Patent Grant
8641373
The present invention relates to the compression stages of gas turbines and more particularly to the diffusers that are usually found in such compression stages, e.g. in mixed flow or centrifugal type compressors.
The role of the diffuser is to straighten out the flow coming from the impeller of the compressor so as to recover the dynamic pressure of the fluid in the form of static pressure.
To do this, the diffuser generally comprises a plurality of vanes arranged around a circumference and held between two holder rings.
The deflection imposed by the vanes of the diffuser can give rise to the fluid on the pressure side or on the suction side of the vanes separating, which separation, whenever it is considerable, can lead to detachment of the fluid, and then to surging.
It is known that the surging effect is entirely detrimental to the elements constituting the compressor, so that it is sought to avoid it whenever possible.
The present invention, which seeks to mitigate that drawback, therefore relates more particularly to a diffuser for a mixed flow or centrifugal compressor of a gas turbine, the diffuser comprising at least one vane presenting a pressure side, a suction side, and a first flank, said vane being provided with a plurality of orifices opening out into the suction side and/or to the pressure side and communicating with at least one cavity formed in the vane, said cavity extending transversely relative to the vane and opening out into the first flank. In this example, the transverse direction is the direction extending between the first flank and the second flank of the vane opposite from the first flank.
The idea in this example is to gently suck in the fluid flowing over the suction side and/or on the pressure side so as to prevent it from becoming separated from the vane.
The structure of such a diffuser is already known from document U.S. Pat. No. 6,210,104 that provides an illustration thereof, even though the sought-after aim is different.
That document proposes sucking a portion of the fluid through holes made on the suction side of the vanes in order subsequently to use it as a cooling fluid for cooling hot parts of the turbine.
A drawback of that device is that suction of the fluid carried through the holes is not uniform over the suction side and consequently the fluid may still separate.
An object of the present invention is to propose a diffuser for a centrifugal or mixed flow compressor enabling fluid to be sucked in uniformly.
The invention achieves its object by the fact that the cross section of the cavity varies across the transverse direction of the vane, said cross section increasing towards the first flank.
In other words, the cross section of the cavity at the site of the first flank into which it opens out is greater than the cross section at the bottom of the cavity, it being understood that the bottom of the cavity is transversely opposite from the first flank.
This increase in the cross section of the cavity, considered from the bottom of the cavity, is selected in such a manner that the orifices communicating with said cavity have the same suction rate, and in addition, so that a single orifice has a suction rate that is uniform over its entire section.
Preferably, to do this, the cross-section of the cavity, considered along the transverse direction of the vane, increases proportionally with the increase in the overall suction section. Said overall suction section is equal to the sum of the sections of the orifices if the orifices are holes and/or equal to an integral if the suction orifice, such as a transverse slot, has a suction area that is continuous.
In the invention, the orifices may be located solely in the suction side, solely in the pressure side, or even in both the suction side and the pressure side.
In advantageous manner, the diffuser according to the invention includes a first series of orifices opening out into the suction side and communicating with at least one cavity formed in the vane and opening out into the first flank.
In a first variant, the diffuser includes a single cavity opening out into the first flank. All of the holes in the first series thus communicate with said single cavity formed in a thickness of the vane.
In a second variant, the diffuser includes a plurality of cavities forming recesses opening out into the first flank.
Preferably, said recesses are identical and also preferably, are of frustoconical shape. The cross section of said recesses is therefore a disk of radius that increases towards the first flank.
In advantageous manner, the diffuser further includes a second series of orifices opening out into the pressure side and communicating with at least one other cavity formed in the vane and opening out into one of the two flanks of the vane.
Preferably, said at least one other cavity also opens out into the first flank.
Advantageously, said other cavity has a cross section that varies, increasing towards the first flank.
By means of which, suction of the fluid is as uniform on the suction side of the vane as on its pressure side.
In a variant, the diffuser includes a single cavity opening out into the first flank.
In another variant, the diffuser comprises a plurality of cavities forming recesses opening out into the first flank. In this variant, each cavity is preferably of frustoconical shape.
In addition, the orifices are preferably transverse perforations and/or slots.
In accordance with the invention, several embodiments can be envisaged: perforations and slots may be associated; provision may be made for a plurality of perforations to be in communication with a single recess or even a single slot with a recess, or even for all of the orifices to be in communication with a single cavity formed in the vane.
Preferably but not exclusively, the diffuser is a radial diffuser.
Finally, the invention provides a turboengine including a diffuser in accordance with the present invention.
The invention can be better understood and its advantages appear more clearly on reading the following description of two embodiments given as non-limiting examples. The description makes reference to the accompanying drawings in which:
The diffuser of the present invention is in particular designed to be used with a compressor of the centrifugal or mixed flow type. “Mixed flow compressor” refers to a compressor in which the compressed fluid exits the compressor impeller at an angle lying in the range 0° and 70° relative to a radial direction.
In known manner, the compressed air exits the impeller 14 radially while presenting angular momentum. The role of the diffuser 18 is to straighten out the flow F coming from the impeller 14.
To do this, the diffuser 18 comprises a plurality of vanes 20 arranged around the circumference of the diffuser 18. Each vane 20 presents, in known manner, a longitudinal direction L, a transverse direction T, a suction side E, and a pressure side I.
