WO2009112909A2

WO2009112909A2 - Burner provided with noise reducing means

Info

Publication number: WO2009112909A2
Application number: PCT/IB2009/000340
Authority: WO
Inventors: Sandro Lugli
Original assignee: Worgas-Bruciatori - S.R.L.
Priority date: 2008-03-10
Filing date: 2009-02-25
Publication date: 2009-09-17
Also published as: WO2009112909A3; ITMO20080069A1; EP2265866A2

Abstract

A burner comprises a substantially tubular body (1), closed at a first end (2) by a first closure element (3) and provided with a second end (4) of a second closure element (5) provided with an inlet (5a) through which a mixture of fuel and air is delivered into said body (1), said body (1) being provided on a side surface with openings (6, 7) for the exit and subsequent combustion of said mixture, with said second closure element (5) there is associated a channelling element (8; 11) that is suitable for varying the passage section of said flow of mixture and/or dividing said flow of mixture into a plurality of flows of mixture.

Description

Burner provided with noise reducing means

The present invention relates to a burner, provided with noise reducing means, in particular a tubular burner supplied with a mixture of fuel and air. It is known from the prior art that, during operation of a burner, sound waves can be generated that give rise to even very annoying noises, due to resonance phenomena. These resonance phenomena mainly depend on pressure variations to which the flow of mixture that is delivered into the burner and the flow of fumes produced by combustion of the mixture that are generally discharged from the combustion chamber through a flue connected thereto are subjected. Various expedients have been proposed to reduce or eliminate said resonance phenomena, such as, for example, the generation of sound waves that are in counter-phase with respect to the sound waves generated by the resonance phenomena, or the use of Helmoltz resonators or damping chambers for damping the sound waves that are associated with the burner or with the combustion chamber. The prior-art expedients are very complex and costly to make and are not always sufficiently effective.

The object of the present invention is to provide a burner provided with damping means for damping the noise produced during combustion, that is simple and cheap to make and is able to reduce said noise effectively.

According to the present invention a burner is provided comprising a substantially tubular body, provided with an inlet through which a mixture of fuel and air is supplied, said body being provided on a side surface thereof with openings for the exit and subsequent combustion of said mixture, characterised in that with said inlet a channelling element is associated that is suitable for varying the passage section of said flow of mixture and/or for dividing said flow of mixture into a plurality of flows of mixture. Owing to the invention, it is possible to obtain simply and cheaply an effective reduction in the noise produced during operation of the burner.

The invention will be disclosed below purely by way of non- limiting example, with reference to the attached drawings, in which:

Figure 1 is an elevation view of an embodiment of a burner according to the invention;

Figure 2 is a section along the line II-II in Figure 1; Figure 3 is a perspective exploded view of the burner in

Figure 1 ;

Figure 4 is a view like that of Figure 3, relating to a further embodiment of a burner according to the invention;

Figure 5 is a section like that of Figure 2, relating to the further embodiment of Figure 4 ;

Figures 6 and 7 illustrate a version of the channelling element of the burner illustrated in Figures 4 and 5;

Figures 8 and 9 illustrate further versions of the channelling element of the burner illustrated in Figures 4 and 5;

Figure 10 illustrates a version of the burner illustrated in

Figures 1 to 3 ;

Figure 11 is a section of Figure 10, performed with a plane containing a longitudinal axis of the burner. With reference to Figures 1 to 3 , a burner according to the invention comprises a substantially tubular body 1 closed at a first end 2 by a first closure element 3 and provided with a second end 4 with a second closure element 5 provided with an inlet 5a through which a mixture of fuel and air is delivered into the burner. On the side surface of the body 1 openings 6, 7 are made, for example in the form of holes 6 and/or slits 7, through which said mixture can exit the body

1 to be subsequently taken to combustion.

With the second closure element 5 a channelling element is associated that, in a first embodiment (Figures 2 and 3) comprises a diaphragm 8 that is provided with a central hole 9, surrounded by a plurality of further holes 10. The channelling element 8 preferably forms a single body with the second closure element 5. The channelling element 8 divides the flow of mixture entering the body 1 into a plurality of flows of mixture that, after entering the ^"body 1, mix and interfere with one another . The interference of said flows of mixture determines an effective damping of the sound waves that may be produced by resonance phenomena during operation of the burner, noticeably reducing the noise produced by the burner. In fact, the noise that can be produced during operation of a burner depends, as previously mentioned, on the occurrence of resonances the frequency of which depends on the pressure variations that occur in the path of the flow of mixture between the intake and the combustion chamber and in the path of the fumes between the combustion chamber and the exhaust through the flue of the boiler in which the burner is installed.

The diaphragm 8 , by dividing the flow of mixture into a plurality of flows that interfere with one another downstream of the diaphragm 8, modifies the pattern of the pressure variations in the aforesaid path of the mixture, thus modifying the resonance frequency of the system, so as to prevent the system being able to resonate.

Owing to the multiplicity and complexity of the factors that determine the resonance frequency of the system, the shape, the number and the dimensions of the central hole 9 and of the further peripheral holes 10 are determined by trial and error.

In a second embodiment of the invention, shown in Figures 4 and 5, the channelling element comprises a tubular element 11 comprising a first part 11a tapered in the advancing direction of the mixture, indicated by an arrow F (Figure 5) , and a second part lib with a substantially constant diameter, ending in an outlet 12, having substantially the same diameter as the second part lib of the tubular element 11. Preferably, the tubular element 11 forms a single body with the second closure element 5. In a first version, shown in Figures 6 and 7, the tubular element 11 has an outlet 12a having a smaller diameter than that of the second part lib.

