Centrifugal impeller with forward and reverse flow paths
A centrifugal impeller having an inlet and a plurality of outlets, the outlets including at least one outlet in a forward direction of the impeller and at least one outlet in a rearward direction of the impeller. A flow path distance of the outlet in the forward direction can be greater than a flow path distance of the outlet in the rearward direction in order to provide a greater pressure in the outlet having the greater flow path distance. In another embodiment, the flow path volume in the forward direction can be greater than the flow path volume in the rearward direction in order to provide a greater flow volume in the forward direction. In another embodiment, the number of flow paths in the forward direction can be greater than the number of flow paths in the rearward direction in order to provide a greater flow volume in the forward direction. The impeller is also used in a gas turbine engine in which the impeller also includes a turbine blade, and the forward directing outlets deliver compressed air to a combustor while the rearward directed outlets bypass the combustor.
The present invention relates to a centrifugal impeller having both a forward flow path and a rearward flow path for driving a fluid such as a gas or a liquid in two different directions, and more specifically to an impeller used in a small gas turbine engine in the compressor section.
BACKGROUND OF THE INVENTIONCentrifugal impellers are well known in the air of pumps used to pump a fluid such as a liquid or a gas. In a centrifugal impeller, a plurality of closed fluid paths is formed between an inner surface and an outer surface of the impeller. A common inlet located upstream of the plurality of closed fluid paths allows for the fluid to enter the impeller and then be divided up into the plurality of flow paths. Each flow path includes an exit to discharge the fluid from the impeller. Rotation of the impeller acts to drive the fluid from the inlet, through the closed passages, and out the individual outlets. In all prior art impellers, the inventors of the present invention are not aware of any that disclose outlets in more than one direction.
Gas turbine engines are known to have a compressor to compress air to be delivered to a combustor, and a fan to provide a bypass to the combustor. In this arrangement, a fan for the bypass is a separate impeller than the compressor used to deliver pressurized air to the combustor.
It is a purpose of the present invention to provide for a centrifugal impeller that includes both a forward directed flow path and a rearward directed flow path.
It is another object of the present invention to provide for a gas turbine engine that has both a combustion flow path and a bypass flow path, in which the centrifugal impeller of the present invention provides for both the flow path into the combustion chamber and the flow path for the bypass of the fan.
SUMMARY OF THE INVENTIONThe present invention is a centrifugal impeller with an alternating series of outlets, where one set of outlets directs air from the impeller in a forward direction, while the other set of outlets directs air toward in a rearward direction. A radial distance from the centerline of the impeller to the outlet of one path differs from the radial distance of another oath in order to vary the pressure of the flow paths. The forward flow path, because the radial distance is greater, will have a higher outlet pressure, and thus a greater flow volume, than would the flow path having the shorter radial distance.
A second embodiment of the present invention would include an unequal number of flow paths in the forward direction than in the rearward. In this embodiment, an even greater difference in flow volume can be produced because of the greater number of flow paths leading in the preferred direction.
In a third embodiment of the present invention, a number forward flow paths can be equal to a number of rearward flow paths, but the size of one of the flow paths can be larger to provide a greater flow volume in the direction having the greater number of flow paths.
The two path impeller of this invention is intended to be used in a gas turbine engine in which a forward flow from the impeller is supplied to the combustor and the rearward flow bypasses the combustor in the direction of the outlet of the turbine.
BRIEF DESCRIPTION OF THE DRAWINGS
A gas turbine engine 10 includes an impeller 12 to compress air for delivery to a combustor 26, guide vanes 14 and 16, a turbine blade 18 on the impeller 12 to convert hot gas airflow from the combustor 26 into useful work, an exhaust guide vane 20 downstream from the turbine blades 18, a bearing 28 to support the rotary elements of the engine, and an inlet 30 to the impeller 12.
A centrifugal impeller 12 has an inlet and an outlet for fluid that is pumped by the impeller. Impellers can pump both a liquid and a gas using the same configuration of impeller design. The impeller includes a centrally located inlet 31, a plurality of flow paths within the body of the impeller and extending from the inlet 31 through the impeller body, and a plurality of outlets 32 and 34 equal in number to the number of flow paths through the body. In the first embodiment of the present invention shown in
The present invention is best shown in
Further embodiments of the present invention will have a different flow volume directed toward the front versus the flow directed toward the rear. This different flow volume rate is controlled by providing more outlets directed to the higher flow rate side than the number of outlets on the lower flow rate side. Another structure to provide different flow rates would be to design the higher flow rate side with larger volume flow passages while maintaining the ratio of outlet passages at the one-to-one ratio.
