which
Burner 100 comprises a cylindrical body 110 which forms a chamber. A burner element is received inside the body 110. The burner element may be provided with a right circular cylindrical portion 112 having a circular face 113. A gap 114 is thus defined between the inside of the body and the outside of the element. Preferably this gap is annular but other arrangements such as angular segments can be used. Means for injecting a fuel such as a solid fuel such a powdered pet coke and air into the gap could be provided but this is not essential. The face of the burner element can be provided with a plurality of gas passages 120 which are perpendicular to the circular face 113. These passages may be disposed about the perimeter of an imaginary circle. The above mentioned features allow fuel and air to be expelled from the burner in axial manner.
In accordance with the invention means for providing gas such as fuel gas where the angle of flow of material exiting the burner is adjustable are provided. Hereinafter the expression “adjustable gas” is used in connection with this. In the illustrated embodiment adjustable gas is provided by a plurality of gas pokers 117. In the illustrated embodiment the gas pokers are each in the form of a cylindric section with a gas passage 118 provided in the elliptical face 119 and perpendicular to that face. Those skilled in the art will be able to devise other methods of introducing adjustable gas air such as bent pipes. The precise angle at which the adjustable gas diverges from the angle of axial flow is not of the essence of the invention. Good results can be achieved where the angle is in the range of 20 to 70 degrees for example 30 to 60 degrees more preferably 40 to 50 degrees. In the illustrated embodiment the gas pokers are equidistantly disposed about an imaginary circle with its centre at the centre of the burner. This is preferred but the gas pokers need not be equidistantly disposed or disposed about an imaginary circle. In the event they are disposed about an imaginary circle that circle need not have its centre at the centre of the burner. The precise number of gas pokers is not of the essence of the invention. In the illustrated embodiment 6 are provided but fewer such as 4 or more such as 8 could be used
The gas pokers are rotatable. Preferably the gas pokers are independently rotatable. Rotation of the gas pokers nozzles enables the non-axial gas flow to be adjusted allowing tuning of the burner. This can be seen by comparing
Means for rotating the gas pokers from outside the burner chamber are provided. Means for retaining the gas pokers in configuration which are accessible from outside the burner chamber are also provided. Those skilled will have no difficulty in devising suitable means. The means for rotating can simply comprise a portion of the feed pipe to the swirl nozzle outside the burner chamber.
In some cases suppliers' representatives will tune the burner by manipulating the gas pokers and once the desired configuration is achieved the swivel joints removed or adjustment means locked to prevent tampering by end-users.
Means for releasably retaining the gas pokers in position are provided. Those skilled in the art will have no difficulty in devising suitable methods of achieving this. In the embodiment of
Another method shown in
Outboard of the seat portion, ie further away from the gas passage 118, the gas poker is provided with an outwardly extending lip 214. Flange 300 is provided with a hole 302. Hole 302 is of lesser diameter than the lip 214. Flange 300 is mounted on the gas poker outboard of the lip. Mounting holes 304 are provided in the flange such that screw threaded fasteners 306, 308 carried on the backing plate 122 can be tightened to urge the seat portion 212 against the counterbore 202 thereby restricting movement, both axial and rotational of the gas poker. Loosening of the screw threaded fasteners allows the gas poker to be rotated to a desired position. By disengaging the screw threaded fastener the gas poker can be withdrawn from the burner for example for servicing.
Other methods of releasably retaining the gas poker against rotation can be used. For example in
While in the illustrated embodiments the retaining means are provided at the rear of the burner it is not essential that they are positioned there. They could for example pass through the side wall of the burner.
The invention allows the gas pokers to be individually adjusted and secured in position while the burner is in operation thereby allowing rapid and efficient burner tuning.
Number | Date | Country | Kind |
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1309008.9 | May 2013 | GB | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2014/055743 | 3/21/2014 | WO | 00 |