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Intercooling and Reheating and The Jet Propulsion Cycle

Intercooling and Reheating and The Jet Propulsion Cycle. Advantages of Intercooling. Reheating + Recooling + Regeneration. Reheating + Recooling + Regeneration. Approaches the Ericsson Cycle. Example 8-8. High Temp. and Press. Gases are accelerated to provide thrust.

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Intercooling and Reheating and The Jet Propulsion Cycle

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  1. Intercooling and ReheatingandThe Jet Propulsion Cycle

  2. Advantages of Intercooling

  3. Reheating + Recooling + Regeneration

  4. Reheating + Recooling + Regeneration

  5. Approaches the Ericsson Cycle

  6. Example 8-8

  7. High Temp. and Press. Gases are accelerated to provide thrust. Gases in turbine only expanded to point where turbine produces enough power for compressors, generators, and pumps.

  8. Efficiency = propulsive power/energy input of fuel

  9. F = (mdot)(Vexit) – (mdot)(Vinlet) Pp = (F)Vaircraft

  10. Example 8-9

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