[0001] The present invention relates to a high perimeter stability burner for a gas boiler.
[0002] Gas boilers of the prior art comprise: a conduit for supplying a burner with a premixed
gas-air mixture, a burner for the production of heat through the combustion of said
mixture in a combustion chamber, and possibly a support element which may be connected
to the heat exchanger and/or to the supply conduit to ensure the closure of the combustion
chamber and/or for positioning the burner with respect to such combustion chamber.
[0003] The burner comprises a diffuser through which the premixed fuel and air gas which
determines a flame pattern for the production of heat is conveyed. Usually the diffuser
comprises a wall provided with a plurality of openings and having an inner surface
fluidically connected with the supply conduit, and thus in contact with the unburnt
mixture, and an outer surface whereon the combustion occurs.
[0004] Upstream of the diffuser (with reference to the direction of flow of the gas-air
mixture) a distribution device, or distributor, may also be provided arranged on the
side of the diffuser opposite to the combustion surface, usually comprising a wall
with a plurality of through openings, configured so as to distribute the gas-air mixture
in a substantially uniform manner or however in the desired manner towards the wall
of the diffuser.
WO2004/092647A1 describes a prior art metal burner membrane which forms prior art for the preamble
of claim 1.
[0005] As it is well known, the heat produced by the combustion on the outer side of the
wall of the diffuser is conveyed through the hot fuel gases to a heat exchanger for
heating a fluid, for example water, which is subsequently conveyed to a user, for
example to a heating system of an industrial process, residential environments or
the like and/or domestic water.
[0006] Due to the specific needs of a controlled and differentiated heating it is essential
to be able to vary the heating power of the burner.
[0007] It is possible to control the heating power of the burner through the variation of
the flow rate of the fuel or of the mixture supplied to the diffuser. However, the
width of the heating power range or the so-called modulation (ratio between maximum
power and minimum power) of the burners of the prior art is limited. This is due to
the fact that, when the fuel flow rate exceeds the optimal range which depends on
the material, the specific area of passage (quotient between the passage area and
the wall area) and the resistance of the diffuser to the mixture flow, problems related
to instability of the flame occur which jeopardise the correct operation of the burner.
In particular, upon increasing the heating power, the combustion area, and thus the
flame, tends to move away from the diffuser with serious effects in terms of safety
and emission of pollutant substances, such as carbon monoxide (CO).
[0008] Such phenomenon of the flame moving away from the diffuser is particularly relevant
at the ends of the diffuser.
[0009] As a matter of facts, such ends are connected with the framework of the burner hence
the temperature of the diffuser, in such areas, is inevitably lower than in the remaining
areas.
[0010] In order to overcome this problem, the use of additional distributors in proximity
of the diffuser or the use of diffusers suitably shaped by moulding is known. Both
solutions are however complex in terms of manufacture and considerably affect the
burner manufacturing costs.
[0011] Thus, the object of the present invention is to provide a burner capable of overcoming
the aforementioned flame instability problems, in particular the problem related to
the flame detachment , and which is simultaneously simple and inexpensive to produce.
[0012] This and other objects are attained by means of a gas boiler burner according to
claim 1. The particular configuration of the diffuser allows attaining a flame stability
also in case of increase of the heating power and also at the ends of the diffuser.
[0013] In particular, the aforementioned configuration allows obtaining a flow direction
of the fuel gases exiting from the diffuser whose component in the direction perpendicular
to the surface of the diffuser at the edges thereof is substantially null. Thus, it
is possible to reduce the mixture flow at the edges and prevent the flame detachment
phenomenon, also with high power modulations.
[0014] Herein the term "gas flow direction" is used to indicate the main direction of flow
of the gases.
[0015] For the purpose of the present invention, the expression "the cross-section has a
uniform radius of curvature" is used to indicate that each point of the cross-section
has the same radius of curvature, i.e. it belongs to the same hypothetical circumference
having such radius.
[0016] In order to better understand the invention and appreciate the advantages thereof,
hereinafter a description of some exemplifying and non-limiting embodiments of the
burner of the invention is provided, with reference to the attached figures, wherein:
- figure 1 is a longitudinal sectional view of a boiler portion comprising a gas burner
according to the present invention;
- figure 2 is a perspective view of a gas boiler burner according to a first embodiment
of the invention;
- figure 3 is a perspective view of a gas boiler burner according to an embodiment of
the invention, mounted on a framework;
- figure 4 is a side view of the burner of figure 3;
- figure 5 is the view along the cross-section B-B of the burner of figure 4; and
- figures 6a-6c show the vectorial breakdown of some flow lines of the fuel gases along
the section of figure 5.