On the side wall of the first part 11a, for example near the start of the second part lib, one or more openings 13 can be made that communicate with the inside of the body 1.

The mixture of fuel and air, by entering the tubular element 11, modifies the pressure variations along the path of the mixture, compared with the case in which the mixture is delivered directly into the body 1 without the tubular element 11, thus changing the resonance frequency of the system. The possible presence of one or more openings 13 eliminates resonance frequencies that it is not possible to eliminate with the tubular element 11, in fact said openings further alter the pressure variations along the path of the ^' mixture, further modifying the resonance frequencies of the system.

Also the dimensions of the tubular element 11, of the first part 11a thereof and of the second part lib thereof and of the position, dimensions and number of the openings 13 are determined by trial and error, as in the case of the holes of the diaphragm 8.

In a second version, illustrated in Figure 8, the channelling element comprises a tubular element 16 having a substantially constant diameter and preferably forming a single body with the second closure element 5.

In a third version, illustrated in Figure 9, the channelling element comprises a tubular element 17 having a first portion 17a with a substantially constant diameter and a second portion 17b with a diameter increasing towards an outlet 18. Also in this version the tubular element 17 preferably forms a single body with the second closure element 5. In Figures 10 and 11 there is illustrated a version of the embodiment of a burner according to the invention illustrated in Figures 1 to 3.

In this version, a tubular element 19 which has a substantially constant diameter is connected to the diaphragm 8. The tubular element 19 is connected to the diaphragm 8 so that the central hole 9 of the diaphragm 8 communicates with the inside of the tubular element 19. Preferably, the second closure element 5, the diaphragm 8 and the tubular element 19 are made of a single piece.

Instead of the tubular element 19, a tubular element 11 can also be connected to the diaphragm 8, like the one illustrated in Figures 4 to 7 , or a tubular element 17, like the one illustrated in Figure 9. Similarly to the tubular element 11, the tubular elements 16, 17 and 19 can be provided on a side wall thereof with one or more openings 13 communicating with the inside of the body 1 of the burner. The burner according to the invention is further provided with a distributing element 14 of cylindrical shape, provided with holes 15 on the side surface thereof, which is arranged concentrically inside the body 1.

In the embodiments illustrated in Figures 4 to 11, the distributing element 14 is interposed between the tubular element 11, 16, 17, 19 and the internal surface of the body 1 of the burner.

In the practical embodiment, the materials, the dimensions and the constructional details may be different from those indicated but be technically equivalent thereto without thereby falling outside the scope of the present invention.

Claims

1. Burner comprising a substantially tubular body (1), closed at a first end (2) by a first closure element (3) and provided with a second end (4) of a second closure element (5) provided with an inlet (5a) through which a mixture of fuel and air is delivered into said body (1) , said body (1) being provided on a side surface with openings (6, 7) for the exit and subsequent combustion of said mixture, characterised in that with said second closure element (5) there is associated a channelling element (8; 11; 16; 17; 19) that is suitable for varying the passage section of said flow of mixture and/or dividing said flow of mixture into a plurality of flows of mixture.

2. Burner according to claim 1, wherein said channelling element (8; 11; 16; 17; 19) forms a single body with said second closure element (5) .

3. Burner according to claim 1, or 2, wherein said channelling element comprises a diaphragm (8) provided with a central hole (9) surrounded by a plurality of further holes (10) .

4. Burner according to any one of claims 1 to 3 , wherein said channelling element comprises a tubular element (11; 16;

17; 19) .

5. Burner according to claim 4, wherein on a side wall of said tubular element (11; 16; 17; 19) at least an opening (13) is made.

6. Burner according to claim 4 , or 5 , wherein said tubular element (11) comprises a first part (lla) tapered in an advancing direction (F) of said mixture and a second part (lib) ending in an outlet (12; 12a) .

7. Burner according to claim 6, wherein said outlet (12) has the same diameter as said second part (lib) .

8. Burner according to claim 6, wherein said outlet (12a) has a diameter that is less than the diameter of said second part (lib) .

9. Burner according to any one of claims 6 to 8, wherein said at least an opening (13) is made at said first part (lla) of said tubular element (11) .

10. Burner according to claim 4, or 5 , wherein said tubular element (16) has a substantially constant diameter.

11. Burner according to claim 4, or 5 , wherein said tubular element (17) comprises a first portion (17a) with a substantially constant diameter and a second portion (17b) with a diameter increasing towards an outlet (18) .

12. Burner according to any one of claims 4 to 11, wherein said tubular element (11; 16; 17; 19) is connected to said diaphragm (8) so that said central hole (9) communicates with the inside of the tubular element (11; 16; 17; 19) .

13. Burner according to claim 12, wherein said diaphragm (8) and said tubular element (11; 16; 17; 19) form a single body with said second closure element (5) .

14. Burner according to any preceding claim, further comprising a distributing element (14) for distributing said flow of mixture said distributing element (14) being inserted inside said body (1) .

15. Burner according to claim 14, wherein said distributing element (14) has a cylindrical shape and is arranged concentrically with respect to said body (1) , said distributing element (14) being provided with openings (15) for the passage of said mixture that are distributed on a side surface of the distributing element (14) .

16. Burner according to claim 14, or 15, as appended to claims 4 to 13, wherein said distributing element (14) is interposed between said tubular element (11; 16; 17; 19) and the internal surface of said body (1) .