Claims
- 1. A sliding vane internal combustion engine, comprising:
- a stator having a central cavity;
- a rotor disposed in said central cavity, said rotor having a plurality of radial slots and said rotor and stator being in relative rotation;
- a plurality of vanes, each of said plurality of vanes sliding within the respective radial slots of said rotor,
- said plurality of vanes, said stator cavity, and said rotor defining a plurality of chamber cells, said chamber cells creating cascading regions of compression, combustion, expansion, exhaust and intake; and
- one or more expansion gas ducts connecting said expansion region and said intake region to direct pressurized gases from said expansion region into said intake region so as to increase an intake charge density.
- 2. A sliding vane engine as in claim 1, further comprising one or more intercoolers coupled to said expansion gas ducts to cool the pressurized gases flowing into the intake region.
- 3. A sliding vane engine as in claim 2, further comprising one or more bypass passages to direct the pressurized gas flow around the intercooler.
- 4. A sliding vane engine as in claim 1, further comprising one or more flow control valves communicating with said expansion gas ducts to control the rate of the pressurized gas flow into the intake region.
- 5. A sliding vane engine as in claim 3, wherein said expansion gas ducts are located in side plates affixed to said stator.
- 6. A sliding vane engine as in claim 1, wherein said expansion gas ducts are located in said stator.
- 7. A sliding vane engine as in claim 1, wherein said expansion gas ducts are located in said stator and side plates affixed to said stator.
- 8. A sliding vane engine as in claim 1, further comprising a jet-pump connected to said expansion gas ducts and a fresh-air duct to draw in additional fresh-air into said intake region so as to further increase said intake charge density.
- 9. A method for reducing exhaust pollution emissions in a sliding vane internal combustion engine, said engine having a rotor disposed in a central cavity of a stator and a plurality of vanes sliding within respective slots in the rotor to create intake, compression, combustion, expansion and exhaust regions, the method comprising the steps of:
- inducting a fuel-air combination into the intake region;
- injecting pressurized gases from the expansion region into the intake region to achieve a diluent ratio less than about 0.6;
- thoroughly mixing the fuel-air combination and the pressurized gases;
- combusting said mixed fuel-air-pressurized gas combination;
- ducting, prior to exhausting, a portion of said combusted fuel-air-pressurized gas from the expansion region to the intake region; and
- exhausting remaining of said combusted fuel-air-pressurized gas combination.
- 10. A sliding vane internal combustion engine, comprising:
- a stator having a central cavity;
- a rotor disposed in said central cavity, said rotor having a plurality of radial slots and said rotor and stator being in relative rotation;
- a plurality of vanes, each of said plurality of vanes sliding within the respective radial slots of said rotor,
- said plurality of vanes, said stator cavity, and said rotor defining a plurality of chamber cells, said chamber cells creating cascading regions of compression, combustion, expansion, exhaust and intake; and
- one or more expansion gas ducts connecting said expansion region and said compression region to direct pressurized gases from said expansion region into said compression region so as to increase a charge density in said compression region.
Parent Case Info
This is a Continuation-In-Part of application Ser. No. 08/594,284 (Attorney Docket No. MALLEN.007), filed on Jan. 30, 1996, now abandoned.
US Referenced Citations (43)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2120373 |
Nov 1971 |
DEX |
Continuation in Parts (1)
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Number |
Date |
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Parent |
594284 |
Jan 1996 |
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