[0017] With reference to figures 1-6, a gas boiler burner is wholly indicated with reference
number 1.
[0018] In particular, reference 1 indicates a burner which produces heat through the combustion
of a premixed fuel gas, generally comprising fuel gas and air. Such fuel gases are
completely premixed, i.e. no further component is added to the mixture supplied to
the burner.
[0019] The burner 1 comprises a diffuser 2, which is suitable for diffusing fuel gases in
a combustion chamber 3 (indicated with a dotted line in figure 1).
[0020] The burner 1 is mounted on a framework 9. The latter may be connected to the combustion
chamber 3 through connection portions.
[0021] The framework 9 further delimits an opening for the passage of the fuel and air mixture.
[0022] The diffuser 2 includes a wall provided with a plurality of openings whose inner
surface is fluidically connected with the gas supply conduit. The combustion occurs
on the outer surface of such wall.
[0023] The diffuser 2 may comprise a distributor 4 of the known type, suitable for distributing
the mixture to the diffuser 2 and arranged on the side of the diffuser 2 opposite
to the combustion chamber 3.
[0024] Figure 1 also shows a schematic representation of a heat exchanger 6 in contact with
the combustion chamber 3, which is suitable for receiving the heat produced by the
combustion on the outer side of the wall of the diffuser 2.
[0025] As shown in figure 2, three main directions have been identified: a longitudinal
direction α, a transverse direction β and a radial direction γ. The longitudinal direction
α and the transverse direction β are orthogonal to each other and they are both orthogonal
to the direction of flow of the gases entering into the burner 1, which is indicated
in the figures with the arrows 7.
[0026] According to the present invention, each cross-section of said diffuser 2 has a uniform
radius of curvature. In other words, each section obtained intersecting the diffuser
2 with a plane parallel to the plane B-B of figure 4 has a single radius of curvature,
i.e. each point of the section belongs to an ideal circumference having such radius
of curvature.
[0027] According to the present invention, the diffuser 2 comprises a diffuser central portion
10 and two diffuser longitudinally peripheral portions 5, in which said two diffuser
longitudinally peripheral portions 5 are connected to each other by said diffuser
central portion 10. The diffuser central portion 10 extends longitudinally in a direction
perpendicular to the flow of the fuel gases, i.e. in the longitudinal direction α,
over a length 1 greater than zero. Furthermore the diffuser central portion 10 has
a cross-section shaped as a circumference arc having a radius r, as shown in figure
5.
[0028] In particular as shown in such figure, the cross-section is preferably a semi-circumference.
[0029] Therefore, the diffuser central portion 10, extends transversely over a length equivalent
to 2r.
[0030] Each of said diffuser longitudinally peripheral portions 5 is shaped as a portion
of sphere having radius r, as shown in figure 4.
[0031] In particular, as shown in such figure, each of said portions is shaped as a quarter
of sphere.
[0032] In other words, the radius of the spherical portion which forms each peripheral longitudinal
portion of the diffuser 5 has a length equivalent to the radius of the cross-section
of the diffuser central portion 10.
[0033] According to the preferred embodiment shown in the figures, the burner 1 also comprises
a distributor 4 associated to the diffuser 2 and suitable for distributing the fuel
gases on the diffuser 2, which has a configuration substantially equivalent to the
configuration of the diffuser 2. This is particularly observable in figure 5.
[0034] Said distributor 4 comprises a sheet provided with openings or a metal mesh or a
porous material.
[0035] The diffuser 2, instead, comprises a mesh made of metal or ceramic fibres or a compact
material having openings or a porous material.
[0036] According to preferred embodiments, the diffuser 2 is connected to a framework 9
which is arranged substantially perpendicular to the direction of flow of the fuel
gases entering the burner 1, indicated by the arrows 7.
[0037] In figures 6a-6c, the arrow indicated with the reference number 7' shows the direction
of flow of the gases exiting from the burner 1.
[0038] As observable from such figures, the nearer to the ends of the cross-section the
more the normal component on the diffuser 2 of the direction of flow of the gases
exiting from the burner 1 decreases.
[0039] Therefore, such normal component will be minimum at the edges and maximum at the
vertex of the circumference arc which constitutes the section.