Claims
1. A centrifugal impeller, comprising:
- A common inlet;
- A plurality of flow paths in communication with the common inlet;
- A plurality of outlets, each outlet associated with a respective flow path; and,
- At least one of the plurality of outlets being arranged to direct fluid flow substantially in a forward direction of the impeller, and at least one of the plurality of outlets being arranged to direct fluid flow substantially in a rearward direction of the impeller.
2. The impeller of claim 1, and further comprising:
- The at least one outlet in the forward direction has a flow path distance through the impeller greater than a flow path distance through the impeller of the outlet in the rearward direction.
3. The impeller of claim 1, and further comprising:
- A number of forward flow paths is equal to a number of rearward flow paths.
4. The impeller of claim 1, and further comprising:
- A number of forward flow paths is greater than a number of rearward flow paths.
5. The impeller of claim 1, and further comprising:
- A number of forward flow paths is less than a number of rearward flow paths.
6. The impeller of claim 1, and further comprising:
- A size of the forward flow path is greater than a size of the rearward flow path such that a greater volume of fluid flows in the forward flow path than does in the rearward flow path.
7. A gas turbine engine, comprising:
- A centrifugal impeller having an inlet and a plurality of outlets;
- A combustor arranged adjacent to the impeller;
- An outlet for the gas turbine engine;
- A turbine blade rotatably secured to the impeller;
- The impeller having at least one of the plurality of outlets directed toward the combustor, and the impeller having at least one of the plurality of outlets directed toward a bypass of the combustor, whereby the outlet directed toward the combustor provides compressed air for combustion and the outlet directed toward the bypass provides a bypass flow for the gas turbine engine.
7. The gas turbine engine of claim 7, and further comprising:
- A number of outlets in the impeller directed toward the combustor are equal to the number of outlets directed toward the bypass.
8. The gas turbine engine of claim 7, and further comprising:
- The outlet directed toward the combustor has a flow path distance in the impeller greater than a flow path distance in the impeller of the outlet directed to the bypass.
9. The gas turbine engine of claim 7, and further comprising:
- A number of outlets in the impeller directed toward the combustor are greater than the number of outlets directed to the bypass.
10. The gas turbine engine of claim 7, and further comprising:
- A size of the fluid passage of the outlet directed toward the combustor is greater than a size of the fluid passage of the outlet directed toward the bypass.
11. A process for operating a gas turbine engine, the process comprising the steps of:
- Providing for a centrifugal impeller and rotor assembly;
- Providing for a combustor adjacent to the impeller and rotor assembly;
- Providing for the impeller and rotor assembly to include at least one outlet to supply a compressed air to the combustor;
- Providing for the impeller and rotor assembly to include at least one outlet to bypass the combustor;
- Providing for the impeller and rotor assembly to include at least one turbine blade; and,
- Providing for a gas flow from the combustor to be directed against the turbine blade on the impeller and rotor assembly.
11. The process for operating a gas turbine engine of claim 11, and further comprising the step of:
- Providing for the outlet directed to the combustor to have a greater flow path distance in the impeller greater than a flow path distance in the impeller of the outlet directed to the bypass.
12. The process for operating a gas turbine engine of claim 11, and further comprising the step of:
- Providing for the impeller and rotor assembly to have an equal number of outlets directed toward the combustor as a number of outlets directed toward the bypass.
13. The process for operating a gas turbine engine of claim 11, and further comprising the step of:
- Providing for the impeller and rotor assembly to have a greater number of outlets directed toward the combustor as a number of outlets directed toward the bypass.
14. The process for operating a gas turbine engine of claim 11, and further comprising the step of:
- Providing for the outlet directed toward the combustor to have a greater flow volume than the outlet directed toward the bypass.
Type: Application
Filed: May 19, 2005
Publication Date: Nov 23, 2006
Inventor: Alfred Matheny (Jupiter, FL)
Application Number: 11/133,094
International Classification: F04D 29/44 (20060101);