With reference to
As can be seen in said figures showing one of the vanes 20, said vane has a first flank 22 and a second flank 24 that is transversely opposite from the first flank 22.
In addition, said vane 20 is provided with a first series of orifices 26 opening out into the suction side E. In this example, the orifices 26 of the first series are constituted by slots extending along the transverse direction T of the vane 20, the slots preferably being identical.
Each slot 26 of the first series is in communication with a cavity 30 forming a recess. The recesses 30, arranged next to one another, are formed in the thickness of the vane 20 in such a manner as to extend transversely relative to said vane while opening out only into the first flank 22 of the vane 20.
As can be seen in
In accordance with the invention, the cross sections of the recesses 30 vary, increasing towards the first flank, in application of a relationship that varies as shown in
This is shown in more clearly in
The variation in this example therefore follows a linear function. However, provision could be made for the variation to follow other functions that are not linear.
In a variant, the slots 26 may be replaced by perforations 32 arranged side by side and extending transversely as shown in
In an advantageous aspect of the present invention, the diffuser 18 further includes a second series of orifices 34, similar to the slots 26, opening out into the pressure side I.
Similarly to the orifices 30 of the first series, the orifices 34 of the second series are in communication with cavities 36, also forming recesses, that are separate from the cavities 30 communicating with the orifices 26 of the first series.
As shown in particular in
When fluid is flowing, as represented in the diagram by the arrow F, suction is applied to the recesses 30 and 36, thereby creating a suction action a on the surface of the suction side E and the pressure side I through the first and second series of slots 26, 34.
Said suction a tends to hold the flow of fluid F against the suction side E and the pressure side I of the vane 20, whereby, in advantageous manner, separation of the fluid F tends to be prevented. In other words, the flow of fluid F is forced to take on the shape of the suction side E and of the pressure side I.
With reference to
Elements that are identical to those in the first embodiment have the same numerical references plus 100.
The vane 120 shown in
It includes a first series of slots 126 opening out into the suction side E, and a second series of slots 134 opening out into the pressure side I. In a variant, the slots 126, 134 may be replaced by perforations 132 as shown in
The second embodiment differs from the first in that the slots 126 of the first series are in communication with a single first cavity 200 that is formed in the vane 120, whereas the slots 134 of the second series are in communication with a single second cavity 210 formed in the vane 120.
The first cavity 200 has a transverse extent that is slightly greater than the length of the slots 126 and a longitudinal extent that is not less than the longitudinal extent of the distribution of slots 126.
Similarly, the second cavity 210 has a transverse extent that is slightly greater than the length of the slots 134 and a longitudinal extent that is not less than the longitudinal extent of the distribution of slots 134.
As can be seen in
Both of them open out into the first flank 122 of the vane 120 that opposes a second flank 124 of the vane 120.
In this example, the variation follows a linear function.
As in the first embodiment, suction is applied via the cavities 200, 210 in such a manner as to draw the flow of fluid F against the surface of the suction side E and the pressure side I through the slots 126, 134 so as to avoid separation of the flow F.
An example of the relationship for variation in cross section is given in
Finally,
The recesses 30 associated with the orifices 26 of the first series are connected to a first chamber 50, while the recesses 36 associated with the orifices 34 of the second series are connected to a second chamber 52 that is separate from the first chamber 50.
The fluid sucked in from the slots 26 flows in the first chamber 50 via the recesses 30 before being discharged into the atmosphere for example, while the fluid sucked in from the slots 34 flows in the second chamber 52 via the recesses 36 before being discharged into the atmosphere AT. Naturally, leak-tightness between the first and second chambers 50, 52 must be ensured. Provision could be made for other methods of discharge while taking care that the fluid sucked in by the slots 26 does not meet with the fluid sucked in by the slots 34.
In a variant, it is also conceivable for the recesses associated with the orifices of the second series to open out into the second flank 24, after which the sucked-in air is discharged by the first flank 22 for air sucked in from the suction side E, and by the second flank 24 for air sucked in from the pressure side I.
| Number | Date | Country | Kind |
|---|---|---|---|
| 08 57053 | Oct 2008 | FR | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/FR2009/051966 | 10/15/2009 | WO | 00 | 6/27/2011 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2010/043820 | 4/22/2010 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 3694102 | Conrad | Sep 1972 | A |
| 4022541 | Perrigo et al. | May 1977 | A |
| 4099891 | Campbell | Jul 1978 | A |
| 6210104 | Schonenborn | Apr 2001 | B1 |
| 7101151 | Loringer et al. | Sep 2006 | B2 |
| Number | Date | Country |
|---|---|---|
| 2 041 149 | Sep 1980 | GB |
| 54 127014 | Oct 1979 | JP |
| 58 59399 | Apr 1983 | JP |
| Entry |
|---|
| Nakagawa et al., Diffuser with Vane for Centrifugal Turbomachine, Nov. 1, 1984, Abstract of JP59-192899. |
| International Search Report issued Jan. 28, 2010 in PCT/FR09/51966 filed Oct. 15, 2009. |
| Number | Date | Country | |
|---|---|---|---|
| 20110255962 A1 | Oct 2011 | US |