[0040] Such phenomenon compensates the temperature drop typical of the ends for connection
to the framework 9, thus avoiding the flame detachment in such critical areas.
[0041] The situation is analogous at the longitudinal section of the diffuser 2 in that
each longitudinally peripheral portion of the diffuser 5 is shaped as a circumference
arc having a radius r, thus the edges of the longitudinal section of the diffuser
2 have the same characteristics of the edges of the cross-section of the diffuser
2.
[0042] In other words, the nearer to the ends of the longitudinal section the more the normal
component on the diffuser 2 of the direction of flow of the gases exiting from the
burner 1 decreases.
[0043] Therefore, such normal component will be minimum at the edges and then gradually
increase up to reaching a maximum at the entire length 1 of the diffuser central portion
10.
[0044] Hence, the normal component of the direction of flow of the exiting gases is minimum
along all the perimeter edges of the diffuser 2 and thus the flame detachment phenomenon,
critical in such areas, is controlled.
[0045] Therefore, such configuration of the burner 1, allows obtaining a flame stability
also in case of increase of the heating power and simultaneously a burner that is
simple and inexpensive to produce.
[0046] Within the description above and in the subsequent claims, all the numerical values
indicating amounts, parameters, percentages, and so on and so forth shall be deemed
preceded under any circumstances by the term "about" unless otherwise indicated. Furthermore,
all numerical value intervals include all possible combinations of the maximum and
minimum numerical values and all possible intermediate intervals, besides those specifically
indicated in the text.
[0047] The gas boiler burner according to the present invention may be subjected, by a man
skilled in the art, with the aim of meeting contingent and specific requirements,
to further modifications and variants within the scope of protection of the invention
as defined by the appended claims.
1. Burner (1) for gas boiler comprising a diffuser (2), suitable for diffusing
a flow of premixed fuel gases in a combustion chamber (3),
wherein said diffuser (2) comprises a diffuser central portion (10)
and two diffuser longitudinally peripheral portions (5), said two diffuser
longitudinally peripheral portions (5) being connected to each
other by said diffuser central portion (10), said
diffuser central portion (10) longitudinally extending in a direction perpendicular
to the fuel gas flow for a length (1) greater than zero and having a constant cross-section
perpendicular to the longitudinal direction of the diffuser (2), wherein said cross-section
of said diffuser central portion (10) is shaped as a circumference arc having a uniform
radius of curvature (r), and in that each of said diffuser longitudinally peripheral
portions (5) are shaped as a portion of sphere having a radius (r) equal to said radius
of curvature (r) of said cross-section of said diffuser central portion (10), characterized in that the diffuser (2) is constituted by only said diffuser central portion (10) and said
two diffuser longitudinally peripheral portions (5)
2. Burner (1) according to claim 1, further comprising a distributor (4), associated
to the diffuser (2) suitable for distributing fuel gases on the diffuser (2), having
a shape substantially equal to that of the diffuser (2).
3. Burner (1) according to claim 2, wherein said distributor (4) comprises a metal sheet
provided with openings or a metal net or a porous material.
4. Burner (1) according to any one of the previous claims, wherein said diffuser (2)
comprises a mesh made of metal or ceramic fibres or of a compact material having openings
or a porous material.
5. Burner (1) according to any one of the previous claims, wherein the diffuser (2) is
connected to a frame (9) substantially perpendicular to the flow direction of the
fuel gas.
6. Burner (1) according to claim 5, wherein the frame (9) delimits a passage opening
for the passage of the fuel and air mixture, wherein said passage opening is delimited
along said perimeter edges of the diffuser (2).
1. Brenner (1) für einen Gasheizkessel, umfassend einen Diffuser (2), welcher zum Zerstreuen
eines Stroms von vorgemischten Brenngasen in einer Brennkammer (3) geeignet ist,
wobei der Diffuser (2) einen Diffuserzentralabschnitt (10) und zwei Diffuserlängsumfangsabschnitte
(5) umfasst, wobei die zwei Diffuserlängsumfangsabschnitte (5) durch den Diffuserzentralabschnitt
(10) miteinander verbunden sind, wobei sich der Diffuserzentralabschnitt (10) für
eine Länge (1), welche größer als null ist, in eine Richtung lotrecht zu dem Brenngasstrom
längs erstreckt, und lotrecht zu der Längsrichtung des Diffusers (2) einen konstanten
Querschnitt aufweist, wobei der Querschnitt des Diffuserzentralabschnitts (10) als
ein Umfangsbogen gestaltet ist, welcher einen gleichförmigen Krümmungsradius (r) aufweist,
und in welchem jeder der Diffuserlängsumfangsabschnitte (5) als ein Abschnitt einer
Kugel mit einem Radius (r), welcher gleich dem Krümmungsradius (r) des Querschnitts
des Diffuserzentralabschnitts (10) ist, gestaltet ist, dadurch gekennzeichnet, dass der Diffuser (2) nur aus dem Diffuserzentralabschnitt (10) und den zwei Diffuserlängsumfangsabschnitten
(5) gebildet ist.
2. Brenner (1) nach Anspruch 1, ferner umfassend einen dem Diffuser (2) zugeordneten
Verteiler (4), welcher zum Verteilen von Brenngasen an dem Diffuser (2) eingerichtet
ist und eine Gestalt aufweist, welche im Wesentlichen der des Diffusers (2) gleicht.
3. Brenner (1) nach Anspruch 2, wobei der Verteiler (4) einen mit Öffnungen bereitgestellten
Metallbogen oder ein Metallnetz oder ein poröses Material umfasst.
4. Brenner (1) nach einem der vorhergehenden Ansprüche, wobei der Diffuser (2) ein Netz
umfasst, welches aus Metall oder Keramikfasern oder aus einem kompakten Material hergestellt
ist, welches Öffnungen oder ein poröse Material aufweist.
5. Brenner (1) nach einem der vorhergehenden Ansprüche, wobei der Diffuser (2) mit einem
Rahmen (9) verbunden ist, welcher im Wesentlichen zu der Strömungsrichtung des Brenngases
lotrecht ist.
6. Brenner (1) nach Anspruch 5, wobei der Rahmen (9) eine Durchlassöffnung für den Durchlass
der Mischung aus Brennstoff und Luft beschränkt, wobei die Durchlassöffnung entlang
der Umfangsränder des Diffusers (2) beschränkt ist.
1. Brûleur (1) pour chaudière à gaz comprenant un diffuseur (2), approprié pour diffuser
un flux de gaz combustibles pré-mélangés dans une chambre de combustion (3), dans
lequel ledit diffuseur (2) comprend une partie centrale de diffuseur (10) et deux
parties longitudinalement périphériques de diffuseur (5), lesdites deux parties longitudinalement
périphériques de diffuseur (5) étant reliées l'une à l'autre par ladite partie centrale
de diffuseur (10), ladite partie centrale de diffuseur (10) s'étendant longitudinalement
dans une direction perpendiculaire au flux de gaz combustibles sur une longueur (1)
supérieure à zéro et ayant une section transversale constante perpendiculaire à la
direction longitudinale du diffuseur (2), dans lequel ladite section transversale
de ladite partie centrale de diffuseur (10) a la forme d'un arc de circonférence ayant
un rayon de courbure uniforme (r), et en ce que chacune desdites parties longitudinalement
périphériques de diffuseur (5) a la forme d'une partie de sphère ayant un rayon (r)
égal audit rayon de courbure (r) de ladite section transversale de ladite partie centrale
de diffuseur (10), caractérisé en ce que le diffuseur (2) n'est constitué que par ladite partie centrale de diffuseur (10)
et lesdites deux parties longitudinalement périphériques de diffuseur (5).
2. Brûleur (1) selon la revendication 1, comprenant en outre un distributeur (4), associé
au diffuseur (2) adapté pour distribuer des gaz combustibles sur le diffuseur (2),
ayant une forme sensiblement égale à celle du diffuseur (2).
3. Brûleur (1) selon la revendication 2, dans lequel ledit distributeur (4) comprend
une feuille de métal pourvue d'ouvertures ou un filet métallique ou un matériau poreux.
4. Brûleur (1) selon l'une quelconque des revendications précédentes, dans lequel ledit
diffuseur (2) comprend un treillis composé de fibres de métal ou de céramique ou d'un
matériau compact ayant des ouvertures ou un matériau poreux.
5. Brûleur (1) selon l'une quelconque des revendications précédentes, dans lequel le
diffuseur (2) est relié à un cadre (9) sensiblement perpendiculaire à la direction
d'écoulement du gaz combustible.
6. Brûleur (1) selon la revendication 5, dans lequel le cadre (9) délimite une ouverture
de passage pour le passage du mélange air et combustible, dans lequel ladite ouverture
de passage est délimitée le long desdits bords de périmètre du diffuseur (2).